1 /***********************************************************************************************************************************
2 * Copyright (c) 2000, 2001, 2002 International Business Machines Corp. and others. All rights reserved. This program and the
3 * accompanying materials are made available under the terms of the Common Public License v0.5 which accompanies this distribution,
4 * and is available at http://www.eclipse.org/legal/cpl-v05.html
6 * Contributors: IBM Corporation - initial API and implementation
7 **********************************************************************************************************************************/
8 package net.sourceforge.phpdt.internal.compiler.parser;
10 import java.util.ArrayList;
11 import java.util.Iterator;
12 import java.util.List;
14 import net.sourceforge.phpdt.core.compiler.CharOperation;
15 import net.sourceforge.phpdt.core.compiler.IScanner;
16 import net.sourceforge.phpdt.core.compiler.ITerminalSymbols;
17 import net.sourceforge.phpdt.core.compiler.InvalidInputException;
18 import net.sourceforge.phpdt.internal.compiler.ast.StringLiteral;
19 import net.sourceforge.phpdt.internal.compiler.env.ICompilationUnit;
21 public class Scanner implements IScanner, ITerminalSymbols {
23 * APIs ares - getNextToken() which return the current type of the token
24 * (this value is not memorized by the scanner) - getCurrentTokenSource()
25 * which provides with the token "REAL" source (aka all unicode have been
26 * transformed into a correct char) - sourceStart gives the position into
27 * the stream - currentPosition-1 gives the sourceEnd position into the
31 // private boolean assertMode;
32 public boolean useAssertAsAnIndentifier = false;
34 // flag indicating if processed source contains occurrences of keyword
36 public boolean containsAssertKeyword = false;
38 public boolean recordLineSeparator;
40 public boolean ignorePHPOneLiner = false;
42 public boolean phpMode = false;
45 * This token is set to TokenName.echo if a short tag block begins (i.e.
46 * >?= ... ) Directly after the "=" character the
47 * getNextToken() method returns TokenName.INLINE_HTML In the next call to
48 * the getNextToken() method the value of fFillerToken (==TokenName.echo) is
52 TokenName fFillerToken = TokenName.EOF;
54 public char currentCharacter;
56 public int startPosition;
58 public int currentPosition;
60 public int initialPosition, eofPosition;
62 // after this position eof are generated instead of real token from the
64 public boolean tokenizeComments;
66 public boolean tokenizeWhiteSpace;
68 public boolean tokenizeStrings;
70 // source should be viewed as a window (aka a part)
71 // of a entire very large stream
75 public char[] withoutUnicodeBuffer;
77 public int withoutUnicodePtr;
79 // when == 0 ==> no unicode in the current token
80 public boolean unicodeAsBackSlash = false;
82 public boolean scanningFloatLiteral = false;
84 // support for /** comments
85 public int[] commentStops = new int[10];
87 public int[] commentStarts = new int[10];
89 public int commentPtr = -1; // no comment test with commentPtr value -1
91 protected int lastCommentLinePosition = -1;
93 // diet parsing support - jump over some method body when requested
94 public boolean diet = false;
96 // support for the poor-line-debuggers ....
97 // remember the position of the cr/lf
98 public int[] lineEnds = new int[250];
100 public int linePtr = -1;
102 public boolean wasAcr = false;
104 public static final String END_OF_SOURCE = "End_Of_Source"; //$NON-NLS-1$
106 public static final String INVALID_HEXA = "Invalid_Hexa_Literal"; //$NON-NLS-1$
108 public static final String INVALID_OCTAL = "Invalid_Octal_Literal"; //$NON-NLS-1$
110 public static final String INVALID_CHARACTER_CONSTANT = "Invalid_Character_Constant"; //$NON-NLS-1$
112 public static final String INVALID_ESCAPE = "Invalid_Escape"; //$NON-NLS-1$
114 public static final String INVALID_INPUT = "Invalid_Input"; //$NON-NLS-1$
116 public static final String INVALID_UNICODE_ESCAPE = "Invalid_Unicode_Escape"; //$NON-NLS-1$
118 public static final String INVALID_FLOAT = "Invalid_Float_Literal"; //$NON-NLS-1$
120 public static final String NULL_SOURCE_STRING = "Null_Source_String"; //$NON-NLS-1$
122 public static final String UNTERMINATED_STRING = "Unterminated_String"; //$NON-NLS-1$
124 public static final String UNTERMINATED_COMMENT = "Unterminated_Comment"; //$NON-NLS-1$
126 public static final String INVALID_CHAR_IN_STRING = "Invalid_Char_In_String"; //$NON-NLS-1$
128 // ----------------optimized identifier managment------------------
129 static final char[] charArray_a = new char[] { 'a' },
130 charArray_b = new char[] { 'b' }, charArray_c = new char[] { 'c' },
131 charArray_d = new char[] { 'd' }, charArray_e = new char[] { 'e' },
132 charArray_f = new char[] { 'f' }, charArray_g = new char[] { 'g' },
133 charArray_h = new char[] { 'h' }, charArray_i = new char[] { 'i' },
134 charArray_j = new char[] { 'j' }, charArray_k = new char[] { 'k' },
135 charArray_l = new char[] { 'l' }, charArray_m = new char[] { 'm' },
136 charArray_n = new char[] { 'n' }, charArray_o = new char[] { 'o' },
137 charArray_p = new char[] { 'p' }, charArray_q = new char[] { 'q' },
138 charArray_r = new char[] { 'r' }, charArray_s = new char[] { 's' },
139 charArray_t = new char[] { 't' }, charArray_u = new char[] { 'u' },
140 charArray_v = new char[] { 'v' }, charArray_w = new char[] { 'w' },
141 charArray_x = new char[] { 'x' }, charArray_y = new char[] { 'y' },
142 charArray_z = new char[] { 'z' };
144 static final char[] charArray_va = new char[] { '$', 'a' },
145 charArray_vb = new char[] { '$', 'b' }, charArray_vc = new char[] {
146 '$', 'c' }, charArray_vd = new char[] { '$', 'd' },
147 charArray_ve = new char[] { '$', 'e' }, charArray_vf = new char[] {
148 '$', 'f' }, charArray_vg = new char[] { '$', 'g' },
149 charArray_vh = new char[] { '$', 'h' }, charArray_vi = new char[] {
150 '$', 'i' }, charArray_vj = new char[] { '$', 'j' },
151 charArray_vk = new char[] { '$', 'k' }, charArray_vl = new char[] {
152 '$', 'l' }, charArray_vm = new char[] { '$', 'm' },
153 charArray_vn = new char[] { '$', 'n' }, charArray_vo = new char[] {
154 '$', 'o' }, charArray_vp = new char[] { '$', 'p' },
155 charArray_vq = new char[] { '$', 'q' }, charArray_vr = new char[] {
156 '$', 'r' }, charArray_vs = new char[] { '$', 's' },
157 charArray_vt = new char[] { '$', 't' }, charArray_vu = new char[] {
158 '$', 'u' }, charArray_vv = new char[] { '$', 'v' },
159 charArray_vw = new char[] { '$', 'w' }, charArray_vx = new char[] {
160 '$', 'x' }, charArray_vy = new char[] { '$', 'y' },
161 charArray_vz = new char[] { '$', 'z' };
163 public final static int MAX_OBVIOUS = 256;
165 static final int[] ObviousIdentCharNatures = new int[MAX_OBVIOUS];
167 public final static int C_DOLLAR = 8;
169 public final static int C_LETTER = 4;
171 public final static int C_DIGIT = 3;
173 public final static int C_SEPARATOR = 2;
175 public final static int C_SPACE = 1;
177 for (int i = '0'; i <= '9'; i++)
178 ObviousIdentCharNatures[i] = C_DIGIT;
180 for (int i = 'a'; i <= 'z'; i++)
181 ObviousIdentCharNatures[i] = C_LETTER;
182 for (int i = 'A'; i <= 'Z'; i++)
183 ObviousIdentCharNatures[i] = C_LETTER;
184 ObviousIdentCharNatures['_'] = C_LETTER;
185 for (int i = 127; i <= 255; i++)
186 ObviousIdentCharNatures[i] = C_LETTER;
188 ObviousIdentCharNatures['$'] = C_DOLLAR;
190 ObviousIdentCharNatures[10] = C_SPACE; // \ u000a: LINE FEED
191 ObviousIdentCharNatures[12] = C_SPACE; // \ u000c: FORM FEED
192 ObviousIdentCharNatures[13] = C_SPACE; // \ u000d: CARRIAGE RETURN
193 ObviousIdentCharNatures[32] = C_SPACE; // \ u0020: SPACE
194 ObviousIdentCharNatures[9] = C_SPACE; // \ u0009: HORIZONTAL
197 ObviousIdentCharNatures['.'] = C_SEPARATOR;
198 ObviousIdentCharNatures[':'] = C_SEPARATOR;
199 ObviousIdentCharNatures[';'] = C_SEPARATOR;
200 ObviousIdentCharNatures[','] = C_SEPARATOR;
201 ObviousIdentCharNatures['['] = C_SEPARATOR;
202 ObviousIdentCharNatures[']'] = C_SEPARATOR;
203 ObviousIdentCharNatures['('] = C_SEPARATOR;
204 ObviousIdentCharNatures[')'] = C_SEPARATOR;
205 ObviousIdentCharNatures['{'] = C_SEPARATOR;
206 ObviousIdentCharNatures['}'] = C_SEPARATOR;
207 ObviousIdentCharNatures['+'] = C_SEPARATOR;
208 ObviousIdentCharNatures['-'] = C_SEPARATOR;
209 ObviousIdentCharNatures['*'] = C_SEPARATOR;
210 ObviousIdentCharNatures['/'] = C_SEPARATOR;
211 ObviousIdentCharNatures['='] = C_SEPARATOR;
212 ObviousIdentCharNatures['&'] = C_SEPARATOR;
213 ObviousIdentCharNatures['|'] = C_SEPARATOR;
214 ObviousIdentCharNatures['?'] = C_SEPARATOR;
215 ObviousIdentCharNatures['<'] = C_SEPARATOR;
216 ObviousIdentCharNatures['>'] = C_SEPARATOR;
217 ObviousIdentCharNatures['!'] = C_SEPARATOR;
218 ObviousIdentCharNatures['%'] = C_SEPARATOR;
219 ObviousIdentCharNatures['^'] = C_SEPARATOR;
220 ObviousIdentCharNatures['~'] = C_SEPARATOR;
221 ObviousIdentCharNatures['"'] = C_SEPARATOR;
222 ObviousIdentCharNatures['\''] = C_SEPARATOR;
225 static final char[] initCharArray = new char[] { '\u0000', '\u0000',
226 '\u0000', '\u0000', '\u0000', '\u0000' };
228 static final int TableSize = 30, InternalTableSize = 6;
230 // 30*6 = 180 entries
231 public static final int OptimizedLength = 6;
234 final char[][][][] charArray_length = new char[OptimizedLength][TableSize][InternalTableSize][];
236 // support for detecting non-externalized string literals
237 int currentLineNr = -1;
239 int previousLineNr = -1;
241 NLSLine currentLine = null;
243 List lines = new ArrayList();
245 public static final String TAG_PREFIX = "//$NON-NLS-"; //$NON-NLS-1$
247 public static final int TAG_PREFIX_LENGTH = TAG_PREFIX.length();
249 public static final String TAG_POSTFIX = "$"; //$NON-NLS-1$
251 public static final int TAG_POSTFIX_LENGTH = TAG_POSTFIX.length();
253 public StringLiteral[] nonNLSStrings = null;
255 public boolean checkNonExternalizedStringLiterals = true;
257 public boolean wasNonExternalizedStringLiteral = false;
260 for (int i = 0; i < 6; i++) {
261 for (int j = 0; j < TableSize; j++) {
262 for (int k = 0; k < InternalTableSize; k++) {
263 charArray_length[i][j][k] = initCharArray;
269 static int newEntry2 = 0, newEntry3 = 0, newEntry4 = 0, newEntry5 = 0,
272 public static final int RoundBracket = 0;
274 public static final int SquareBracket = 1;
276 public static final int CurlyBracket = 2;
278 public static final int BracketKinds = 3;
281 public char[][] foundTaskTags = null;
283 public char[][] foundTaskMessages;
285 public char[][] foundTaskPriorities = null;
287 public int[][] foundTaskPositions;
289 public int foundTaskCount = 0;
291 public char[][] taskTags = null;
293 public char[][] taskPriorities = null;
295 public boolean isTaskCaseSensitive = true;
297 public static final boolean DEBUG = false;
299 public static final boolean TRACE = false;
301 public ICompilationUnit compilationUnit = null;
304 * Determines if the specified character is permissible as the first
305 * character in a PHP identifier or variable
307 * The '$' character for PHP variables is regarded as a correct first
311 public static boolean isPHPIdentOrVarStart(char ch) {
312 if (ch < MAX_OBVIOUS) {
313 return ObviousIdentCharNatures[ch] == C_LETTER
314 || ObviousIdentCharNatures[ch] == C_DOLLAR;
317 // return Character.isLetter(ch) || (ch == '$') || (ch == '_') || (0x7F
319 // ch && ch <= 0xFF);
323 * Determines if the specified character is permissible as the first
324 * character in a PHP identifier.
326 * The '$' character for PHP variables isn't regarded as the first character !
328 public static boolean isPHPIdentifierStart(char ch) {
329 if (ch < MAX_OBVIOUS) {
330 return ObviousIdentCharNatures[ch] == C_LETTER;
333 // return Character.isLetter(ch) || (ch == '_') || (0x7F <= ch && ch <=
338 * Determines if the specified character may be part of a PHP identifier as
339 * other than the first character
341 public static boolean isPHPIdentifierPart(char ch) {
342 if (ch < MAX_OBVIOUS) {
343 return ObviousIdentCharNatures[ch] == C_LETTER
344 || ObviousIdentCharNatures[ch] == C_DIGIT;
347 // return Character.isLetterOrDigit(ch) || (ch == '_') || (0x7F <= ch &&
352 // public static boolean isSQLIdentifierPart(char ch) {
353 // if (ch < MAX_OBVIOUS) {
354 // return ObviousIdentCharNatures[ch] == C_LETTER
355 // || ObviousIdentCharNatures[ch] == C_DIGIT;
360 public final boolean atEnd() {
361 // This code is not relevant if source is
362 // Only a part of the real stream input
363 return source.length == currentPosition;
366 public char[] getCurrentIdentifierSource() {
367 // return the token REAL source (aka unicodes are precomputed)
369 // if (withoutUnicodePtr != 0)
370 // //0 is used as a fast test flag so the real first char is in position
373 // withoutUnicodeBuffer,
375 // result = new char[withoutUnicodePtr],
377 // withoutUnicodePtr);
379 int length = currentPosition - startPosition;
380 switch (length) { // see OptimizedLength
382 return optimizedCurrentTokenSource1();
384 return optimizedCurrentTokenSource2();
386 return optimizedCurrentTokenSource3();
388 return optimizedCurrentTokenSource4();
390 return optimizedCurrentTokenSource5();
392 return optimizedCurrentTokenSource6();
395 System.arraycopy(source, startPosition, result = new char[length], 0,
401 public int getCurrentTokenEndPosition() {
402 return this.currentPosition - 1;
405 public final char[] getCurrentTokenSource() {
406 // Return the token REAL source (aka unicodes are precomputed)
408 // if (withoutUnicodePtr != 0)
409 // // 0 is used as a fast test flag so the real first char is in
412 // withoutUnicodeBuffer,
414 // result = new char[withoutUnicodePtr],
416 // withoutUnicodePtr);
419 System.arraycopy(source, startPosition,
420 result = new char[length = currentPosition - startPosition], 0,
426 public final char[] getCurrentTokenSource(int startPos) {
427 // Return the token REAL source (aka unicodes are precomputed)
429 // if (withoutUnicodePtr != 0)
430 // // 0 is used as a fast test flag so the real first char is in
433 // withoutUnicodeBuffer,
435 // result = new char[withoutUnicodePtr],
437 // withoutUnicodePtr);
440 System.arraycopy(source, startPos,
441 result = new char[length = currentPosition - startPos], 0,
447 public final char[] getCurrentTokenSourceString() {
448 // return the token REAL source (aka unicodes are precomputed).
449 // REMOVE the two " that are at the beginning and the end.
451 if (withoutUnicodePtr != 0)
452 // 0 is used as a fast test flag so the real first char is in
454 System.arraycopy(withoutUnicodeBuffer, 2,
455 // 2 is 1 (real start) + 1 (to jump over the ")
456 result = new char[withoutUnicodePtr - 2], 0,
457 withoutUnicodePtr - 2);
460 System.arraycopy(source, startPosition + 1,
461 result = new char[length = currentPosition - startPosition
467 public final boolean equalsCurrentTokenSource(char[] word) {
468 if (word.length != currentPosition - startPosition) {
471 for (int i = 0; i < word.length; i++) {
472 if (word[i] != source[startPosition + i]) {
479 // public final char[] getRawTokenSourceEnd() {
480 // int length = this.eofPosition - this.currentPosition - 1;
481 // char[] sourceEnd = new char[length];
482 // System.arraycopy(this.source, this.currentPosition, sourceEnd, 0,
487 public int getCurrentTokenStartPosition() {
488 return this.startPosition;
491 // public final String getCurrentStringLiteral() {
492 // char[] result = getCurrentStringLiteralSource();
493 // return new String(result);
496 public final char[] getCurrentStringLiteralSource() {
497 // Return the token REAL source (aka unicodes are precomputed)
498 if (startPosition + 1 >= currentPosition) {
504 .arraycopy(source, startPosition + 1,
505 result = new char[length = currentPosition
506 - startPosition - 2], 0, length);
511 // public final char[] getCurrentStringLiteralSource(int startPos) {
512 // // Return the token REAL source (aka unicodes are precomputed)
515 // System.arraycopy(source, startPos + 1,
516 // result = new char[length = currentPosition - startPos - 2], 0,
523 * Search the source position corresponding to the end of a given line
526 * Line numbers are 1-based, and relative to the scanner initialPosition.
