* IBM Corporation - initial API and implementation
******************************************************************************/
package net.sourceforge.phpdt.internal.compiler.parser;
-
import java.util.ArrayList;
import java.util.Iterator;
import java.util.List;
-
+import java.util.Stack;
import net.sourceforge.phpdt.core.compiler.CharOperation;
import net.sourceforge.phpdt.core.compiler.IScanner;
import net.sourceforge.phpdt.core.compiler.ITerminalSymbols;
import net.sourceforge.phpdt.core.compiler.InvalidInputException;
import net.sourceforge.phpdt.internal.compiler.ast.StringLiteral;
-
public class Scanner implements IScanner, ITerminalSymbols {
-
/*
- * APIs ares - getNextToken() which return the current type of the token (this value is not memorized by the scanner) -
- * getCurrentTokenSource() which provides with the token "REAL" source (aka all unicode have been transformed into a correct
- * char) - sourceStart gives the position into the stream - currentPosition-1 gives the sourceEnd position into the stream
+ * APIs ares - getNextToken() which return the current type of the token
+ * (this value is not memorized by the scanner) - getCurrentTokenSource()
+ * which provides with the token "REAL" source (aka all unicode have been
+ * transformed into a correct char) - sourceStart gives the position into the
+ * stream - currentPosition-1 gives the sourceEnd position into the stream
*/
-
// 1.4 feature
private boolean assertMode;
public boolean useAssertAsAnIndentifier = false;
//flag indicating if processed source contains occurrences of keyword assert
public boolean containsAssertKeyword = false;
-
public boolean recordLineSeparator;
public boolean phpMode = false;
-
+ public Stack encapsedStringStack = null;
public char currentCharacter;
public int startPosition;
public int currentPosition;
public int initialPosition, eofPosition;
- // after this position eof are generated instead of real token from the source
-
+ // after this position eof are generated instead of real token from the
+ // source
public boolean tokenizeComments;
public boolean tokenizeWhiteSpace;
-
+ public boolean tokenizeStrings;
//source should be viewed as a window (aka a part)
//of a entire very large stream
public char source[];
-
//unicode support
public char[] withoutUnicodeBuffer;
public int withoutUnicodePtr;
//when == 0 ==> no unicode in the current token
public boolean unicodeAsBackSlash = false;
-
public boolean scanningFloatLiteral = false;
-
//support for /** comments
//public char[][] comments = new char[10][];
public int[] commentStops = new int[10];
public int[] commentStarts = new int[10];
public int commentPtr = -1; // no comment test with commentPtr value -1
-
//diet parsing support - jump over some method body when requested
public boolean diet = false;
-
//support for the poor-line-debuggers ....
//remember the position of the cr/lf
public int[] lineEnds = new int[250];
public int linePtr = -1;
public boolean wasAcr = false;
-
public static final String END_OF_SOURCE = "End_Of_Source"; //$NON-NLS-1$
-
public static final String INVALID_HEXA = "Invalid_Hexa_Literal"; //$NON-NLS-1$
public static final String INVALID_OCTAL = "Invalid_Octal_Literal"; //$NON-NLS-1$
public static final String INVALID_CHARACTER_CONSTANT = "Invalid_Character_Constant"; //$NON-NLS-1$
public static final String INVALID_INPUT = "Invalid_Input"; //$NON-NLS-1$
public static final String INVALID_UNICODE_ESCAPE = "Invalid_Unicode_Escape"; //$NON-NLS-1$
public static final String INVALID_FLOAT = "Invalid_Float_Literal"; //$NON-NLS-1$
-