527 * Character positions are 0-based.
529 * In case the given line number is inconsistent, answers -1.
531 public final int getLineEnd(int lineNumber) {
532 if (lineEnds == null)
534 if (lineNumber >= lineEnds.length)
538 if (lineNumber == lineEnds.length - 1)
540 return lineEnds[lineNumber - 1];
541 // next line start one character behind the lineEnd of the previous line
545 * Search the source position corresponding to the beginning of a given line
548 * Line numbers are 1-based, and relative to the scanner initialPosition.
549 * Character positions are 0-based.
551 * e.g. getLineStart(1) --> 0 i.e. first line starts at character 0.
553 * In case the given line number is inconsistent, answers -1.
555 public final int getLineStart(int lineNumber) {
556 if (lineEnds == null)
558 if (lineNumber >= lineEnds.length)
563 return initialPosition;
564 return lineEnds[lineNumber - 2] + 1;
565 // next line start one character behind the lineEnd of the previous line
568 public final boolean getNextChar(char testedChar) {
570 // handle the case of unicode.
571 // when a unicode appears then we must use a buffer that holds char
573 // At the end of this method currentCharacter holds the new visited char
574 // and currentPosition points right next after it
575 // Both previous lines are true if the currentCharacter is == to the
577 // On false, no side effect has occured.
578 // ALL getNextChar.... ARE OPTIMIZED COPIES
579 int temp = currentPosition;
581 currentCharacter = source[currentPosition++];
582 // if (((currentCharacter = source[currentPosition++]) == '\\')
583 // && (source[currentPosition] == 'u')) {
584 // //-------------unicode traitement ------------
585 // int c1, c2, c3, c4;
586 // int unicodeSize = 6;
587 // currentPosition++;
588 // while (source[currentPosition] == 'u') {
589 // currentPosition++;
593 // if (((c1 = Character.getNumericValue(source[currentPosition++]))
596 // || ((c2 = Character.getNumericValue(source[currentPosition++])) >
599 // || ((c3 = Character.getNumericValue(source[currentPosition++])) >
602 // || ((c4 = Character.getNumericValue(source[currentPosition++])) >
605 // currentPosition = temp;
609 // currentCharacter = (char) (((c1 * 16 + c2) * 16 + c3) * 16 + c4);
610 // if (currentCharacter != testedChar) {
611 // currentPosition = temp;
614 // unicodeAsBackSlash = currentCharacter == '\\';
616 // //need the unicode buffer
617 // if (withoutUnicodePtr == 0) {
618 // //buffer all the entries that have been left aside....
619 // withoutUnicodePtr = currentPosition - unicodeSize -
624 // withoutUnicodeBuffer,
626 // withoutUnicodePtr);
628 // //fill the buffer with the char
629 // withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
632 // } //-------------end unicode traitement--------------
634 if (currentCharacter != testedChar) {
635 currentPosition = temp;
638 unicodeAsBackSlash = false;
639 // if (withoutUnicodePtr != 0)
640 // withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
643 } catch (IndexOutOfBoundsException e) {
644 unicodeAsBackSlash = false;
645 currentPosition = temp;
650 public final int getNextChar(char testedChar1, char testedChar2) {
651 // INT 0 : testChar1 \\\\///\\\\ 1 : testedChar2 \\\\///\\\\ -1 : others
652 // test can be done with (x==0) for the first and (x>0) for the second
653 // handle the case of unicode.
654 // when a unicode appears then we must use a buffer that holds char
656 // At the end of this method currentCharacter holds the new visited char
657 // and currentPosition points right next after it
658 // Both previous lines are true if the currentCharacter is == to the
660 // On false, no side effect has occured.
661 // ALL getNextChar.... ARE OPTIMIZED COPIES
662 int temp = currentPosition;
665 currentCharacter = source[currentPosition++];
666 // if (((currentCharacter = source[currentPosition++]) == '\\')
667 // && (source[currentPosition] == 'u')) {
668 // //-------------unicode traitement ------------
669 // int c1, c2, c3, c4;
670 // int unicodeSize = 6;
671 // currentPosition++;
672 // while (source[currentPosition] == 'u') {
673 // currentPosition++;
677 // if (((c1 = Character.getNumericValue(source[currentPosition++]))
680 // || ((c2 = Character.getNumericValue(source[currentPosition++])) >
683 // || ((c3 = Character.getNumericValue(source[currentPosition++])) >
686 // || ((c4 = Character.getNumericValue(source[currentPosition++])) >
689 // currentPosition = temp;
693 // currentCharacter = (char) (((c1 * 16 + c2) * 16 + c3) * 16 + c4);
694 // if (currentCharacter == testedChar1)
696 // else if (currentCharacter == testedChar2)
699 // currentPosition = temp;
703 // //need the unicode buffer
704 // if (withoutUnicodePtr == 0) {
705 // //buffer all the entries that have been left aside....
706 // withoutUnicodePtr = currentPosition - unicodeSize -
711 // withoutUnicodeBuffer,
713 // withoutUnicodePtr);
715 // //fill the buffer with the char
716 // withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
718 // } //-------------end unicode traitement--------------
720 if (currentCharacter == testedChar1)
722 else if (currentCharacter == testedChar2)
725 currentPosition = temp;
728 // if (withoutUnicodePtr != 0)
729 // withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
732 } catch (IndexOutOfBoundsException e) {
733 currentPosition = temp;
738 public final boolean getNextCharAsDigit() {
740 // handle the case of unicode.
741 // when a unicode appears then we must use a buffer that holds char
743 // At the end of this method currentCharacter holds the new visited char
744 // and currentPosition points right next after it
745 // Both previous lines are true if the currentCharacter is a digit
746 // On false, no side effect has occured.
747 // ALL getNextChar.... ARE OPTIMIZED COPIES
748 int temp = currentPosition;
750 currentCharacter = source[currentPosition++];
751 // if (((currentCharacter = source[currentPosition++]) == '\\')
752 // && (source[currentPosition] == 'u')) {
753 // //-------------unicode traitement ------------
754 // int c1, c2, c3, c4;
755 // int unicodeSize = 6;
756 // currentPosition++;
757 // while (source[currentPosition] == 'u') {
758 // currentPosition++;
762 // if (((c1 = Character.getNumericValue(source[currentPosition++]))
765 // || ((c2 = Character.getNumericValue(source[currentPosition++])) >
768 // || ((c3 = Character.getNumericValue(source[currentPosition++])) >
771 // || ((c4 = Character.getNumericValue(source[currentPosition++])) >
774 // currentPosition = temp;
778 // currentCharacter = (char) (((c1 * 16 + c2) * 16 + c3) * 16 + c4);
779 // if (!Character.isDigit(currentCharacter)) {
780 // currentPosition = temp;
784 // //need the unicode buffer
785 // if (withoutUnicodePtr == 0) {
786 // //buffer all the entries that have been left aside....
787 // withoutUnicodePtr = currentPosition - unicodeSize -
792 // withoutUnicodeBuffer,
794 // withoutUnicodePtr);
796 // //fill the buffer with the char
797 // withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
799 // } //-------------end unicode traitement--------------
801 if (!Character.isDigit(currentCharacter)) {
802 currentPosition = temp;
805 // if (withoutUnicodePtr != 0)
806 // withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
809 } catch (IndexOutOfBoundsException e) {
810 currentPosition = temp;
815 public final boolean getNextCharAsDigit(int radix) {
817 // handle the case of unicode.
818 // when a unicode appears then we must use a buffer that holds char
820 // At the end of this method currentCharacter holds the new visited char
821 // and currentPosition points right next after it
822 // Both previous lines are true if the currentCharacter is a digit base
825 // On false, no side effect has occured.
826 // ALL getNextChar.... ARE OPTIMIZED COPIES
827 int temp = currentPosition;
829 currentCharacter = source[currentPosition++];
830 // if (((currentCharacter = source[currentPosition++]) == '\\')
831 // && (source[currentPosition] == 'u')) {
832 // //-------------unicode traitement ------------
833 // int c1, c2, c3, c4;
834 // int unicodeSize = 6;
835 // currentPosition++;
836 // while (source[currentPosition] == 'u') {
837 // currentPosition++;
841 // if (((c1 = Character.getNumericValue(source[currentPosition++]))
844 // || ((c2 = Character.getNumericValue(source[currentPosition++])) >
847 // || ((c3 = Character.getNumericValue(source[currentPosition++])) >
850 // || ((c4 = Character.getNumericValue(source[currentPosition++])) >
853 // currentPosition = temp;
857 // currentCharacter = (char) (((c1 * 16 + c2) * 16 + c3) * 16 + c4);
858 // if (Character.digit(currentCharacter, radix) == -1) {
859 // currentPosition = temp;
863 // //need the unicode buffer
864 // if (withoutUnicodePtr == 0) {
865 // //buffer all the entries that have been left aside....
866 // withoutUnicodePtr = currentPosition - unicodeSize -
871 // withoutUnicodeBuffer,
873 // withoutUnicodePtr);
875 // //fill the buffer with the char
876 // withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
878 // } //-------------end unicode traitement--------------
880 if (Character.digit(currentCharacter, radix) == -1) {
881 currentPosition = temp;
884 // if (withoutUnicodePtr != 0)
885 // withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
888 } catch (IndexOutOfBoundsException e) {
889 currentPosition = temp;
894 public boolean getNextCharAsJavaIdentifierPart() {
896 // handle the case of unicode.
897 // when a unicode appears then we must use a buffer that holds char
899 // At the end of this method currentCharacter holds the new visited char
900 // and currentPosition points right next after it
901 // Both previous lines are true if the currentCharacter is a
902 // JavaIdentifierPart
903 // On false, no side effect has occured.
904 // ALL getNextChar.... ARE OPTIMIZED COPIES
905 int temp = currentPosition;
907 currentCharacter = source[currentPosition++];
908 // if (((currentCharacter = source[currentPosition++]) == '\\')
909 // && (source[currentPosition] == 'u')) {
910 // //-------------unicode traitement ------------
911 // int c1, c2, c3, c4;
912 // int unicodeSize = 6;
913 // currentPosition++;
914 // while (source[currentPosition] == 'u') {
915 // currentPosition++;
919 // if (((c1 = Character.getNumericValue(source[currentPosition++]))
922 // || ((c2 = Character.getNumericValue(source[currentPosition++])) >
925 // || ((c3 = Character.getNumericValue(source[currentPosition++])) >
928 // || ((c4 = Character.getNumericValue(source[currentPosition++])) >
931 // currentPosition = temp;
935 // currentCharacter = (char) (((c1 * 16 + c2) * 16 + c3) * 16 + c4);
936 // if (!isPHPIdentifierPart(currentCharacter)) {
937 // currentPosition = temp;
941 // //need the unicode buffer
942 // if (withoutUnicodePtr == 0) {
943 // //buffer all the entries that have been left aside....
944 // withoutUnicodePtr = currentPosition - unicodeSize -
949 // withoutUnicodeBuffer,
951 // withoutUnicodePtr);
953 // //fill the buffer with the char
954 // withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
956 // } //-------------end unicode traitement--------------
958 if (!isPHPIdentifierPart(currentCharacter)) {
959 currentPosition = temp;
962 // if (withoutUnicodePtr != 0)
963 // withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
966 } catch (IndexOutOfBoundsException e) {
967 currentPosition = temp;
972 public TokenName getCastOrParen() {
973 int tempPosition = currentPosition;
974 char tempCharacter = currentCharacter;
975 TokenName tempToken = TokenName.LPAREN;
976 boolean found = false;
977 StringBuffer buf = new StringBuffer();
980 currentCharacter = source[currentPosition++];
981 } while (currentCharacter == ' ' || currentCharacter == '\t');
982 while (ObviousIdentCharNatures[currentCharacter] == C_LETTER) {
983 // while((currentCharacter >= 'a' && currentCharacter <= 'z') ||
984 // (currentCharacter >= 'A' && currentCharacter <= 'Z')) {
985 buf.append(currentCharacter);
986 currentCharacter = source[currentPosition++];
988 if (buf.length() >= 3 && buf.length() <= 7) {
989 char[] data = buf.toString().toCharArray();
991 switch (data.length) {
994 if ((data[index] == 'i') && (data[++index] == 'n')
995 && (data[++index] == 't')) {
997 tempToken = TokenName.INTCAST;
1002 if ((data[index] == 'b') && (data[++index] == 'o')
1003 && (data[++index] == 'o') && (data[++index] == 'l')) {
1005 tempToken = TokenName.BOOLCAST;
1008 if ((data[index] == 'r') && (data[++index] == 'e')
1009 && (data[++index] == 'a')
1010 && (data[++index] == 'l')) {
1012 tempToken = TokenName.DOUBLECAST;
1017 // array unset float
1018 if ((data[index] == 'a') && (data[++index] == 'r')
1019 && (data[++index] == 'r') && (data[++index] == 'a')
1020 && (data[++index] == 'y')) {
1022 tempToken = TokenName.ARRAYCAST;
1025 if ((data[index] == 'u') && (data[++index] == 'n')
1026 && (data[++index] == 's')
1027 && (data[++index] == 'e')
1028 && (data[++index] == 't')) {
1030 tempToken = TokenName.UNSETCAST;
1033 if ((data[index] == 'f') && (data[++index] == 'l')
1034 && (data[++index] == 'o')
1035 && (data[++index] == 'a')
1036 && (data[++index] == 't')) {
1038 tempToken = TokenName.DOUBLECAST;
1044 // object string double
1045 if ((data[index] == 'o') && (data[++index] == 'b')
1046 && (data[++index] == 'j') && (data[++index] == 'e')
1047 && (data[++index] == 'c') && (data[++index] == 't')) {
1049 tempToken = TokenName.OBJECTCAST;
1052 if ((data[index] == 's') && (data[++index] == 't')
1053 && (data[++index] == 'r')
1054 && (data[++index] == 'i')
1055 && (data[++index] == 'n')
1056 && (data[++index] == 'g')) {
1058 tempToken = TokenName.STRINGCAST;
1061 if ((data[index] == 'd') && (data[++index] == 'o')
1062 && (data[++index] == 'u')
1063 && (data[++index] == 'b')
1064 && (data[++index] == 'l')
1065 && (data[++index] == 'e')) {
1067 tempToken = TokenName.DOUBLECAST;
1074 if ((data[index] == 'b') && (data[++index] == 'o')
1075 && (data[++index] == 'o') && (data[++index] == 'l')
1076 && (data[++index] == 'e') && (data[++index] == 'a')
1077 && (data[++index] == 'n')) {
1079 tempToken = TokenName.BOOLCAST;
1082 if ((data[index] == 'i') && (data[++index] == 'n')
1083 && (data[++index] == 't')
1084 && (data[++index] == 'e')
1085 && (data[++index] == 'g')
1086 && (data[++index] == 'e')
1087 && (data[++index] == 'r')) {
1089 tempToken = TokenName.INTCAST;
1095 while (currentCharacter == ' ' || currentCharacter == '\t') {
1096 currentCharacter = source[currentPosition++];
1098 if (currentCharacter == ')') {
1103 } catch (IndexOutOfBoundsException e) {
1105 currentCharacter = tempCharacter;
1106 currentPosition = tempPosition;
1107 return TokenName.LPAREN;
1114 public void consumeStringInterpolated() throws InvalidInputException {
1116 // consume next character
1117 unicodeAsBackSlash = false;
1118 currentCharacter = source[currentPosition++];
1119 // if (((currentCharacter = source[currentPosition++]) == '\\')
1120 // && (source[currentPosition] == 'u')) {
1121 // getNextUnicodeChar();
1123 // if (withoutUnicodePtr != 0) {
1124 // withoutUnicodeBuffer[++withoutUnicodePtr] =
1125 // currentCharacter;
1128 while (currentCharacter != '`') {
1129 /** ** in PHP \r and \n are valid in string literals *** */
1130 // if ((currentCharacter == '\n')
1131 // || (currentCharacter == '\r')) {
1132 // // relocate if finding another quote fairly close: thus
1134 // '/u000D' will be fully consumed
1135 // for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
1136 // if (currentPosition + lookAhead == source.length)
1138 // if (source[currentPosition + lookAhead] == '\n')
1140 // if (source[currentPosition + lookAhead] == '\"') {
1141 // currentPosition += lookAhead + 1;
1145 // throw new InvalidInputException(INVALID_CHAR_IN_STRING);
1147 if (currentCharacter == '\\') {
1148 int escapeSize = currentPosition;
1149 boolean backSlashAsUnicodeInString = unicodeAsBackSlash;
1150 // scanEscapeCharacter make a side effect on this value and
1152 // the previous value few lines down this one
1153 scanDoubleQuotedEscapeCharacter();
1154 escapeSize = currentPosition - escapeSize;
1155 if (withoutUnicodePtr == 0) {
1156 // buffer all the entries that have been left aside....
1157 withoutUnicodePtr = currentPosition - escapeSize - 1
1159 System.arraycopy(source, startPosition,
1160 withoutUnicodeBuffer, 1, withoutUnicodePtr);
1161 withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
1162 } else { // overwrite the / in the buffer
1163 withoutUnicodeBuffer[withoutUnicodePtr] = currentCharacter;
1164 if (backSlashAsUnicodeInString) { // there are TWO \
1166 // where only one is correct
1167 withoutUnicodePtr--;
1170 } else if ((currentCharacter == '\r')
1171 || (currentCharacter == '\n')) {
1172 if (recordLineSeparator) {
1173 pushLineSeparator();
1176 // consume next character
1177 unicodeAsBackSlash = false;
1178 currentCharacter = source[currentPosition++];
1179 // if (((currentCharacter = source[currentPosition++]) == '\\')
1180 // && (source[currentPosition] == 'u')) {
1181 // getNextUnicodeChar();
1183 if (withoutUnicodePtr != 0) {
1184 withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
1188 } catch (IndexOutOfBoundsException e) {
1189 // reset end position for error reporting
1190 currentPosition -= 2;
1191 throw new InvalidInputException(UNTERMINATED_STRING);
1192 } catch (InvalidInputException e) {
1193 if (e.getMessage().equals(INVALID_ESCAPE)) {
1194 // relocate if finding another quote fairly close: thus unicode
1195 // '/u000D' will be fully consumed
1196 for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
1197 if (currentPosition + lookAhead == source.length)
1199 if (source[currentPosition + lookAhead] == '\n')
1201 if (source[currentPosition + lookAhead] == '`') {
1202 currentPosition += lookAhead + 1;
1209 if (checkNonExternalizedStringLiterals) { // check for presence of NLS
1211 // //$NON-NLS-?$ where ? is an
1213 if (currentLine == null) {
1214 currentLine = new NLSLine();
1215 lines.add(currentLine);
1217 currentLine.add(new StringLiteral(getCurrentTokenSourceString(),
1218 startPosition, currentPosition - 1));
1222 public void consumeStringConstant() throws InvalidInputException {
1224 // consume next character
1225 unicodeAsBackSlash = false;
1226 currentCharacter = source[currentPosition++];
1227 // if (((currentCharacter = source[currentPosition++]) == '\\')
1228 // && (source[currentPosition] == 'u')) {
1229 // getNextUnicodeChar();
1231 // if (withoutUnicodePtr != 0) {
1232 // withoutUnicodeBuffer[++withoutUnicodePtr] =
1233 // currentCharacter;
1236 while (currentCharacter != '\'') {
1237 /** ** in PHP \r and \n are valid in string literals *** */
1238 // if ((currentCharacter == '\n')
1239 // || (currentCharacter == '\r')) {
1240 // // relocate if finding another quote fairly close: thus
1242 // '/u000D' will be fully consumed
1243 // for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
1244 // if (currentPosition + lookAhead == source.length)
1246 // if (source[currentPosition + lookAhead] == '\n')
1248 // if (source[currentPosition + lookAhead] == '\"') {
1249 // currentPosition += lookAhead + 1;
1253 // throw new InvalidInputException(INVALID_CHAR_IN_STRING);
1255 if (currentCharacter == '\\') {
1256 int escapeSize = currentPosition;
1257 boolean backSlashAsUnicodeInString = unicodeAsBackSlash;
1258 // scanEscapeCharacter make a side effect on this value and
1260 // the previous value few lines down this one
1261 scanSingleQuotedEscapeCharacter();
1262 escapeSize = currentPosition - escapeSize;
1263 if (withoutUnicodePtr == 0) {
1264 // buffer all the entries that have been left aside....
1265 withoutUnicodePtr = currentPosition - escapeSize - 1
1267 System.arraycopy(source, startPosition,
1268 withoutUnicodeBuffer, 1, withoutUnicodePtr);
1269 withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
1270 } else { // overwrite the / in the buffer
1271 withoutUnicodeBuffer[withoutUnicodePtr] = currentCharacter;
1272 if (backSlashAsUnicodeInString) { // there are TWO \
1274 // where only one is correct
1275 withoutUnicodePtr--;
1278 } else if ((currentCharacter == '\r')
1279 || (currentCharacter == '\n')) {
1280 if (recordLineSeparator) {
1281 pushLineSeparator();
1284 // consume next character
1285 unicodeAsBackSlash = false;
1286 currentCharacter = source[currentPosition++];
1287 // if (((currentCharacter = source[currentPosition++]) == '\\')
1288 // && (source[currentPosition] == 'u')) {
1289 // getNextUnicodeChar();
1291 if (withoutUnicodePtr != 0) {
1292 withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
1296 } catch (IndexOutOfBoundsException e) {
1297 // reset end position for error reporting
1298 currentPosition -= 2;
1299 throw new InvalidInputException(UNTERMINATED_STRING);
1300 } catch (InvalidInputException e) {
1301 if (e.getMessage().equals(INVALID_ESCAPE)) {
1302 // relocate if finding another quote fairly close: thus unicode
1303 // '/u000D' will be fully consumed
1304 for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
1305 if (currentPosition + lookAhead == source.length)
1307 if (source[currentPosition + lookAhead] == '\n')
1309 if (source[currentPosition + lookAhead] == '\'') {
1310 currentPosition += lookAhead + 1;
1317 if (checkNonExternalizedStringLiterals) { // check for presence of NLS
1319 // //$NON-NLS-?$ where ? is an
1321 if (currentLine == null) {
1322 currentLine = new NLSLine();
1323 lines.add(currentLine);
1325 currentLine.add(new StringLiteral(getCurrentTokenSourceString(),
1326 startPosition, currentPosition - 1));
1334 public void consumeStringLiteral() throws InvalidInputException {
1336 int openDollarBrace = 0;
1338 unicodeAsBackSlash = false;
1339 currentCharacter = source[currentPosition++]; // consume next character
1341 while (currentCharacter != '"' || // As long as the ending '"' isn't found, or
1342 openDollarBrace > 0) { // the last '}' isn't found
1343 if (currentCharacter == '\\') {
1344 int escapeSize = currentPosition;
1345 boolean backSlashAsUnicodeInString = unicodeAsBackSlash;
1347 // scanEscapeCharacter make a side effect on this value and we need
1348 // the previous value few lines down this one
1349 scanDoubleQuotedEscapeCharacter ();
1350 escapeSize = currentPosition - escapeSize;
1352 if (withoutUnicodePtr == 0) { // buffer all the entries that have been left aside....
1353 withoutUnicodePtr = currentPosition - escapeSize - 1 - startPosition;
1354 System.arraycopy (source, startPosition, withoutUnicodeBuffer, 1, withoutUnicodePtr);
1355 withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
1357 else { // overwrite the / in the buffer
1358 withoutUnicodeBuffer[withoutUnicodePtr] = currentCharacter;
1360 if (backSlashAsUnicodeInString) { // there are TWO \ in the stream where only one is correct
1361 withoutUnicodePtr--;
1365 else if (currentCharacter == '$' && source[currentPosition] == '{') { // If found '${'
1367 currentCharacter = source[currentPosition++]; // consume next character, or we count one open brace to much!
1369 else if (currentCharacter == '{' && source[currentPosition] == '$') { // If found '{$'
1372 else if (currentCharacter == '}') { // If found '}'
1375 else if ((currentCharacter == '\r') || (currentCharacter == '\n')) { // In PHP \r and \n are valid in string literals
1376 if (recordLineSeparator) {
1377 pushLineSeparator ();
1381 unicodeAsBackSlash = false;
1382 currentCharacter = source[currentPosition++]; // consume next character
1384 if (withoutUnicodePtr != 0) {
1385 withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
1388 } catch (IndexOutOfBoundsException e) {
1389 // reset end position for error reporting
1390 currentPosition -= 2;
1391 throw new InvalidInputException(UNTERMINATED_STRING);
1392 } catch (InvalidInputException e) {
1393 if (e.getMessage().equals(INVALID_ESCAPE)) {
1394 // relocate if finding another quote fairly close: thus unicode
1395 // '/u000D' will be fully consumed
1396 for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
1397 if (currentPosition + lookAhead == source.length)
1399 if (source[currentPosition + lookAhead] == '\n')
1401 if (source[currentPosition + lookAhead] == '\"') {
1402 currentPosition += lookAhead + 1;
1410 if (checkNonExternalizedStringLiterals) { // check for presence of NLS tags
1411 // $NON-NLS-?$ where ? is an int.
1412 if (currentLine == null) {
1413 currentLine = new NLSLine ();
1414 lines.add (currentLine);
1416 currentLine.add (new StringLiteral (getCurrentTokenSourceString (), startPosition, currentPosition - 1));
1423 public TokenName getNextToken() throws InvalidInputException {
1425 return getInlinedHTMLToken(currentPosition);
1427 if (fFillerToken != TokenName.EOF) {
1428 TokenName tempToken;
1429 startPosition = currentPosition;
1430 tempToken = fFillerToken;
1431 fFillerToken = TokenName.EOF;
1434 this.wasAcr = false;
1436 jumpOverMethodBody();
1438 return currentPosition > source.length ? TokenName.EOF
1443 withoutUnicodePtr = 0;
1444 // ---------Consume white space and handles
1445 // startPosition---------
1446 int whiteStart = currentPosition;
1447 startPosition = currentPosition;
1448 currentCharacter = source[currentPosition++];
1450 while ((currentCharacter == ' ') || Character.isWhitespace(currentCharacter)) {
1451 if ((currentCharacter == '\r') || (currentCharacter == '\n')) {
1452 checkNonExternalizeString();
1454 if (recordLineSeparator) {
1455 pushLineSeparator();
1460 startPosition = currentPosition;
1461 currentCharacter = source[currentPosition++];
1464 if (tokenizeWhiteSpace && (whiteStart != currentPosition - 1)) {
1465 // reposition scanner in case we are interested by
1468 startPosition = whiteStart;
1469 return TokenName.WHITESPACE;
1471 // little trick to get out in the middle of a source
1473 if (currentPosition > eofPosition)
1474 return TokenName.EOF;
1475 // ---------Identify the next token-------------
1476 switch (currentCharacter) {
1478 return getCastOrParen();
1480 return TokenName.RPAREN;
1482 return TokenName.LBRACE;
1484 return TokenName.RBRACE;
1486 return TokenName.LBRACKET;
1488 return TokenName.RBRACKET;
1490 return TokenName.SEMICOLON;
1492 return TokenName.COMMA;
1494 if (getNextChar('='))
1495 return TokenName.DOT_EQUAL;
1496 if (getNextCharAsDigit())
1497 return scanNumber(true);
1498 return TokenName.DOT;
1500 return TokenName.BACKSLASH;
1503 if ((test = getNextChar('+', '=')) == 0)
1504 return TokenName.PLUS_PLUS;
1506 return TokenName.PLUS_EQUAL;
1507 return TokenName.PLUS;
1511 if ((test = getNextChar('-', '=')) == 0)
1512 return TokenName.MINUS_MINUS;
1514 return TokenName.MINUS_EQUAL;
1515 if (getNextChar('>'))
1516 return TokenName.MINUS_GREATER;
1517 return TokenName.MINUS;
1520 if (getNextChar('='))
1521 return TokenName.TWIDDLE_EQUAL;
1522 return TokenName.TWIDDLE;
1524 if (getNextChar('=')) {
1525 if (getNextChar('=')) {
1526 return TokenName.NOT_EQUAL_EQUAL;
1528 return TokenName.NOT_EQUAL;
1530 return TokenName.NOT;
1532 if (getNextChar('='))
1533 return TokenName.MULTIPLY_EQUAL;
1534 return TokenName.MULTIPLY;
1536 if (getNextChar('='))
1537 return TokenName.REMAINDER_EQUAL;
1538 return TokenName.REMAINDER;
1540 int oldPosition = currentPosition;
1542 currentCharacter = source[currentPosition++];
1543 } catch (IndexOutOfBoundsException e) {
1544 currentPosition = oldPosition;
1545 return TokenName.LESS;
1547 switch (currentCharacter) {
1549 return TokenName.LESS_EQUAL;
1551 return TokenName.NOT_EQUAL;
1553 if (getNextChar('='))
1554 return TokenName.LEFT_SHIFT_EQUAL;
1555 if (getNextChar('<')) {
1556 currentCharacter = source[currentPosition++];
1557 while (Character.isWhitespace(currentCharacter)) {
1558 currentCharacter = source[currentPosition++];
1560 int heredocStart = currentPosition - 1;
1561 int heredocLength = 0;
1562 if (isPHPIdentifierStart(currentCharacter)) {
1563 currentCharacter = source[currentPosition++];
1565 return TokenName.ERROR;
1567 while (isPHPIdentifierPart(currentCharacter)) {
1568 currentCharacter = source[currentPosition++];
1570 heredocLength = currentPosition - heredocStart
1572 // heredoc end-tag determination
1573 boolean endTag = true;
1576 ch = source[currentPosition++];
1577 if (ch == '\r' || ch == '\n') {
1578 if (recordLineSeparator) {
1579 pushLineSeparator();
1583 for (int i = 0; i < heredocLength; i++) {
1584 if (source[currentPosition + i] != source[heredocStart
1591 currentPosition += heredocLength - 1;
1592 currentCharacter = source[currentPosition++];
1593 break; // do...while loop
1599 return TokenName.HEREDOC;
1601 return TokenName.LEFT_SHIFT;
1603 currentPosition = oldPosition;
1604 return TokenName.LESS;
1608 if ((test = getNextChar('=', '>')) == 0)
1609 return TokenName.GREATER_EQUAL;
1611 if ((test = getNextChar('=', '>')) == 0)
1612 return TokenName.RIGHT_SHIFT_EQUAL;
1613 return TokenName.RIGHT_SHIFT;
1615 return TokenName.GREATER;
1618 if (getNextChar('=')) {
1619 if (getNextChar('=')) {
1620 return TokenName.EQUAL_EQUAL_EQUAL;
1622 return TokenName.EQUAL_EQUAL;
1624 if (getNextChar('>'))
1625 return TokenName.EQUAL_GREATER;
1626 return TokenName.EQUAL;
1629 if ((test = getNextChar('&', '=')) == 0)
1630 return TokenName.AND_AND;
1632 return TokenName.AND_EQUAL;
1633 return TokenName.OP_AND;
1637 if ((test = getNextChar('|', '=')) == 0)
1638 return TokenName.OR_OR;
1640 return TokenName.OR_EQUAL;
1641 return TokenName.OP_OR;
1644 if (getNextChar('='))
1645 return TokenName.XOR_EQUAL;
1646 return TokenName.OP_XOR;
1648 if (getNextChar('>')) {
1650 if (currentPosition == source.length) {
1652 return TokenName.INLINE_HTML;
1654 return getInlinedHTMLToken(currentPosition - 2);
1656 else if (getNextChar(':')) {
1657 return TokenName.TERNARY_SHORT;
1660 return TokenName.QUESTION;
1663 if (getNextChar(':'))
1664 return TokenName.PAAMAYIM_NEKUDOTAYIM;
1665 return TokenName.COLON;
1667 return TokenName.OP_AT;
1669 consumeStringConstant();
1670 return TokenName.STRINGSINGLEQUOTE;
1672 // if (tokenizeStrings) {
1673 consumeStringLiteral();
1674 return TokenName.STRINGDOUBLEQUOTE;
1676 // return TokenName.EncapsedString2;
1678 // if (tokenizeStrings) {
1679 consumeStringInterpolated();
1680 return TokenName.STRINGINTERPOLATED;
1682 // return TokenName.EncapsedString0;
1685 char startChar = currentCharacter;
1686 if (getNextChar('=') && startChar == '/') {
1687 return TokenName.DIVIDE_EQUAL;
1690 if ((startChar == '#')
1691 || (test = getNextChar('/', '*')) == 0) {
1693 this.lastCommentLinePosition = this.currentPosition;
1694 int endPositionForLineComment = 0;
1695 try { // get the next char
1696 currentCharacter = source[currentPosition++];
1697 // if (((currentCharacter =
1698 // source[currentPosition++])
1700 // && (source[currentPosition] == 'u')) {
1701 // //-------------unicode traitement
1703 // int c1 = 0, c2 = 0, c3 = 0, c4 = 0;
1704 // currentPosition++;
1705 // while (source[currentPosition] == 'u') {
1706 // currentPosition++;
1709 // Character.getNumericValue(source[currentPosition++]))
1713 // Character.getNumericValue(source[currentPosition++]))
1717 // Character.getNumericValue(source[currentPosition++]))
1721 // Character.getNumericValue(source[currentPosition++]))
1725 // InvalidInputException(INVALID_UNICODE_ESCAPE);
1727 // currentCharacter =
1728 // (char) (((c1 * 16 + c2) * 16 + c3) * 16 +
1732 // handle the \\u case manually into comment
1733 // if (currentCharacter == '\\') {
1734 // if (source[currentPosition] == '\\')
1735 // currentPosition++;
1736 // } //jump over the \\
1737 boolean isUnicode = false;
1738 while (currentCharacter != '\r'
1739 && currentCharacter != '\n') {
1740 this.lastCommentLinePosition = this.currentPosition;
1741 if (currentCharacter == '?') {
1742 if (getNextChar('>')) {
1743 // ?> breaks line comments
1744 startPosition = currentPosition - 2;