public static final String NULL_SOURCE_STRING = "Null_Source_String"; //$NON-NLS-1$
public static final String UNTERMINATED_STRING = "Unterminated_String"; //$NON-NLS-1$
public static final String UNTERMINATED_COMMENT = "Unterminated_Comment"; //$NON-NLS-1$
public static final String INVALID_CHAR_IN_STRING = "Invalid_Char_In_String"; //$NON-NLS-1$
-
//----------------optimized identifier managment------------------
- static final char[] charArray_a = new char[] { 'a' },
- charArray_b = new char[] { 'b' },
- charArray_c = new char[] { 'c' },
- charArray_d = new char[] { 'd' },
- charArray_e = new char[] { 'e' },
- charArray_f = new char[] { 'f' },
- charArray_g = new char[] { 'g' },
- charArray_h = new char[] { 'h' },
- charArray_i = new char[] { 'i' },
- charArray_j = new char[] { 'j' },
- charArray_k = new char[] { 'k' },
- charArray_l = new char[] { 'l' },
- charArray_m = new char[] { 'm' },
- charArray_n = new char[] { 'n' },
- charArray_o = new char[] { 'o' },
- charArray_p = new char[] { 'p' },
- charArray_q = new char[] { 'q' },
- charArray_r = new char[] { 'r' },
- charArray_s = new char[] { 's' },
- charArray_t = new char[] { 't' },
- charArray_u = new char[] { 'u' },
- charArray_v = new char[] { 'v' },
- charArray_w = new char[] { 'w' },
- charArray_x = new char[] { 'x' },
- charArray_y = new char[] { 'y' },
- charArray_z = new char[] { 'z' };
-
- static final char[] initCharArray = new char[] { '\u0000', '\u0000', '\u0000', '\u0000', '\u0000', '\u0000' };
+ static final char[] charArray_a = new char[]{'a'},
+ charArray_b = new char[]{'b'}, charArray_c = new char[]{'c'},
+ charArray_d = new char[]{'d'}, charArray_e = new char[]{'e'},
+ charArray_f = new char[]{'f'}, charArray_g = new char[]{'g'},
+ charArray_h = new char[]{'h'}, charArray_i = new char[]{'i'},
+ charArray_j = new char[]{'j'}, charArray_k = new char[]{'k'},
+ charArray_l = new char[]{'l'}, charArray_m = new char[]{'m'},
+ charArray_n = new char[]{'n'}, charArray_o = new char[]{'o'},
+ charArray_p = new char[]{'p'}, charArray_q = new char[]{'q'},
+ charArray_r = new char[]{'r'}, charArray_s = new char[]{'s'},
+ charArray_t = new char[]{'t'}, charArray_u = new char[]{'u'},
+ charArray_v = new char[]{'v'}, charArray_w = new char[]{'w'},
+ charArray_x = new char[]{'x'}, charArray_y = new char[]{'y'},
+ charArray_z = new char[]{'z'};
+ static final char[] initCharArray = new char[]{'\u0000', '\u0000', '\u0000',
+ '\u0000', '\u0000', '\u0000'};
static final int TableSize = 30, InternalTableSize = 6;
//30*6 = 180 entries
public static final int OptimizedLength = 6;
- public /* static */
+ public/* static */
final char[][][][] charArray_length = new char[OptimizedLength][TableSize][InternalTableSize][];
// support for detecting non-externalized string literals
int currentLineNr = -1;
public StringLiteral[] nonNLSStrings = null;
public boolean checkNonExternalizedStringLiterals = true;
public boolean wasNonExternalizedStringLiteral = false;
-
- /* static */ {
+ /* static */{
for (int i = 0; i < 6; i++) {
for (int j = 0; j < TableSize; j++) {
for (int k = 0; k < InternalTableSize; k++) {
}
}
}
- static int newEntry2 = 0, newEntry3 = 0, newEntry4 = 0, newEntry5 = 0, newEntry6 = 0;
-
+ static int newEntry2 = 0, newEntry3 = 0, newEntry4 = 0, newEntry5 = 0,
+ newEntry6 = 0;
public static final int RoundBracket = 0;
public static final int SquareBracket = 1;
public static final int CurlyBracket = 2;
public static final int BracketKinds = 3;
-
// task tag support
public char[][] foundTaskTags = null;
public char[][] foundTaskMessages;
public int foundTaskCount = 0;
public char[][] taskTags = null;