1746 return TokenName.INLINE_HTML;
1749 // get the next char
1751 currentCharacter = source[currentPosition++];
1752 // if (((currentCharacter =
1753 // source[currentPosition++])
1755 // && (source[currentPosition] == 'u')) {
1756 // isUnicode = true;
1757 // //-------------unicode traitement
1759 // int c1 = 0, c2 = 0, c3 = 0, c4 = 0;
1760 // currentPosition++;
1761 // while (source[currentPosition] == 'u') {
1762 // currentPosition++;
1765 // Character.getNumericValue(source[currentPosition++]))
1769 // Character.getNumericValue(
1770 // source[currentPosition++]))
1774 // Character.getNumericValue(
1775 // source[currentPosition++]))
1779 // Character.getNumericValue(
1780 // source[currentPosition++]))
1784 // InvalidInputException(INVALID_UNICODE_ESCAPE);
1786 // currentCharacter =
1787 // (char) (((c1 * 16 + c2) * 16 + c3) * 16 +
1791 // handle the \\u case manually into comment
1792 // if (currentCharacter == '\\') {
1793 // if (source[currentPosition] == '\\')
1794 // currentPosition++;
1795 // } //jump over the \\
1798 endPositionForLineComment = currentPosition - 6;
1800 endPositionForLineComment = currentPosition - 1;
1802 // recordComment(false);
1803 recordComment(TokenName.COMMENT_LINE);
1804 if (this.taskTags != null)
1805 checkTaskTag(this.startPosition,
1806 this.currentPosition);
1807 if ((currentCharacter == '\r')
1808 || (currentCharacter == '\n')) {
1809 checkNonExternalizeString();
1810 if (recordLineSeparator) {
1812 pushUnicodeLineSeparator();
1814 pushLineSeparator();
1820 if (tokenizeComments) {
1822 currentPosition = endPositionForLineComment;
1823 // reset one character behind
1825 return TokenName.COMMENT_LINE;
1827 } catch (IndexOutOfBoundsException e) { // an eof
1830 if (tokenizeComments) {
1832 // reset one character behind
1833 return TokenName.COMMENT_LINE;
1839 // traditional and annotation comment
1840 boolean isJavadoc = false, star = false;
1841 // consume next character
1842 unicodeAsBackSlash = false;
1843 currentCharacter = source[currentPosition++];
1844 // if (((currentCharacter =
1845 // source[currentPosition++]) ==
1847 // && (source[currentPosition] == 'u')) {
1848 // getNextUnicodeChar();
1850 // if (withoutUnicodePtr != 0) {
1851 // withoutUnicodeBuffer[++withoutUnicodePtr] =
1852 // currentCharacter;
1855 if (currentCharacter == '*') {
1859 if ((currentCharacter == '\r')
1860 || (currentCharacter == '\n')) {
1861 checkNonExternalizeString();
1862 if (recordLineSeparator) {
1863 pushLineSeparator();
1868 try { // get the next char
1869 currentCharacter = source[currentPosition++];
1870 // if (((currentCharacter =
1871 // source[currentPosition++])
1873 // && (source[currentPosition] == 'u')) {
1874 // //-------------unicode traitement
1876 // getNextUnicodeChar();
1878 // handle the \\u case manually into comment
1879 // if (currentCharacter == '\\') {
1880 // if (source[currentPosition] == '\\')
1881 // currentPosition++;
1882 // //jump over the \\
1884 // empty comment is not a javadoc /**/
1885 if (currentCharacter == '/') {
1888 // loop until end of comment */
1889 while ((currentCharacter != '/') || (!star)) {
1890 if ((currentCharacter == '\r')
1891 || (currentCharacter == '\n')) {
1892 checkNonExternalizeString();
1893 if (recordLineSeparator) {
1894 pushLineSeparator();
1899 star = currentCharacter == '*';
1901 currentCharacter = source[currentPosition++];
1902 // if (((currentCharacter =
1903 // source[currentPosition++])
1905 // && (source[currentPosition] == 'u')) {
1906 // //-------------unicode traitement
1908 // getNextUnicodeChar();
1910 // handle the \\u case manually into comment
1911 // if (currentCharacter == '\\') {
1912 // if (source[currentPosition] == '\\')
1913 // currentPosition++;
1914 // } //jump over the \\
1916 // recordComment(isJavadoc);
1918 recordComment(TokenName.COMMENT_PHPDOC);
1920 recordComment(TokenName.COMMENT_BLOCK);
1923 if (tokenizeComments) {
1925 return TokenName.COMMENT_PHPDOC;
1926 return TokenName.COMMENT_BLOCK;
1929 if (this.taskTags != null) {
1930 checkTaskTag(this.startPosition,
1931 this.currentPosition);
1933 } catch (IndexOutOfBoundsException e) {
1934 // reset end position for error reporting
1935 currentPosition -= 2;
1936 throw new InvalidInputException(
1937 UNTERMINATED_COMMENT);
1941 return TokenName.DIVIDE;
1945 return TokenName.EOF;
1946 // the atEnd may not be <currentPosition ==
1947 // source.length> if
1948 // source is only some part of a real (external) stream
1949 throw new InvalidInputException("Ctrl-Z"); //$NON-NLS-1$
1951 if (currentCharacter == '$') {
1952 int oldPosition = currentPosition;
1954 currentCharacter = source[currentPosition++];
1955 if (isPHPIdentifierStart(currentCharacter)) {
1956 return scanIdentifierOrKeyword(true);
1958 currentPosition = oldPosition;
1959 return TokenName.DOLLAR;
1961 } catch (IndexOutOfBoundsException e) {
1962 currentPosition = oldPosition;
1963 return TokenName.DOLLAR;
1967 if (isPHPIdentifierStart(currentCharacter)) {
1968 return scanIdentifierOrKeyword(false);
1971 if (Character.isDigit(currentCharacter)) {
1972 return scanNumber(false);
1975 return TokenName.ERROR;
1978 } // -----------------end switch while try--------------------
1979 catch (IndexOutOfBoundsException e) {
1982 return TokenName.EOF;
1987 * @throws InvalidInputException
1989 private TokenName getInlinedHTMLToken(int start) throws InvalidInputException {
1990 boolean phpShortTag = false; // true, if <?= detected
1991 if (currentPosition > source.length) {
1992 currentPosition = source.length;
1993 return TokenName.EOF;
1995 startPosition = start;
1998 currentCharacter = source[currentPosition++];
1999 if (currentCharacter == '<') {
2000 if (getNextChar('?')) {
2001 currentCharacter = source[currentPosition++];
2002 if ((currentCharacter != 'P')
2003 && (currentCharacter != 'p')) {
2004 if (currentCharacter != '=') { // <?=
2006 phpShortTag = false;
2011 if (ignorePHPOneLiner) { // for CodeFormatter
2012 if (lookAheadLinePHPTag() == TokenName.INLINE_HTML) {
2015 fFillerToken = TokenName.ECHO_INVISIBLE;
2017 return TokenName.INLINE_HTML;
2020 boolean foundXML = false;
2021 if (getNextChar('X', 'x') >= 0) {
2022 if (getNextChar('M', 'm') >= 0) {
2023 if (getNextChar('L', 'l') >= 0) {
2032 fFillerToken = TokenName.ECHO_INVISIBLE;
2034 return TokenName.INLINE_HTML;
2037 if (getNextChar('H', 'h') >= 0) {
2038 if (getNextChar('P', 'p') >= 0) {
2040 if (ignorePHPOneLiner) {
2041 if (lookAheadLinePHPTag() == TokenName.INLINE_HTML) {
2043 return TokenName.INLINE_HTML;
2047 return TokenName.INLINE_HTML;
2055 if ((currentCharacter == '\r') || (currentCharacter == '\n')) {
2056 if (recordLineSeparator) {
2057 pushLineSeparator();
2062 } // -----------------while--------------------
2064 return TokenName.INLINE_HTML;
2065 } // -----------------try--------------------
2066 catch (IndexOutOfBoundsException e) {
2067 startPosition = start;
2071 return TokenName.INLINE_HTML;
2075 * check if the PHP is only in this line (for CodeFormatter)
2079 private TokenName lookAheadLinePHPTag() {
2080 int currentPositionInLine = currentPosition;
2081 char previousCharInLine = ' ';
2082 char currentCharInLine = ' ';
2083 boolean singleQuotedStringActive = false;
2084 boolean doubleQuotedStringActive = false;
2087 // look ahead in this line
2089 previousCharInLine = currentCharInLine;
2090 currentCharInLine = source[currentPositionInLine++];
2091 switch (currentCharInLine) {
2093 if (previousCharInLine == '?') {
2094 // update the scanner's current Position in the source
2095 currentPosition = currentPositionInLine;
2096 // use as "dummy" token
2097 return TokenName.EOF;
2101 if (doubleQuotedStringActive) {
2102 // ignore escaped characters in double quoted strings
2103 previousCharInLine = currentCharInLine;
2104 currentCharInLine = source[currentPositionInLine++];
2107 if (doubleQuotedStringActive) {
2108 doubleQuotedStringActive = false;
2110 if (!singleQuotedStringActive) {
2111 doubleQuotedStringActive = true;
2116 if (singleQuotedStringActive) {
2117 if (previousCharInLine != '\\') {
2118 singleQuotedStringActive = false;
2121 if (!doubleQuotedStringActive) {
2122 singleQuotedStringActive = true;
2128 return TokenName.INLINE_HTML;
2130 if (!singleQuotedStringActive && !doubleQuotedStringActive) {
2132 return TokenName.INLINE_HTML;
2136 if (previousCharInLine == '/' && !singleQuotedStringActive
2137 && !doubleQuotedStringActive) {
2139 return TokenName.INLINE_HTML;
2143 if (previousCharInLine == '/' && !singleQuotedStringActive
2144 && !doubleQuotedStringActive) {
2146 return TokenName.INLINE_HTML;
2151 } catch (IndexOutOfBoundsException e) {
2153 currentPosition = currentPositionInLine - 1;
2154 return TokenName.INLINE_HTML;
2158 // public final void getNextUnicodeChar()
2159 // throws IndexOutOfBoundsException, InvalidInputException {
2161 // //handle the case of unicode.
2162 // //when a unicode appears then we must use a buffer that holds char
2164 // //At the end of this method currentCharacter holds the new visited char
2165 // //and currentPosition points right next after it
2167 // //ALL getNextChar.... ARE OPTIMIZED COPIES
2169 // int c1 = 0, c2 = 0, c3 = 0, c4 = 0, unicodeSize = 6;
2170 // currentPosition++;
2171 // while (source[currentPosition] == 'u') {
2172 // currentPosition++;
2176 // if ((c1 = Character.getNumericValue(source[currentPosition++])) > 15
2178 // || (c2 = Character.getNumericValue(source[currentPosition++])) > 15
2180 // || (c3 = Character.getNumericValue(source[currentPosition++])) > 15
2182 // || (c4 = Character.getNumericValue(source[currentPosition++])) > 15
2184 // throw new InvalidInputException(INVALID_UNICODE_ESCAPE);
2186 // currentCharacter = (char) (((c1 * 16 + c2) * 16 + c3) * 16 + c4);
2187 // //need the unicode buffer
2188 // if (withoutUnicodePtr == 0) {
2189 // //buffer all the entries that have been left aside....
2190 // withoutUnicodePtr = currentPosition - unicodeSize - startPosition;
2191 // System.arraycopy(
2194 // withoutUnicodeBuffer,
2196 // withoutUnicodePtr);
2198 // //fill the buffer with the char
2199 // withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
2201 // unicodeAsBackSlash = currentCharacter == '\\';
2204 * Tokenize a method body, assuming that curly brackets are properly
2207 public final void jumpOverMethodBody() {
2208 this.wasAcr = false;
2211 while (true) { // loop for jumping over comments
2212 // ---------Consume white space and handles
2213 // startPosition---------
2214 boolean isWhiteSpace;
2216 startPosition = currentPosition;
2217 currentCharacter = source[currentPosition++];
2218 // if (((currentCharacter = source[currentPosition++]) ==
2220 // && (source[currentPosition] == 'u')) {
2221 // isWhiteSpace = jumpOverUnicodeWhiteSpace();
2223 if (recordLineSeparator
2224 && ((currentCharacter == '\r') || (currentCharacter == '\n')))
2225 pushLineSeparator();
2226 isWhiteSpace = Character.isWhitespace(currentCharacter);
2228 } while (isWhiteSpace);
2229 // -------consume token until } is found---------
2230 switch (currentCharacter) {
2241 test = getNextChar('\\');
2244 scanDoubleQuotedEscapeCharacter();
2245 } catch (InvalidInputException ex) {
2249 // try { // consume next character
2250 unicodeAsBackSlash = false;
2251 currentCharacter = source[currentPosition++];
2252 // if (((currentCharacter = source[currentPosition++])
2254 // && (source[currentPosition] == 'u')) {
2255 // getNextUnicodeChar();
2257 if (withoutUnicodePtr != 0) {
2258 withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
2261 // } catch (InvalidInputException ex) {
2269 // try { // consume next character
2270 unicodeAsBackSlash = false;
2271 currentCharacter = source[currentPosition++];
2272 // if (((currentCharacter = source[currentPosition++])
2274 // && (source[currentPosition] == 'u')) {
2275 // getNextUnicodeChar();
2277 if (withoutUnicodePtr != 0) {
2278 withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
2281 // } catch (InvalidInputException ex) {
2283 while (currentCharacter != '"') {
2284 if (currentCharacter == '\r') {
2285 if (source[currentPosition] == '\n')
2288 // the string cannot go further that the line
2290 if (currentCharacter == '\n') {
2292 // the string cannot go further that the line
2294 if (currentCharacter == '\\') {
2296 scanDoubleQuotedEscapeCharacter();
2297 } catch (InvalidInputException ex) {
2301 // try { // consume next character
2302 unicodeAsBackSlash = false;
2303 currentCharacter = source[currentPosition++];
2304 // if (((currentCharacter =
2305 // source[currentPosition++]) == '\\')
2306 // && (source[currentPosition] == 'u')) {
2307 // getNextUnicodeChar();
2309 if (withoutUnicodePtr != 0) {
2310 withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
2313 // } catch (InvalidInputException ex) {
2316 } catch (IndexOutOfBoundsException e) {
2322 if ((test = getNextChar('/', '*')) == 0) {
2325 // get the next char
2326 currentCharacter = source[currentPosition++];
2327 // if (((currentCharacter =
2328 // source[currentPosition++]) ==
2330 // && (source[currentPosition] == 'u')) {
2331 // //-------------unicode traitement ------------
2332 // int c1 = 0, c2 = 0, c3 = 0, c4 = 0;
2333 // currentPosition++;
2334 // while (source[currentPosition] == 'u') {
2335 // currentPosition++;
2338 // Character.getNumericValue(source[currentPosition++]))
2342 // Character.getNumericValue(source[currentPosition++]))
2346 // Character.getNumericValue(source[currentPosition++]))
2350 // Character.getNumericValue(source[currentPosition++]))
2353 // //error don't care of the value
2354 // currentCharacter = 'A';
2355 // } //something different from \n and \r
2357 // currentCharacter =
2358 // (char) (((c1 * 16 + c2) * 16 + c3) * 16 + c4);
2361 while (currentCharacter != '\r'
2362 && currentCharacter != '\n') {
2363 // get the next char
2364 currentCharacter = source[currentPosition++];
2365 // if (((currentCharacter =
2366 // source[currentPosition++])
2368 // && (source[currentPosition] == 'u')) {
2369 // //-------------unicode traitement
2371 // int c1 = 0, c2 = 0, c3 = 0, c4 = 0;
2372 // currentPosition++;
2373 // while (source[currentPosition] == 'u') {
2374 // currentPosition++;
2377 // Character.getNumericValue(source[currentPosition++]))
2381 // Character.getNumericValue(source[currentPosition++]))
2385 // Character.getNumericValue(source[currentPosition++]))
2389 // Character.getNumericValue(source[currentPosition++]))
2392 // //error don't care of the value
2393 // currentCharacter = 'A';
2394 // } //something different from \n and \r
2396 // currentCharacter =
2397 // (char) (((c1 * 16 + c2) * 16 + c3) * 16 +
2402 if (recordLineSeparator
2403 && ((currentCharacter == '\r') || (currentCharacter == '\n')))
2404 pushLineSeparator();
2405 } catch (IndexOutOfBoundsException e) {
2406 } // an eof will them be generated
2410 // traditional and annotation comment
2411 boolean star = false;
2412 // try { // consume next character
2413 unicodeAsBackSlash = false;
2414 currentCharacter = source[currentPosition++];
2415 // if (((currentCharacter = source[currentPosition++])
2417 // && (source[currentPosition] == 'u')) {
2418 // getNextUnicodeChar();
2420 if (withoutUnicodePtr != 0) {
2421 withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
2424 // } catch (InvalidInputException ex) {
2426 if (currentCharacter == '*') {
2429 if (recordLineSeparator
2430 && ((currentCharacter == '\r') || (currentCharacter == '\n')))
2431 pushLineSeparator();
2432 try { // get the next char
2433 currentCharacter = source[currentPosition++];
2434 // if (((currentCharacter =
2435 // source[currentPosition++]) ==
2437 // && (source[currentPosition] == 'u')) {
2438 // //-------------unicode traitement ------------
2439 // int c1 = 0, c2 = 0, c3 = 0, c4 = 0;
2440 // currentPosition++;
2441 // while (source[currentPosition] == 'u') {
2442 // currentPosition++;
2445 // Character.getNumericValue(source[currentPosition++]))
2449 // Character.getNumericValue(source[currentPosition++]))
2453 // Character.getNumericValue(source[currentPosition++]))
2457 // Character.getNumericValue(source[currentPosition++]))
2460 // //error don't care of the value
2461 // currentCharacter = 'A';
2462 // } //something different from * and /
2464 // currentCharacter =
2465 // (char) (((c1 * 16 + c2) * 16 + c3) * 16 + c4);
2468 // loop until end of comment */
2469 while ((currentCharacter != '/') || (!star)) {
2470 if (recordLineSeparator
2471 && ((currentCharacter == '\r') || (currentCharacter == '\n')))
2472 pushLineSeparator();
2473 star = currentCharacter == '*';
2475 currentCharacter = source[currentPosition++];
2476 // if (((currentCharacter =
2477 // source[currentPosition++])
2479 // && (source[currentPosition] == 'u')) {
2480 // //-------------unicode traitement
2482 // int c1 = 0, c2 = 0, c3 = 0, c4 = 0;
2483 // currentPosition++;
2484 // while (source[currentPosition] == 'u') {
2485 // currentPosition++;
2488 // Character.getNumericValue(source[currentPosition++]))
2492 // Character.getNumericValue(source[currentPosition++]))
2496 // Character.getNumericValue(source[currentPosition++]))
2500 // Character.getNumericValue(source[currentPosition++]))
2503 // //error don't care of the value
2504 // currentCharacter = 'A';
2505 // } //something different from * and /
2507 // currentCharacter =
2508 // (char) (((c1 * 16 + c2) * 16 + c3) * 16 +
2513 } catch (IndexOutOfBoundsException e) {
2521 if (isPHPIdentOrVarStart(currentCharacter)) {
2523 scanIdentifierOrKeyword((currentCharacter == '$'));
2524 } catch (InvalidInputException ex) {
2529 if (ObviousIdentCharNatures[currentCharacter] == C_DIGIT) {
2530 // if (Character.isDigit(currentCharacter)) {
2533 } catch (InvalidInputException ex) {
2540 // -----------------end switch while try--------------------
2541 } catch (IndexOutOfBoundsException e) {
2542 } catch (InvalidInputException e) {
2547 // public final boolean jumpOverUnicodeWhiteSpace()
2548 // throws InvalidInputException {
2550 // //handle the case of unicode. Jump over the next whiteSpace
2551 // //making startPosition pointing on the next available char
2552 // //On false, the currentCharacter is filled up with a potential
2556 // this.wasAcr = false;
2557 // int c1, c2, c3, c4;
2558 // int unicodeSize = 6;
2559 // currentPosition++;
2560 // while (source[currentPosition] == 'u') {
2561 // currentPosition++;
2565 // if (((c1 = Character.getNumericValue(source[currentPosition++])) > 15
2567 // || ((c2 = Character.getNumericValue(source[currentPosition++])) > 15
2569 // || ((c3 = Character.getNumericValue(source[currentPosition++])) > 15
2571 // || ((c4 = Character.getNumericValue(source[currentPosition++])) > 15
2573 // throw new InvalidInputException(INVALID_UNICODE_ESCAPE);
2576 // currentCharacter = (char) (((c1 * 16 + c2) * 16 + c3) * 16 + c4);
2577 // if (recordLineSeparator
2578 // && ((currentCharacter == '\r') || (currentCharacter == '\n')))
2579 // pushLineSeparator();
2580 // if (Character.isWhitespace(currentCharacter))
2583 // //buffer the new char which is not a white space
2584 // withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
2585 // //withoutUnicodePtr == 1 is true here
2587 // } catch (IndexOutOfBoundsException e) {
2588 // throw new InvalidInputException(INVALID_UNICODE_ESCAPE);
2591 public final int[] getLineEnds() {
2592 // return a bounded copy of this.lineEnds
2594 System.arraycopy(lineEnds, 0, copy = new int[linePtr + 1], 0,
2599 public char[] getSource() {
2603 public static boolean isIdentifierOrKeyword (TokenName token) {
2604 return (token == TokenName.IDENTIFIER) || (token.compareTo (TokenName.KEYWORD) > 0);
2607 final char[] optimizedCurrentTokenSource1() {
2608 // return always the same char[] build only once
2609 // optimization at no speed cost of 99.5 % of the singleCharIdentifier
2610 char charOne = source[startPosition];
2665 return new char[] { charOne };
2669 final char[] optimizedCurrentTokenSource2() {
2671 c0 = source[startPosition];
2672 c1 = source[startPosition + 1];
2674 // return always the same char[] build only once
2675 // optimization at no speed cost of 99.5 % of the
2676 // singleCharIdentifier
2679 return charArray_va;
2681 return charArray_vb;
2683 return charArray_vc;
2685 return charArray_vd;
2687 return charArray_ve;
2689 return charArray_vf;
2691 return charArray_vg;
2693 return charArray_vh;
2695 return charArray_vi;
2697 return charArray_vj;
2699 return charArray_vk;
2701 return charArray_vl;
2703 return charArray_vm;
2705 return charArray_vn;
2707 return charArray_vo;
2709 return charArray_vp;
2711 return charArray_vq;
2713 return charArray_vr;
2715 return charArray_vs;
2717 return charArray_vt;
2719 return charArray_vu;
2721 return charArray_vv;
2723 return charArray_vw;
2725 return charArray_vx;
2727 return charArray_vy;
2729 return charArray_vz;
2732 // try to return the same char[] build only once
2733 int hash = ((c0 << 6) + c1) % TableSize;
2734 char[][] table = charArray_length[0][hash];
2736 while (++i < InternalTableSize) {
2737 char[] charArray = table[i];
2738 if ((c0 == charArray[0]) && (c1 == charArray[1]))
2741 // ---------other side---------
2743 int max = newEntry2;
2744 while (++i <= max) {
2745 char[] charArray = table[i];
2746 if ((c0 == charArray[0]) && (c1 == charArray[1]))
2749 // --------add the entry-------
2750 if (++max >= InternalTableSize)
2753 table[max] = (r = new char[] { c0, c1 });
2758 final char[] optimizedCurrentTokenSource3() {
2759 // try to return the same char[] build only once
2761 int hash = (((c0 = source[startPosition]) << 12)
2762 + ((c1 = source[startPosition + 1]) << 6) + (c2 = source[startPosition + 2]))
2764 char[][] table = charArray_length[1][hash];
2766 while (++i < InternalTableSize) {
2767 char[] charArray = table[i];
2768 if ((c0 == charArray[0]) && (c1 == charArray[1])
2769 && (c2 == charArray[2]))
2772 // ---------other side---------
2774 int max = newEntry3;
2775 while (++i <= max) {
2776 char[] charArray = table[i];
2777 if ((c0 == charArray[0]) && (c1 == charArray[1])
2778 && (c2 == charArray[2]))
2781 // --------add the entry-------
2782 if (++max >= InternalTableSize)
2785 table[max] = (r = new char[] { c0, c1, c2 });
2790 final char[] optimizedCurrentTokenSource4() {
2791 // try to return the same char[] build only once
2792 char c0, c1, c2, c3;
2793 long hash = ((((long) (c0 = source[startPosition])) << 18)
2794 + ((c1 = source[startPosition + 1]) << 12)
2795 + ((c2 = source[startPosition + 2]) << 6) + (c3 = source[startPosition + 3]))
2797 char[][] table = charArray_length[2][(int) hash];
2799 while (++i < InternalTableSize) {
2800 char[] charArray = table[i];
2801 if ((c0 == charArray[0]) && (c1 == charArray[1])
2802 && (c2 == charArray[2]) && (c3 == charArray[3]))
2805 // ---------other side---------
2808 int max = newEntry4;
2809 while (++i <= max) {
2810 char[] charArray = table[i];
2811 if ((c0 == charArray[0]) && (c1 == charArray[1])
2812 && (c2 == charArray[2]) && (c3 == charArray[3]))
2815 // --------add the entry-------
2816 if (++max >= InternalTableSize)
2819 table[max] = (r = new char[] { c0, c1, c2, c3 });
2824 final char[] optimizedCurrentTokenSource5() {
2825 // try to return the same char[] build only once
2826 char c0, c1, c2, c3, c4;
2827 long hash = ((((long) (c0 = source[startPosition])) << 24)
2828 + (((long) (c1 = source[startPosition + 1])) << 18)
2829 + ((c2 = source[startPosition + 2]) << 12)
2830 + ((c3 = source[startPosition + 3]) << 6) + (c4 = source[startPosition + 4]))
2832 char[][] table = charArray_length[3][(int) hash];
2834 while (++i < InternalTableSize) {
2835 char[] charArray = table[i];
2836 if ((c0 == charArray[0]) && (c1 == charArray[1])
2837 && (c2 == charArray[2]) && (c3 == charArray[3])
2838 && (c4 == charArray[4]))
2841 // ---------other side---------
2843 int max = newEntry5;
2844 while (++i <= max) {
2845 char[] charArray = table[i];
2846 if ((c0 == charArray[0]) && (c1 == charArray[1])
2847 && (c2 == charArray[2]) && (c3 == charArray[3])
2848 && (c4 == charArray[4]))
2851 // --------add the entry-------
2852 if (++max >= InternalTableSize)
2855 table[max] = (r = new char[] { c0, c1, c2, c3, c4 });
2860 final char[] optimizedCurrentTokenSource6() {
2861 // try to return the same char[] build only once
2862 char c0, c1, c2, c3, c4, c5;
2863 long hash = ((((long) (c0 = source[startPosition])) << 32)
2864 + (((long) (c1 = source[startPosition + 1])) << 24)
2865 + (((long) (c2 = source[startPosition + 2])) << 18)
2866 + ((c3 = source[startPosition + 3]) << 12)
2867 + ((c4 = source[startPosition + 4]) << 6) + (c5 = source[startPosition + 5]))
2869 char[][] table = charArray_length[4][(int) hash];
2871 while (++i < InternalTableSize) {
2872 char[] charArray = table[i];
2873 if ((c0 == charArray[0]) && (c1 == charArray[1])
2874 && (c2 == charArray[2]) && (c3 == charArray[3])
2875 && (c4 == charArray[4]) && (c5 == charArray[5]))
2878 // ---------other side---------
2880 int max = newEntry6;
2881 while (++i <= max) {
2882 char[] charArray = table[i];
2883 if ((c0 == charArray[0]) && (c1 == charArray[1])
2884 && (c2 == charArray[2]) && (c3 == charArray[3])
2885 && (c4 == charArray[4]) && (c5 == charArray[5]))
2888 // --------add the entry-------
2889 if (++max >= InternalTableSize)
2892 table[max] = (r = new char[] { c0, c1, c2, c3, c4, c5 });
2897 public final void pushLineSeparator() throws InvalidInputException {
2898 // see comment on isLineDelimiter(char) for the use of '\n' and '\r'
2899 final int INCREMENT = 250;
2900 if (this.checkNonExternalizedStringLiterals) {
2901 // reinitialize the current line for non externalize strings purpose
2904 // currentCharacter is at position currentPosition-1
2906 if (currentCharacter == '\r') {
2907 int separatorPos = currentPosition - 1;
2908 if ((linePtr > 0) && (lineEnds[linePtr] >= separatorPos))
2910 // System.out.println("CR-" + separatorPos);
2912 lineEnds[++linePtr] = separatorPos;
2913 } catch (IndexOutOfBoundsException e) {
2914 // linePtr value is correct
2915 int oldLength = lineEnds.length;
2916 int[] old = lineEnds;
2917 lineEnds = new int[oldLength + INCREMENT];
2918 System.arraycopy(old, 0, lineEnds, 0, oldLength);
2919 lineEnds[linePtr] = separatorPos;
2921 // look-ahead for merged cr+lf
2923 if (source[currentPosition] == '\n') {
2924 // System.out.println("look-ahead LF-" + currentPosition);
2925 lineEnds[linePtr] = currentPosition;
2931 } catch (IndexOutOfBoundsException e) {
2936 if (currentCharacter == '\n') {
2937 // must merge eventual cr followed by lf
2938 if (wasAcr && (lineEnds[linePtr] == (currentPosition - 2))) {
2939 // System.out.println("merge LF-" + (currentPosition - 1));
2940 lineEnds[linePtr] = currentPosition - 1;
2942 int separatorPos = currentPosition - 1;
2943 if ((linePtr > 0) && (lineEnds[linePtr] >= separatorPos))
2945 // System.out.println("LF-" + separatorPos);
2947 lineEnds[++linePtr] = separatorPos;
2948 } catch (IndexOutOfBoundsException e) {
2949 // linePtr value is correct
2950 int oldLength = lineEnds.length;
2951 int[] old = lineEnds;
2952 lineEnds = new int[oldLength + INCREMENT];
2953 System.arraycopy(old, 0, lineEnds, 0, oldLength);
2954 lineEnds[linePtr] = separatorPos;
2962 public final void pushUnicodeLineSeparator() {
2963 // isUnicode means that the \r or \n has been read as a unicode
2965 // see comment on isLineDelimiter(char) for the use of '\n' and '\r'
2966 final int INCREMENT = 250;
2967 // currentCharacter is at position currentPosition-1
2968 if (this.checkNonExternalizedStringLiterals) {
2969 // reinitialize the current line for non externalize strings purpose
2973 if (currentCharacter == '\r') {
2974 int separatorPos = currentPosition - 6;
2975 if ((linePtr > 0) && (lineEnds[linePtr] >= separatorPos))
2977 // System.out.println("CR-" + separatorPos);
2979 lineEnds[++linePtr] = separatorPos;
2980 } catch (IndexOutOfBoundsException e) {
2981 // linePtr value is correct
2982 int oldLength = lineEnds.length;
2983 int[] old = lineEnds;
2984 lineEnds = new int[oldLength + INCREMENT];
2985 System.arraycopy(old, 0, lineEnds, 0, oldLength);
2986 lineEnds[linePtr] = separatorPos;
2988 // look-ahead for merged cr+lf
2989 if (source[currentPosition] == '\n') {
2990 // System.out.println("look-ahead LF-" + currentPosition);
2991 lineEnds[linePtr] = currentPosition;
2999 if (currentCharacter == '\n') {
3000 // must merge eventual cr followed by lf
3001 if (wasAcr && (lineEnds[linePtr] == (currentPosition - 7))) {
3002 // System.out.println("merge LF-" + (currentPosition - 1));
3003 lineEnds[linePtr] = currentPosition - 6;
3005 int separatorPos = currentPosition - 6;
3006 if ((linePtr > 0) && (lineEnds[linePtr] >= separatorPos))
3008 // System.out.println("LF-" + separatorPos);
3010 lineEnds[++linePtr] = separatorPos;
3011 } catch (IndexOutOfBoundsException e) {
3012 // linePtr value is correct
3013 int oldLength = lineEnds.length;
3014 int[] old = lineEnds;
3015 lineEnds = new int[oldLength + INCREMENT];
3016 System.arraycopy(old, 0, lineEnds, 0, oldLength);
3017 lineEnds[linePtr] = separatorPos;
3025 public void recordComment(TokenName token) {
3027 int stopPosition = this.currentPosition;
3030 stopPosition = -this.lastCommentLinePosition;
3033 stopPosition = -this.currentPosition;
3037 // a new comment is recorded
3038 int length = this.commentStops.length;
3039 if (++this.commentPtr >= length) {
3040 System.arraycopy(this.commentStops, 0,
3041 this.commentStops = new int[length + 30], 0, length);
3042 // grows the positions buffers too
3043 System.arraycopy(this.commentStarts, 0,
3044 this.commentStarts = new int[length + 30], 0, length);
3046 this.commentStops[this.commentPtr] = stopPosition;
3047 this.commentStarts[this.commentPtr] = this.startPosition;
3050 // public final void recordComment(boolean isJavadoc) {
3051 // // a new annotation comment is recorded
3053 // commentStops[++commentPtr] = isJavadoc
3054 // ? currentPosition
3055 // : -currentPosition;
3056 // } catch (IndexOutOfBoundsException e) {
3057 // int oldStackLength = commentStops.length;
3058 // int[] oldStack = commentStops;
3059 // commentStops = new int[oldStackLength + 30];
3060 // System.arraycopy(oldStack, 0, commentStops, 0, oldStackLength);
3061 // commentStops[commentPtr] = isJavadoc ? currentPosition :
3062 // -currentPosition;
3063 // //grows the positions buffers too
3064 // int[] old = commentStarts;
3065 // commentStarts = new int[oldStackLength + 30];
3066 // System.arraycopy(old, 0, commentStarts, 0, oldStackLength);
3068 // //the buffer is of a correct size here
3069 // commentStarts[commentPtr] = startPosition;
3071 public void resetTo(int begin, int end) {
3072 // reset the scanner to a given position where it may rescan again
3074 initialPosition = startPosition = currentPosition = begin;
3075 eofPosition = end < Integer.MAX_VALUE ? end + 1 : end;
3076 commentPtr = -1; // reset comment stack
3079 public final void scanSingleQuotedEscapeCharacter()
3080 throws InvalidInputException {
3081 // the string with "\\u" is a legal string of two chars \ and u
3082 // thus we use a direct access to the source (for regular cases).
3083 // if (unicodeAsBackSlash) {
3084 // // consume next character
3085 // unicodeAsBackSlash = false;
3086 // if (((currentCharacter = source[currentPosition++]) == '\\')
3087 // && (source[currentPosition] == 'u')) {
3088 // getNextUnicodeChar();
3090 // if (withoutUnicodePtr != 0) {
3091 // withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
3095 currentCharacter = source[currentPosition++];
3096 switch (currentCharacter) {
3098 currentCharacter = '\'';
3101 currentCharacter = '\\';
3104 currentCharacter = '\\';
3109 public final void scanDoubleQuotedEscapeCharacter()
3110 throws InvalidInputException {
3111 currentCharacter = source[currentPosition++];
3112 switch (currentCharacter) {
3114 // currentCharacter = '\b';
3117 currentCharacter = '\t';
3120 currentCharacter = '\n';
3123 // currentCharacter = '\f';
3126 currentCharacter = '\r';
3129 currentCharacter = '\"';
3132 currentCharacter = '\'';
3135 currentCharacter = '\\';
3138 currentCharacter = '$';
3141 // -----------octal escape--------------
3143 // OctalDigit OctalDigit
3144 // ZeroToThree OctalDigit OctalDigit
3145 int number = Character.getNumericValue(currentCharacter);
3146 if (number >= 0 && number <= 7) {
3147 boolean zeroToThreeNot = number > 3;
3149 .isDigit(currentCharacter = source[currentPosition++])) {
3150 int digit = Character.getNumericValue(currentCharacter);
3151 if (digit >= 0 && digit <= 7) {
3152 number = (number * 8) + digit;
3154 .isDigit(currentCharacter = source[currentPosition++])) {
3155 if (zeroToThreeNot) { // has read \NotZeroToThree
3157 // Digit --> ignore last character
3161 .getNumericValue(currentCharacter);
3162 if (digit >= 0 && digit <= 7) {
3163 // has read \ZeroToThree OctalDigit
3165 number = (number * 8) + digit;
3166 } else { // has read \ZeroToThree OctalDigit
3168 // --> ignore last character
3172 } else { // has read \OctalDigit NonDigit--> ignore
3177 } else { // has read \OctalDigit NonOctalDigit--> ignore
3182 } else { // has read \OctalDigit --> ignore last character
3186 throw new InvalidInputException(INVALID_ESCAPE);
3187 currentCharacter = (char) number;
3190 // throw new InvalidInputException(INVALID_ESCAPE);
3194 // public int scanIdentifierOrKeyword() throws InvalidInputException {
3195 // return scanIdentifierOrKeyword( false );
3197 public TokenName scanIdentifierOrKeyword(boolean isVariable)
3198 throws InvalidInputException {
3200 // first dispatch on the first char.
3201 // then the length. If there are several
3202 // keywords with the same length AND the same first char, then do another
3203 // disptach on the second char :-)...cool....but fast !
3204 useAssertAsAnIndentifier = false;
3205 while (getNextCharAsJavaIdentifierPart()) {
3209 // if (new String(getCurrentTokenSource()).equals("$this")) {
3210 // return TokenName.this;
3212 return TokenName.VARIABLE;
3217 // if (withoutUnicodePtr == 0)
3218 // quick test on length == 1 but not on length > 12 while most
3220 // have a length which is <= 12...but there are lots of identifier with
3221 // only one char....
3223 if ((length = currentPosition - startPosition) == 1)
3224 return TokenName.IDENTIFIER;
3226 data = new char[length];
3227 index = startPosition;
3228 for (int i = 0; i < length; i++) {
3229 data[i] = Character.toLowerCase(source[index + i]);
3233 // if ((length = withoutUnicodePtr) == 1)
3234 // return TokenName.Identifier;
3235 // // data = withoutUnicodeBuffer;
3236 // data = new char[withoutUnicodeBuffer.length];
3237 // for (int i = 0; i < withoutUnicodeBuffer.length; i++) {
3238 // data[i] = Character.toLowerCase(withoutUnicodeBuffer[i]);
3242 firstLetter = data[index];
3243 switch (firstLetter) {
3248 if ((data[++index] == '_') && (data[++index] == 'f')
3249 && (data[++index] == 'i') && (data[++index] == 'l')
3250 && (data[++index] == 'e') && (data[++index] == '_')
3251 && (data[++index] == '_'))
3252 return TokenName.FILE;
3253 index = 0; // __LINE__
3254 if ((data[++index] == '_') && (data[++index] == 'l')
3255 && (data[++index] == 'i') && (data[++index] == 'n')
3256 && (data[++index] == 'e') && (data[++index] == '_')
3257 && (data[++index] == '_'))
3258 return TokenName.LINE;
3262 if ((data[++index] == '_') && (data[++index] == 'c')
3263 && (data[++index] == 'l') && (data[++index] == 'a')
3264 && (data[++index] == 's') && (data[++index] == 's')
3265 && (data[++index] == '_') && (data[++index] == '_'))
3266 return TokenName.CLASS_C;
3270 if ((data[++index] == '_') && (data[++index] == 'm')
3271 && (data[++index] == 'e') && (data[++index] == 't')
3272 && (data[++index] == 'h') && (data[++index] == 'o')
3273 && (data[++index] == 'd') && (data[++index] == '_')
3274 && (data[++index] == '_'))
3275 return TokenName.METHOD_C;
3279 if ((data[++index] == '_') && (data[++index] == 'f')
3280 && (data[++index] == 'u') && (data[++index] == 'n')
3281 && (data[++index] == 'c') && (data[++index] == 't')
3282 && (data[++index] == 'i') && (data[++index] == 'o')
3283 && (data[++index] == 'n') && (data[++index] == '_')
3284 && (data[++index] == '_'))
3285 return TokenName.FUNC_C;
3288 return TokenName.IDENTIFIER;
3290 // as and array abstract
3294 if ((data[++index] == 's')) {
3295 return TokenName.AS;
3297 return TokenName.IDENTIFIER;
3300 if ((data[++index] == 'n') && (data[++index] == 'd')) {
3301 return TokenName.OP_AND_OLD;
3303 return TokenName.IDENTIFIER;
3306 if ((data[++index] == 'r') && (data[++index] == 'r')
3307 && (data[++index] == 'a') && (data[++index] == 'y'))
3308 return TokenName.ARRAY;
3309 return TokenName.IDENTIFIER;
3311 if ((data[++index] == 'b') && (data[++index] == 's')
3312 && (data[++index] == 't') && (data[++index] == 'r')
3313 && (data[++index] == 'a') && (data[++index] == 'c')
3314 && (data[++index] == 't'))
3315 return TokenName.ABSTRACT;
3316 return TokenName.IDENTIFIER;
3318 return TokenName.IDENTIFIER;
3323 if ((data[++index] == 'r') && (data[++index] == 'e')
3324 && (data[++index] == 'a') && (data[++index] == 'k'))
3325 return TokenName.BREAK;
3326 return TokenName.IDENTIFIER;
3328 return TokenName.IDENTIFIER;
3330 // case catch class clone const continue
3333 if ((data[++index] == 'a') && (data[++index] == 's')
3334 && (data[++index] == 'e'))
3335 return TokenName.CASE;
3336 return TokenName.IDENTIFIER;
3338 if ((data[++index] == 'a') && (data[++index] == 't')
3339 && (data[++index] == 'c') && (data[++index] == 'h'))
3340 return TokenName.CATCH;
3342 if ((data[++index] == 'l') && (data[++index] == 'a')
3343 && (data[++index] == 's') && (data[++index] == 's'))
3344 return TokenName.CLASS;
3346 if ((data[++index] == 'l') && (data[++index] == 'o')
3347 && (data[++index] == 'n') && (data[++index] == 'e'))
3348 return TokenName.CLONE;
3350 if ((data[++index] == 'o') && (data[++index] == 'n')
3351 && (data[++index] == 's') && (data[++index] == 't'))
3352 return TokenName.CONST;
3353 return TokenName.IDENTIFIER;
3355 if ((data[++index] == 'o') && (data[++index] == 'n')
3356 && (data[++index] == 't') && (data[++index] == 'i')
3357 && (data[++index] == 'n') && (data[++index] == 'u')
3358 && (data[++index] == 'e'))
3359 return TokenName.CONTINUE;
3360 return TokenName.IDENTIFIER;
3362 return TokenName.IDENTIFIER;
3364 // declare default do die
3365 // TODO delete define ==> no keyword !
3368 if ((data[++index] == 'o'))
3369 return TokenName.DO;
3370 return TokenName.IDENTIFIER;
3372 // if ((data[++index] == 'e')
3373 // && (data[++index] == 'f')
3374 // && (data[++index] == 'i')
3375 // && (data[++index] == 'n')
3376 // && (data[++index] == 'e'))
3377 // return TokenName.define;
3379 // return TokenName.Identifier;
3381 if ((data[++index] == 'e') && (data[++index] == 'c')
3382 && (data[++index] == 'l') && (data[++index] == 'a')
3383 && (data[++index] == 'r') && (data[++index] == 'e'))
3384 return TokenName.DECLARE;
3386 if ((data[++index] == 'e') && (data[++index] == 'f')
3387 && (data[++index] == 'a') && (data[++index] == 'u')
3388 && (data[++index] == 'l') && (data[++index] == 't'))
3389 return TokenName.DEFAULT;
3390 return TokenName.IDENTIFIER;
3392 return TokenName.IDENTIFIER;
3394 // echo else exit elseif extends eval
3397 if ((data[++index] == 'c') && (data[++index] == 'h')
3398 && (data[++index] == 'o'))
3399 return TokenName.ECHO;
3400 else if ((data[index] == 'l') && (data[++index] == 's')
3401 && (data[++index] == 'e'))
3402 return TokenName.ELSE;
3403 else if ((data[index] == 'x') && (data[++index] == 'i')
3404 && (data[++index] == 't'))
3405 return TokenName.EXIT;
3406 else if ((data[index] == 'v') && (data[++index] == 'a')
3407 && (data[++index] == 'l'))
3408 return TokenName.EVAL;
3409 return TokenName.IDENTIFIER;
3412 if ((data[++index] == 'n') && (data[++index] == 'd')
3413 && (data[++index] == 'i') && (data[++index] == 'f'))
3414 return TokenName.ENDIF;
3415 if ((data[index] == 'm') && (data[++index] == 'p')
3416 && (data[++index] == 't') && (data[++index] == 'y'))
3417 return TokenName.EMPTY;
3418 return TokenName.IDENTIFIER;
3421 if ((data[++index] == 'n') && (data[++index] == 'd')
3422 && (data[++index] == 'f') && (data[++index] == 'o')
3423 && (data[++index] == 'r'))
3424 return TokenName.ENDFOR;
3425 else if ((data[index] == 'l') && (data[++index] == 's')
3426 && (data[++index] == 'e') && (data[++index] == 'i')
3427 && (data[++index] == 'f'))
3428 return TokenName.ELSEIF;
3429 return TokenName.IDENTIFIER;
3431 if ((data[++index] == 'x') && (data[++index] == 't')
3432 && (data[++index] == 'e') && (data[++index] == 'n')
3433 && (data[++index] == 'd') && (data[++index] == 's'))
3434 return TokenName.EXTENDS;
3435 return TokenName.IDENTIFIER;
3438 if ((data[++index] == 'n') && (data[++index] == 'd')
3439 && (data[++index] == 'w') && (data[++index] == 'h')
3440 && (data[++index] == 'i') && (data[++index] == 'l')
3441 && (data[++index] == 'e'))
3442 return TokenName.ENDWHILE;
3443 return TokenName.IDENTIFIER;
3446 if ((data[++index] == 'n') && (data[++index] == 'd')
3447 && (data[++index] == 's') && (data[++index] == 'w')
3448 && (data[++index] == 'i') && (data[++index] == 't')
3449 && (data[++index] == 'c') && (data[++index] == 'h'))
3450 return TokenName.ENDSWITCH;
3451 return TokenName.IDENTIFIER;
3454 if ((data[++index] == 'n') && (data[++index] == 'd')
3455 && (data[++index] == 'd') && (data[++index] == 'e')
3456 && (data[++index] == 'c') && (data[++index] == 'l')
3457 && (data[++index] == 'a') && (data[++index] == 'r')
3458 && (data[++index] == 'e'))
3459 return TokenName.ENDDECLARE;
3461 if ((data[++index] == 'n') // endforeach
3462 && (data[++index] == 'd')
3463 && (data[++index] == 'f')
3464 && (data[++index] == 'o')
3465 && (data[++index] == 'r')
3466 && (data[++index] == 'e')
3467 && (data[++index] == 'a')
3468 && (data[++index] == 'c') && (data[++index] == 'h'))
3469 return TokenName.ENDFOREACH;
3470 return TokenName.IDENTIFIER;
3472 return TokenName.IDENTIFIER;
3474 // for false final function
3477 if ((data[++index] == 'o') && (data[++index] == 'r'))
3478 return TokenName.FOR;
3479 return TokenName.IDENTIFIER;
3481 // if ((data[++index] == 'a') && (data[++index] == 'l')
3482 // && (data[++index] == 's') && (data[++index] == 'e'))
3483 // return TokenName.false;
3484 if ((data[++index] == 'i') && (data[++index] == 'n')
3485 && (data[++index] == 'a') && (data[++index] == 'l'))
3486 return TokenName.FINAL;
3487 return TokenName.IDENTIFIER;
3490 if ((data[++index] == 'o') && (data[++index] == 'r')
3491 && (data[++index] == 'e') && (data[++index] == 'a')
3492 && (data[++index] == 'c') && (data[++index] == 'h'))
3493 return TokenName.FOREACH;
3494 return TokenName.IDENTIFIER;
3497 if ((data[++index] == 'u') && (data[++index] == 'n')
3498 && (data[++index] == 'c') && (data[++index] == 't')
3499 && (data[++index] == 'i') && (data[++index] == 'o')
3500 && (data[++index] == 'n'))
3501 return TokenName.FUNCTION;
3502 return TokenName.IDENTIFIER;
3504 return TokenName.IDENTIFIER;
3508 if ((data[++index] == 'l') && (data[++index] == 'o')
3509 && (data[++index] == 'b') && (data[++index] == 'a')
3510 && (data[++index] == 'l')) {
3511 return TokenName.GLOBAL;
3514 else if (length == 4) { // goto
3515 if ((data[++index] == 'o') &&
3516 (data[++index] == 't') &&
3517 (data[++index] == 'o')) {
3518 return TokenName.GOTO;
3521 return TokenName.IDENTIFIER;
3523 // if int isset include include_once instanceof interface implements
3526 if (data[++index] == 'f')
3527 return TokenName.IF;
3528 return TokenName.IDENTIFIER;
3530 // if ((data[++index] == 'n') && (data[++index] == 't'))
3531 // return TokenName.int;
3533 // return TokenName.IDENTIFIER;
3535 if ((data[++index] == 's') && (data[++index] == 's')
3536 && (data[++index] == 'e') && (data[++index] == 't'))
3537 return TokenName.ISSET;
3538 return TokenName.IDENTIFIER;
3540 if ((data[++index] == 'n') && (data[++index] == 'c')
3541 && (data[++index] == 'l') && (data[++index] == 'u')
3542 && (data[++index] == 'd') && (data[++index] == 'e'))
3543 return TokenName.INCLUDE;
3544 return TokenName.IDENTIFIER;
3547 if ((data[++index] == 'n') && (data[++index] == 't')
3548 && (data[++index] == 'e') && (data[++index] == 'r')
3549 && (data[++index] == 'f') && (data[++index] == 'a')
3550 && (data[++index] == 'c') && (data[++index] == 'e'))
3551 return TokenName.INTERFACE;
3552 return TokenName.IDENTIFIER;
3554 // instanceof implements
3555 if ((data[++index] == 'n') && (data[++index] == 's')
3556 && (data[++index] == 't') && (data[++index] == 'a')
3557 && (data[++index] == 'n') && (data[++index] == 'c')
3558 && (data[++index] == 'e') && (data[++index] == 'o')
3559 && (data[++index] == 'f'))
3560 return TokenName.INSTANCEOF;
3561 if ((data[index] == 'm') && (data[++index] == 'p')
3562 && (data[++index] == 'l') && (data[++index] == 'e')
3563 && (data[++index] == 'm') && (data[++index] == 'e')
3564 && (data[++index] == 'n') && (data[++index] == 't')
3565 && (data[++index] == 's'))
3566 return TokenName.IMPLEMENTS;
3567 return TokenName.IDENTIFIER;
3568 case 12: // include_once
3569 if ((data[++index] == 'n') && (data[++index] == 'c')
3570 && (data[++index] == 'l') && (data[++index] == 'u')
3571 && (data[++index] == 'd') && (data[++index] == 'e')
3572 && (data[++index] == '_') && (data[++index] == 'o')
3573 && (data[++index] == 'n') && (data[++index] == 'c')
3574 && (data[++index] == 'e'))
3575 return TokenName.INCLUDE_ONCE;
3576 return TokenName.IDENTIFIER;
3578 return TokenName.IDENTIFIER;
3582 if ((data[++index] == 'i') && (data[++index] == 's')
3583 && (data[++index] == 't')) {
3584 return TokenName.LIST;
3587 return TokenName.IDENTIFIER;
3589 // new null namespace
3592 if ((data[++index] == 'e') && (data[++index] == 'w'))
3593 return TokenName.NEW;
3594 return TokenName.IDENTIFIER;
3596 // if ((data[++index] == 'u') && (data[++index] == 'l')
3597 // && (data[++index] == 'l'))
3598 // return TokenName.null;
3600 // return TokenName.IDENTIFIER;
3602 if ((data[++index] == 'a') && (data[++index] == 'm')
3603 && (data[++index] == 'e') && (data[++index] == 's')
3604 && (data[++index] == 'p') && (data[++index] == 'a')
3605 && (data[++index] == 'c') && (data[++index] == 'e')) {
3606 return TokenName.NAMESPACE;
3608 return TokenName.IDENTIFIER;
3610 return TokenName.IDENTIFIER;
3614 if (data[++index] == 'r') {
3615 return TokenName.OP_OR_OLD;
3618 // if (length == 12) {
3619 // if ((data[++index] == 'l')
3620 // && (data[++index] == 'd')
3621 // && (data[++index] == '_')
3622 // && (data[++index] == 'f')
3623 // && (data[++index] == 'u')
3624 // && (data[++index] == 'n')
3625 // && (data[++index] == 'c')
3626 // && (data[++index] == 't')
3627 // && (data[++index] == 'i')
3628 // && (data[++index] == 'o')
3629 // && (data[++index] == 'n')) {
3630 // return TokenName.old_function;
3633 return TokenName.IDENTIFIER;
3635 // print public private protected
3638 if ((data[++index] == 'r') && (data[++index] == 'i')
3639 && (data[++index] == 'n') && (data[++index] == 't')) {
3640 return TokenName.PRINT;
3642 return TokenName.IDENTIFIER;
3644 if ((data[++index] == 'u') && (data[++index] == 'b')
3645 && (data[++index] == 'l') && (data[++index] == 'i')
3646 && (data[++index] == 'c')) {
3647 return TokenName.PUBLIC;
3649 return TokenName.IDENTIFIER;
3651 if ((data[++index] == 'r') && (data[++index] == 'i')
3652 && (data[++index] == 'v') && (data[++index] == 'a')
3653 && (data[++index] == 't') && (data[++index] == 'e')) {
3654 return TokenName.PRIVATE;
3656 return TokenName.IDENTIFIER;
3658 if ((data[++index] == 'r') && (data[++index] == 'o')
3659 && (data[++index] == 't') && (data[++index] == 'e')
3660 && (data[++index] == 'c') && (data[++index] == 't')
3661 && (data[++index] == 'e') && (data[++index] == 'd')) {
3662 return TokenName.PROTECTED;
3664 return TokenName.IDENTIFIER;
3666 return TokenName.IDENTIFIER;
3668 // return require require_once
3670 if ((data[++index] == 'e') && (data[++index] == 't')
3671 && (data[++index] == 'u') && (data[++index] == 'r')
3672 && (data[++index] == 'n')) {
3673 return TokenName.RETURN;
3675 } else if (length == 7) {
3676 if ((data[++index] == 'e') && (data[++index] == 'q')
3677 && (data[++index] == 'u') && (data[++index] == 'i')
3678 && (data[++index] == 'r') && (data[++index] == 'e')) {
3679 return TokenName.REQUIRE;
3681 } else if (length == 12) {
3682 if ((data[++index] == 'e') && (data[++index] == 'q')
3683 && (data[++index] == 'u') && (data[++index] == 'i')
3684 && (data[++index] == 'r') && (data[++index] == 'e')
3685 && (data[++index] == '_') && (data[++index] == 'o')
3686 && (data[++index] == 'n') && (data[++index] == 'c')
3687 && (data[++index] == 'e')) {
3688 return TokenName.REQUIRE_ONCE;
3691 return TokenName.IDENTIFIER;
3693 // self static switch
3696 // if ((data[++index] == 'e') && (data[++index] == 'l') &&
3699 // return TokenName.self;
3701 // return TokenName.IDENTIFIER;
3703 if (data[++index] == 't')
3704 if ((data[++index] == 'a') && (data[++index] == 't')
3705 && (data[++index] == 'i') && (data[++index] == 'c')) {
3706 return TokenName.STATIC;
3708 return TokenName.IDENTIFIER;
3709 else if ((data[index] == 'w') && (data[++index] == 'i')
3710 && (data[++index] == 't') && (data[++index] == 'c')
3711 && (data[++index] == 'h'))
3712 return TokenName.SWITCH;
3714 return TokenName.IDENTIFIER;
3719 if ((data[++index] == 'r') && (data[++index] == 'y'))
3720 return TokenName.TRY;
3722 // if ((data[++index] == 'r') && (data[++index] == 'u')
3723 // && (data[++index] == 'e'))
3724 // return TokenName.true;
3726 return TokenName.IDENTIFIER;
3728 if ((data[++index] == 'h') && (data[++index] == 'r')
3729 && (data[++index] == 'o') && (data[++index] == 'w'))
3730 return TokenName.THROW;
3732 return TokenName.IDENTIFIER;
3737 if ((data[++index] == 's') && (data[++index] == 'e'))
3738 return TokenName.USE;
3740 return TokenName.IDENTIFIER;
3742 if ((data[++index] == 'n') && (data[++index] == 's')
3743 && (data[++index] == 'e') && (data[++index] == 't'))
3744 return TokenName.UNSET;
3746 return TokenName.IDENTIFIER;
3751 if ((data[++index] == 'a') && (data[++index] == 'r'))
3752 return TokenName.VAR;
3754 return TokenName.IDENTIFIER;
3759 if ((data[++index] == 'h') && (data[++index] == 'i')
3760 && (data[++index] == 'l') && (data[++index] == 'e'))
3761 return TokenName.WHILE;
3762 // case 6:if ( (data[++index] =='i') && (data[++index]=='d') &&
3763 // (data[++index]=='e') && (data[++index]=='f')&&
3764 // (data[++index]=='p'))
3765 // return TokenName.widefp ;
3767 // return TokenName.IDENTIFIER;
3769 return TokenName.IDENTIFIER;
3774 if ((data[++index] == 'o') && (data[++index] == 'r'))
3775 return TokenName.OP_XOR_OLD;
3777 return TokenName.IDENTIFIER;
3779 return TokenName.IDENTIFIER;
3781 return TokenName.IDENTIFIER;
3784 public TokenName scanNumber(boolean dotPrefix) throws InvalidInputException {
3785 // when entering this method the currentCharacter is the firt
3786 // digit of the number , i.e. it may be preceeded by a . when
3787 // dotPrefix is true
3788 boolean floating = dotPrefix;
3789 if ((!dotPrefix) && (currentCharacter == '0')) {
3790 if (getNextChar('x', 'X') >= 0) { // ----------hexa-----------------
3791 // force the first char of the hexa number do exist...
3792 // consume next character
3793 unicodeAsBackSlash = false;
3794 currentCharacter = source[currentPosition++];
3795 // if (((currentCharacter = source[currentPosition++]) == '\\')
3796 // && (source[currentPosition] == 'u')) {
3797 // getNextUnicodeChar();
3799 // if (withoutUnicodePtr != 0) {
3800 // withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
3803 if (Character.digit(currentCharacter, 16) == -1)
3804 throw new InvalidInputException(INVALID_HEXA);
3806 while (getNextCharAsDigit(16)) {
3809 // if (getNextChar('l', 'L') >= 0)
3810 // return TokenName.LongLiteral;
3812 return TokenName.INTEGERLITERAL;
3814 // there is x or X in the number
3815 // potential octal ! ... some one may write 000099.0 ! thus 00100 <
3816 // 00078.0 is true !!!!! crazy language
3817 if (getNextCharAsDigit()) {
3818 // -------------potential octal-----------------
3819 while (getNextCharAsDigit()) {
3822 // if (getNextChar('l', 'L') >= 0) {
3823 // return TokenName.LongLiteral;
3826 // if (getNextChar('f', 'F') >= 0) {
3827 // return TokenName.FloatingPointLiteral;
3829 if (getNextChar('d', 'D') >= 0) {
3830 return TokenName.DOUBLELITERAL;
3831 } else { // make the distinction between octal and float ....
3832 if (getNextChar('.')) { // bingo ! ....
3833 while (getNextCharAsDigit()) {
3836 if (getNextChar('e', 'E') >= 0) {
3837 // consume next character
3838 unicodeAsBackSlash = false;
3839 currentCharacter = source[currentPosition++];
3840 // if (((currentCharacter =
3841 // source[currentPosition++]) == '\\')
3842 // && (source[currentPosition] == 'u')) {
3843 // getNextUnicodeChar();
3845 // if (withoutUnicodePtr != 0) {
3846 // withoutUnicodeBuffer[++withoutUnicodePtr] =
3847 // currentCharacter;
3850 if ((currentCharacter == '-')
3851 || (currentCharacter == '+')) {
3852 // consume next character
3853 unicodeAsBackSlash = false;
3854 currentCharacter = source[currentPosition++];
3855 // if (((currentCharacter =
3856 // source[currentPosition++]) == '\\')
3857 // && (source[currentPosition] == 'u')) {
3858 // getNextUnicodeChar();
3860 // if (withoutUnicodePtr != 0) {
3861 // withoutUnicodeBuffer[++withoutUnicodePtr] =
3862 // currentCharacter;
3866 if (!Character.isDigit(currentCharacter))
3867 throw new InvalidInputException(INVALID_FLOAT);
3868 while (getNextCharAsDigit()) {
3872 // if (getNextChar('f', 'F') >= 0)
3873 // return TokenName.FloatingPointLiteral;
3874 getNextChar('d', 'D'); // jump over potential d or D
3875 return TokenName.DOUBLELITERAL;
3877 return TokenName.INTEGERLITERAL;
3884 while (getNextCharAsDigit()) {
3887 // if ((!dotPrefix) && (getNextChar('l', 'L') >= 0))
3888 // return TokenName.LongLiteral;
3889 if ((!dotPrefix) && (getNextChar('.'))) { // decimal part that can be
3891 while (getNextCharAsDigit()) {
3896 // if floating is true both exponant and suffix may be optional
3897 if (getNextChar('e', 'E') >= 0) {
3899 // consume next character
3900 unicodeAsBackSlash = false;
3901 currentCharacter = source[currentPosition++];
3902 // if (((currentCharacter = source[currentPosition++]) == '\\')
3903 // && (source[currentPosition] == 'u')) {
3904 // getNextUnicodeChar();
3906 // if (withoutUnicodePtr != 0) {
3907 // withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
3910 if ((currentCharacter == '-') || (currentCharacter == '+')) { // consume
3913 unicodeAsBackSlash = false;
3914 currentCharacter = source[currentPosition++];
3915 // if (((currentCharacter = source[currentPosition++]) == '\\')
3916 // && (source[currentPosition] == 'u')) {
3917 // getNextUnicodeChar();
3919 // if (withoutUnicodePtr != 0) {
3920 // withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
3924 if (!Character.isDigit(currentCharacter))
3925 throw new InvalidInputException(INVALID_FLOAT);
3926 while (getNextCharAsDigit()) {
3930 if (getNextChar('d', 'D') >= 0)
3931 return TokenName.DOUBLELITERAL;
3932 // if (getNextChar('f', 'F') >= 0)
3933 // return TokenName.FloatingPointLiteral;
3934 // the long flag has been tested before
3935 return floating ? TokenName.DOUBLELITERAL : TokenName.INTEGERLITERAL;
3939 * Search the line number corresponding to a specific position
3942 public final int getLineNumber(int position) {
3943 if (lineEnds == null)
3945 int length = linePtr + 1;
3948 int g = 0, d = length - 1;
3952 if (position < lineEnds[m]) {
3954 } else if (position > lineEnds[m]) {
3960 if (position < lineEnds[m]) {
3966 public void setPHPMode(boolean mode) {
3970 public final void setSource(char[] source) {
3971 setSource(null, source);
3974 public final void setSource(ICompilationUnit compilationUnit, char[] source) {
3975 // the source-buffer is set to sourceString
3976 this.compilationUnit = compilationUnit;
3977 if (source == null) {
3978 this.source = new char[0];
3980 this.source = source;
3983 initialPosition = currentPosition = 0;
3984 containsAssertKeyword = false;
3985 withoutUnicodeBuffer = new char[this.source.length];
3986 fFillerToken = TokenName.EOF;
3987 // encapsedStringStack = new Stack();
3990 public String toString() {
3991 if (startPosition == source.length)
3992 return "EOF\n\n" + new String(source); //$NON-NLS-1$
3993 if (currentPosition > source.length)
3994 return "behind the EOF :-( ....\n\n" + new String(source); //$NON-NLS-1$
3995 char front[] = new char[startPosition];
3996 System.arraycopy(source, 0, front, 0, startPosition);
3997 int middleLength = (currentPosition - 1) - startPosition + 1;
3999 if (middleLength > -1) {
4000 middle = new char[middleLength];
4001 System.arraycopy(source, startPosition, middle, 0, middleLength);
4003 middle = new char[0];
4005 char end[] = new char[source.length - (currentPosition - 1)];
4006 System.arraycopy(source, (currentPosition - 1) + 1, end, 0,
4007 source.length - (currentPosition - 1) - 1);
4008 return new String(front)
4009 + "\n===============================\nStarts here -->" //$NON-NLS-1$
4010 + new String(middle)
4011 + "<-- Ends here\n===============================\n" //$NON-NLS-1$
4015 public final String toStringAction(TokenName act) {
4018 return "ScannerError"; // + new String(getCurrentTokenSource()) +
4022 return "Inline-HTML(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
4023 case ECHO_INVISIBLE:
4027 return "Identifier(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
4029 return "Variable(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
4031 return "abstract"; //$NON-NLS-1$
4033 return "AND"; //$NON-NLS-1$
4035 return "array"; //$NON-NLS-1$
4037 return "as"; //$NON-NLS-1$
4039 return "break"; //$NON-NLS-1$
4041 return "case"; //$NON-NLS-1$
4043 return "class"; //$NON-NLS-1$
4045 return "catch"; //$NON-NLS-1$
4053 return "continue"; //$NON-NLS-1$
4055 return "default"; //$NON-NLS-1$
4057 // return "define"; //$NON-NLS-1$
4059 return "do"; //$NON-NLS-1$
4061 return "echo"; //$NON-NLS-1$
4063 return "else"; //$NON-NLS-1$
4065 return "elseif"; //$NON-NLS-1$
4067 return "endfor"; //$NON-NLS-1$
4069 return "endforeach"; //$NON-NLS-1$
4071 return "endif"; //$NON-NLS-1$
4073 return "endswitch"; //$NON-NLS-1$
4075 return "endwhile"; //$NON-NLS-1$
4079 return "extends"; //$NON-NLS-1$
4081 // return "false"; //$NON-NLS-1$
4083 return "final"; //$NON-NLS-1$
4085 return "for"; //$NON-NLS-1$
4087 return "foreach"; //$NON-NLS-1$
4089 return "function"; //$NON-NLS-1$
4091 return "global"; //$NON-NLS-1$
4093 return "if"; //$NON-NLS-1$
4095 return "implements"; //$NON-NLS-1$
4097 return "include"; //$NON-NLS-1$
4099 return "include_once"; //$NON-NLS-1$
4101 return "instanceof"; //$NON-NLS-1$
4103 return "interface"; //$NON-NLS-1$
4105 return "isset"; //$NON-NLS-1$
4107 return "list"; //$NON-NLS-1$
4109 return "new"; //$NON-NLS-1$
4111 // return "null"; //$NON-NLS-1$
4113 return "OR"; //$NON-NLS-1$
4115 return "print"; //$NON-NLS-1$
4117 return "private"; //$NON-NLS-1$
4119 return "protected"; //$NON-NLS-1$
4121 return "public"; //$NON-NLS-1$
4123 return "require"; //$NON-NLS-1$
4125 return "require_once"; //$NON-NLS-1$
4127 return "return"; //$NON-NLS-1$
4129 // return "self"; //$NON-NLS-1$
4131 return "static"; //$NON-NLS-1$
4133 return "switch"; //$NON-NLS-1$
4135 // return "true"; //$NON-NLS-1$
4137 return "unset"; //$NON-NLS-1$
4139 return "var"; //$NON-NLS-1$
4141 return "while"; //$NON-NLS-1$
4143 return "XOR"; //$NON-NLS-1$
4145 // return "$this"; //$NON-NLS-1$
4146 case INTEGERLITERAL:
4147 return "Integer(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
4149 return "Double(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
4150 case STRINGDOUBLEQUOTE:
4151 return "StringLiteral(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
4152 case STRINGSINGLEQUOTE:
4153 return "StringConstant(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
4154 case STRINGINTERPOLATED:
4155 return "StringInterpolated(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
4156 case ENCAPSEDSTRING0:
4157 return "`"; //$NON-NLS-1$
4158 // case EncapsedString1:
4159 // return "\'"; //$NON-NLS-1$
4160 // case EncapsedString2:
4161 // return "\""; //$NON-NLS-1$
4163 return "STRING_DQ(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
4165 return "HEREDOC(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$
4167 return "++"; //$NON-NLS-1$
4169 return "--"; //$NON-NLS-1$
4171 return "=="; //$NON-NLS-1$
4172 case EQUAL_EQUAL_EQUAL:
4173 return "==="; //$NON-NLS-1$
4175 return "=>"; //$NON-NLS-1$
4177 return "<="; //$NON-NLS-1$
4179 return ">="; //$NON-NLS-1$
4181 return "!="; //$NON-NLS-1$
4182 case NOT_EQUAL_EQUAL:
4183 return "!=="; //$NON-NLS-1$
4185 return "<<"; //$NON-NLS-1$
4187 return ">>"; //$NON-NLS-1$
4189 return "+="; //$NON-NLS-1$
4191 return "-="; //$NON-NLS-1$
4192 case MULTIPLY_EQUAL:
4193 return "*="; //$NON-NLS-1$
4195 return "/="; //$NON-NLS-1$
4197 return "&="; //$NON-NLS-1$
4199 return "|="; //$NON-NLS-1$
4201 return "^="; //$NON-NLS-1$
4202 case REMAINDER_EQUAL:
4203 return "%="; //$NON-NLS-1$
4205 return ".="; //$NON-NLS-1$
4206 case LEFT_SHIFT_EQUAL:
4207 return "<<="; //$NON-NLS-1$
4208 case RIGHT_SHIFT_EQUAL:
4209 return ">>="; //$NON-NLS-1$
4211 return "||"; //$NON-NLS-1$
4213 return "&&"; //$NON-NLS-1$
4215 return "+"; //$NON-NLS-1$
4217 return "-"; //$NON-NLS-1$
4221 return "!"; //$NON-NLS-1$
4223 return "%"; //$NON-NLS-1$
4225 return "^"; //$NON-NLS-1$
4227 return "&"; //$NON-NLS-1$
4229 return "*"; //$NON-NLS-1$
4231 return "|"; //$NON-NLS-1$
4233 return "~"; //$NON-NLS-1$
4235 return "~="; //$NON-NLS-1$
4237 return "/"; //$NON-NLS-1$
4239 return ">"; //$NON-NLS-1$
4241 return "<"; //$NON-NLS-1$
4243 return "("; //$NON-NLS-1$
4245 return ")"; //$NON-NLS-1$
4247 return "{"; //$NON-NLS-1$
4249 return "}"; //$NON-NLS-1$
4251 return "["; //$NON-NLS-1$
4253 return "]"; //$NON-NLS-1$
4255 return ";"; //$NON-NLS-1$
4257 return "?"; //$NON-NLS-1$
4259 return ":"; //$NON-NLS-1$
4261 return ","; //$NON-NLS-1$
4263 return "."; //$NON-NLS-1$
4265 return "="; //$NON-NLS-1$
4275 return "EOF"; //$NON-NLS-1$
4277 return "WHITESPACE(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$
4279 return "COMMENT_LINE(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$
4281 return "COMMENT_BLOCK(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$
4282 case COMMENT_PHPDOC:
4283 return "COMMENT_PHPDOC(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$
4285 // return "HTML(" + new String(getCurrentTokenSource()) + ")";
4288 return "__FILE__"; //$NON-NLS-1$
4290 return "__LINE__"; //$NON-NLS-1$
4292 return "__CLASS__"; //$NON-NLS-1$
4294 return "__METHOD__"; //$NON-NLS-1$
4296 return "__FUNCTION__"; //$NON-NLS-1
4298 return "( bool )"; //$NON-NLS-1$
4300 return "( int )"; //$NON-NLS-1$
4302 return "( double )"; //$NON-NLS-1$
4304 return "( object )"; //$NON-NLS-1$
4306 return "( string )"; //$NON-NLS-1$
4308 return "( namespace )"; //$NON-NLS-1$
4310 return "token not handled (" + (act.toString ()) + ") " + new String(getCurrentTokenSource()); //$NON-NLS-1$
4318 public Scanner(boolean tokenizeComments, boolean tokenizeWhiteSpace) {
4319 this(tokenizeComments, tokenizeWhiteSpace, false);
4322 public Scanner(boolean tokenizeComments, boolean tokenizeWhiteSpace,
4323 boolean checkNonExternalizedStringLiterals) {
4324 this(tokenizeComments, tokenizeWhiteSpace,
4325 checkNonExternalizedStringLiterals, false);
4328 public Scanner(boolean tokenizeComments, boolean tokenizeWhiteSpace,
4329 boolean checkNonExternalizedStringLiterals, boolean assertMode) {
4330 this(tokenizeComments, tokenizeWhiteSpace,
4331 checkNonExternalizedStringLiterals, assertMode, false, null,
4335 public Scanner(boolean tokenizeComments, boolean tokenizeWhiteSpace,
4336 boolean checkNonExternalizedStringLiterals, boolean assertMode,
4337 boolean tokenizeStrings, char[][] taskTags,
4338 char[][] taskPriorities, boolean isTaskCaseSensitive) {
4339 this.eofPosition = Integer.MAX_VALUE;
4340 this.tokenizeComments = tokenizeComments;
4341 this.tokenizeWhiteSpace = tokenizeWhiteSpace;
4342 this.tokenizeStrings = tokenizeStrings;
4343 this.checkNonExternalizedStringLiterals = checkNonExternalizedStringLiterals;
4344 // this.assertMode = assertMode;
4345 // this.encapsedStringStack = null;
4346 this.taskTags = taskTags;
4347 this.taskPriorities = taskPriorities;
4350 private void checkNonExternalizeString() throws InvalidInputException {
4351 if (currentLine == null)
4353 parseTags(currentLine);
4356 private void parseTags(NLSLine line) throws InvalidInputException {
4357 String s = new String(getCurrentTokenSource());
4358 int pos = s.indexOf(TAG_PREFIX);
4359 int lineLength = line.size();
4361 int start = pos + TAG_PREFIX_LENGTH;
4362 int end = s.indexOf(TAG_POSTFIX, start);
4363 String index = s.substring(start, end);
4366 i = Integer.parseInt(index) - 1;
4367 // Tags are one based not zero based.
4368 } catch (NumberFormatException e) {
4369 i = -1; // we don't want to consider this as a valid NLS tag
4371 if (line.exists(i)) {
4374 pos = s.indexOf(TAG_PREFIX, start);
4376 this.nonNLSStrings = new StringLiteral[lineLength];
4377 int nonNLSCounter = 0;
4378 for (Iterator iterator = line.iterator(); iterator.hasNext();) {
4379 StringLiteral literal = (StringLiteral) iterator.next();
4380 if (literal != null) {
4381 this.nonNLSStrings[nonNLSCounter++] = literal;
4384 if (nonNLSCounter == 0) {
4385 this.nonNLSStrings = null;
4389 this.wasNonExternalizedStringLiteral = true;
4390 if (nonNLSCounter != lineLength) {
4391 System.arraycopy(this.nonNLSStrings, 0,
4392 (this.nonNLSStrings = new StringLiteral[nonNLSCounter]), 0,
4398 public final void scanEscapeCharacter() throws InvalidInputException {
4399 // the string with "\\u" is a legal string of two chars \ and u
4400 // thus we use a direct access to the source (for regular cases).
4401 if (unicodeAsBackSlash) {
4402 // consume next character
4403 unicodeAsBackSlash = false;
4404 // if (((currentCharacter = source[currentPosition++]) == '\\') &&
4405 // (source[currentPosition] == 'u')) {
4406 // getNextUnicodeChar();
4408 if (withoutUnicodePtr != 0) {
4409 withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
4413 currentCharacter = source[currentPosition++];
4414 switch (currentCharacter) {
4416 currentCharacter = '\b';
4419 currentCharacter = '\t';
4422 currentCharacter = '\n';
4425 currentCharacter = '\f';
4428 currentCharacter = '\r';
4431 currentCharacter = '\"';
4434 currentCharacter = '\'';
4437 currentCharacter = '\\';
4440 // -----------octal escape--------------
4442 // OctalDigit OctalDigit
4443 // ZeroToThree OctalDigit OctalDigit
4444 int number = Character.getNumericValue(currentCharacter);
4445 if (number >= 0 && number <= 7) {
4446 boolean zeroToThreeNot = number > 3;
4448 .isDigit(currentCharacter = source[currentPosition++])) {
4449 int digit = Character.getNumericValue(currentCharacter);
4450 if (digit >= 0 && digit <= 7) {
4451 number = (number * 8) + digit;
4453 .isDigit(currentCharacter = source[currentPosition++])) {
4454 if (zeroToThreeNot) { // has read \NotZeroToThree
4456 // Digit --> ignore last character
4460 .getNumericValue(currentCharacter);
4461 if (digit >= 0 && digit <= 7) { // has read
4463 // OctalDigit OctalDigit
4464 number = (number * 8) + digit;
4465 } else { // has read \ZeroToThree OctalDigit
4467 // --> ignore last character
4471 } else { // has read \OctalDigit NonDigit--> ignore
4476 } else { // has read \OctalDigit NonOctalDigit--> ignore
4481 } else { // has read \OctalDigit --> ignore last character
4485 throw new InvalidInputException(INVALID_ESCAPE);
4486 currentCharacter = (char) number;
4488 throw new InvalidInputException(INVALID_ESCAPE);
4492 // chech presence of task: tags
4493 // TODO (frederic) see if we need to take unicode characters into account...
4494 public void checkTaskTag(int commentStart, int commentEnd) {
4495 char[] src = this.source;
4497 // only look for newer task: tags
4498 if (this.foundTaskCount > 0
4499 && this.foundTaskPositions[this.foundTaskCount - 1][0] >= commentStart) {
4502 int foundTaskIndex = this.foundTaskCount;
4503 char previous = src[commentStart + 1]; // should be '*' or '/'
4504 nextChar: for (int i = commentStart + 2; i < commentEnd
4505 && i < this.eofPosition; i++) {
4507 char[] priority = null;
4508 // check for tag occurrence only if not ambiguous with javadoc tag
4509 if (previous != '@') {
4510 nextTag: for (int itag = 0; itag < this.taskTags.length; itag++) {
4511 tag = this.taskTags[itag];
4512 int tagLength = tag.length;
4516 // ensure tag is not leaded with letter if tag starts with a
4518 if (Scanner.isPHPIdentifierStart(tag[0])) {
4519 if (Scanner.isPHPIdentifierPart(previous)) {
4524 for (int t = 0; t < tagLength; t++) {
4527 if (x >= this.eofPosition || x >= commentEnd)
4529 if ((sc = src[i + t]) != (tc = tag[t])) { // case
4532 if (this.isTaskCaseSensitive
4533 || (Character.toLowerCase(sc) != Character
4534 .toLowerCase(tc))) { // case
4541 // ensure tag is not followed with letter if tag finishes
4544 if (i + tagLength < commentEnd
4545 && Scanner.isPHPIdentifierPart(src[i + tagLength
4547 if (Scanner.isPHPIdentifierPart(src[i + tagLength]))
4550 if (this.foundTaskTags == null) {
4551 this.foundTaskTags = new char[5][];
4552 this.foundTaskMessages = new char[5][];
4553 this.foundTaskPriorities = new char[5][];
4554 this.foundTaskPositions = new int[5][];
4555 } else if (this.foundTaskCount == this.foundTaskTags.length) {
4560 this.foundTaskTags = new char[this.foundTaskCount * 2][],
4561 0, this.foundTaskCount);
4564 this.foundTaskMessages,
4566 this.foundTaskMessages = new char[this.foundTaskCount * 2][],
4567 0, this.foundTaskCount);
4570 this.foundTaskPriorities,
4572 this.foundTaskPriorities = new char[this.foundTaskCount * 2][],
4573 0, this.foundTaskCount);
4576 this.foundTaskPositions,
4578 this.foundTaskPositions = new int[this.foundTaskCount * 2][],
4579 0, this.foundTaskCount);
4582 priority = this.taskPriorities != null
4583 && itag < this.taskPriorities.length ? this.taskPriorities[itag]
4586 this.foundTaskTags[this.foundTaskCount] = tag;
4587 this.foundTaskPriorities[this.foundTaskCount] = priority;
4588 this.foundTaskPositions[this.foundTaskCount] = new int[] {
4589 i, i + tagLength - 1 };
4590 this.foundTaskMessages[this.foundTaskCount] = CharOperation.NO_CHAR;
4591 this.foundTaskCount++;
4592 i += tagLength - 1; // will be incremented when looping
4598 for (int i = foundTaskIndex; i < this.foundTaskCount; i++) {
4599 // retrieve message start and end positions
4600 int msgStart = this.foundTaskPositions[i][0]
4601 + this.foundTaskTags[i].length;
4602 int max_value = i + 1 < this.foundTaskCount ? this.foundTaskPositions[i + 1][0] - 1
4604 // at most beginning of next task
4605 if (max_value < msgStart) {
4606 max_value = msgStart; // would only occur if tag is before
4611 for (int j = msgStart; j < max_value; j++) {
4612 if ((c = src[j]) == '\n' || c == '\r') {
4618 for (int j = max_value; j > msgStart; j--) {
4619 if ((c = src[j]) == '*') {
4627 if (msgStart == end)
4630 while (CharOperation.isWhitespace(src[end]) && msgStart <= end)
4632 while (CharOperation.isWhitespace(src[msgStart]) && msgStart <= end)
4634 // update the end position of the task
4635 this.foundTaskPositions[i][1] = end;
4636 // get the message source
4637 final int messageLength = end - msgStart + 1;
4638 char[] message = new char[messageLength];
4639 System.arraycopy(src, msgStart, message, 0, messageLength);
4640 this.foundTaskMessages[i] = message;
4644 // chech presence of task: tags
4645 // public void checkTaskTag(int commentStart, int commentEnd) {
4646 // // only look for newer task: tags
4647 // if (this.foundTaskCount > 0 &&
4648 // this.foundTaskPositions[this.foundTaskCount
4649 // - 1][0] >= commentStart) {
4652 // int foundTaskIndex = this.foundTaskCount;
4653 // nextChar: for (int i = commentStart; i < commentEnd && i <
4654 // this.eofPosition; i++) {
4655 // char[] tag = null;
4656 // char[] priority = null;
4657 // // check for tag occurrence
4658 // nextTag: for (int itag = 0; itag < this.taskTags.length; itag++) {
4659 // tag = this.taskTags[itag];
4660 // priority = this.taskPriorities != null && itag <
4661 // this.taskPriorities.length
4662 // ? this.taskPriorities[itag] : null;
4663 // int tagLength = tag.length;
4664 // for (int t = 0; t < tagLength; t++) {
4665 // if (this.source[i + t] != tag[t])
4666 // continue nextTag;
4668 // if (this.foundTaskTags == null) {
4669 // this.foundTaskTags = new char[5][];
4670 // this.foundTaskMessages = new char[5][];
4671 // this.foundTaskPriorities = new char[5][];
4672 // this.foundTaskPositions = new int[5][];
4673 // } else if (this.foundTaskCount == this.foundTaskTags.length) {
4674 // System.arraycopy(this.foundTaskTags, 0, this.foundTaskTags = new
4675 // char[this.foundTaskCount * 2][], 0, this.foundTaskCount);
4676 // System.arraycopy(this.foundTaskMessages, 0, this.foundTaskMessages = new
4677 // char[this.foundTaskCount * 2][], 0,
4678 // this.foundTaskCount);
4679 // System.arraycopy(this.foundTaskPriorities, 0, this.foundTaskPriorities =
4680 // new char[this.foundTaskCount * 2][], 0,
4681 // this.foundTaskCount);
4682 // System.arraycopy(this.foundTaskPositions, 0, this.foundTaskPositions =
4684 // int[this.foundTaskCount * 2][], 0,
4685 // this.foundTaskCount);
4687 // this.foundTaskTags[this.foundTaskCount] = tag;
4688 // this.foundTaskPriorities[this.foundTaskCount] = priority;
4689 // this.foundTaskPositions[this.foundTaskCount] = new int[] { i, i +
4692 // this.foundTaskMessages[this.foundTaskCount] = CharOperation.NO_CHAR;
4693 // this.foundTaskCount++;
4694 // i += tagLength - 1; // will be incremented when looping
4697 // for (int i = foundTaskIndex; i < this.foundTaskCount; i++) {
4698 // // retrieve message start and end positions
4699 // int msgStart = this.foundTaskPositions[i][0] +
4700 // this.foundTaskTags[i].length;
4701 // int max_value = i + 1 < this.foundTaskCount ? this.foundTaskPositions[i +
4702 // 1][0] - 1 : commentEnd - 1;
4703 // // at most beginning of next task
4704 // if (max_value < msgStart)
4705 // max_value = msgStart; // would only occur if tag is before EOF.
4708 // for (int j = msgStart; j < max_value; j++) {
4709 // if ((c = this.source[j]) == '\n' || c == '\r') {
4715 // for (int j = max_value; j > msgStart; j--) {
4716 // if ((c = this.source[j]) == '*') {
4724 // if (msgStart == end)
4725 // continue; // empty
4726 // // trim the message
4727 // while (CharOperation.isWhitespace(source[end]) && msgStart <= end)
4729 // while (CharOperation.isWhitespace(source[msgStart]) && msgStart <= end)
4731 // // update the end position of the task
4732 // this.foundTaskPositions[i][1] = end;
4733 // // get the message source
4734 // final int messageLength = end - msgStart + 1;
4735 // char[] message = new char[messageLength];
4736 // System.arraycopy(source, msgStart, message, 0, messageLength);
4737 // this.foundTaskMessages[i] = message;
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