public char[][] taskPriorities = null;
-
- public static final boolean DEBUG = true;
-
- public Scanner() {
- this(false, false);
- }
- public Scanner(boolean tokenizeComments, boolean tokenizeWhiteSpace) {
- this(tokenizeComments, tokenizeWhiteSpace, false);
- }
+ public static final boolean DEBUG = false;
+ public static final boolean TRACE = false;
/**
- * Determines if the specified character is permissible as the first character in a PHP identifier
+ * Determines if the specified character is permissible as the first
+ * character in a PHP identifier
*/
public static boolean isPHPIdentifierStart(char ch) {
return Character.isLetter(ch) || (ch == '_') || (0x7F <= ch && ch <= 0xFF);
}
-
/**
- * Determines if the specified character may be part of a PHP identifier as other than the first character
+ * Determines if the specified character may be part of a PHP identifier as
+ * other than the first character
*/
public static boolean isPHPIdentifierPart(char ch) {
- return Character.isLetterOrDigit(ch) || (ch == '_') || (0x7F <= ch && ch <= 0xFF);
+ return Character.isLetterOrDigit(ch) || (ch == '_')
+ || (0x7F <= ch && ch <= 0xFF);
}
-
public final boolean atEnd() {
// This code is not relevant if source is
// Only a part of the real stream input
-
return source.length == currentPosition;
}
public char[] getCurrentIdentifierSource() {
//return the token REAL source (aka unicodes are precomputed)
-
char[] result;
// if (withoutUnicodePtr != 0)
// //0 is used as a fast test flag so the real first char is in position 1
return optimizedCurrentTokenSource6();
}
//no optimization
- System.arraycopy(source, startPosition, result = new char[length], 0, length);
+ System.arraycopy(source, startPosition, result = new char[length], 0,
+ length);
// }
return result;
}
public int getCurrentTokenEndPosition() {
return this.currentPosition - 1;
}
-
public final char[] getCurrentTokenSource() {
// Return the token REAL source (aka unicodes are precomputed)
-
char[] result;
// if (withoutUnicodePtr != 0)
// // 0 is used as a fast test flag so the real first char is in position 1
// withoutUnicodePtr);
// else {
int length;
- System.arraycopy(source, startPosition, result = new char[length = currentPosition - startPosition], 0, length);
+ System.arraycopy(source, startPosition,
+ result = new char[length = currentPosition - startPosition], 0, length);
// }
return result;
}
-
public final char[] getCurrentTokenSource(int startPos) {
// Return the token REAL source (aka unicodes are precomputed)
-
char[] result;
// if (withoutUnicodePtr != 0)
// // 0 is used as a fast test flag so the real first char is in position 1
// withoutUnicodePtr);
// else {
int length;
- System.arraycopy(source, startPos, result = new char[length = currentPosition - startPos], 0, length);
+ System.arraycopy(source, startPos,
+ result = new char[length = currentPosition - startPos], 0, length);
// }
return result;
}
-
public final char[] getCurrentTokenSourceString() {
//return the token REAL source (aka unicodes are precomputed).
//REMOVE the two " that are at the beginning and the end.
-
char[] result;
if (withoutUnicodePtr != 0)
//0 is used as a fast test flag so the real first char is in position 1
- System.arraycopy(withoutUnicodeBuffer, 2,
+ System.arraycopy(withoutUnicodeBuffer, 2,
//2 is 1 (real start) + 1 (to jump over the ")
- result = new char[withoutUnicodePtr - 2], 0, withoutUnicodePtr - 2);
+ result = new char[withoutUnicodePtr - 2], 0, withoutUnicodePtr - 2);
else {
int length;
- System.arraycopy(source, startPosition + 1, result = new char[length = currentPosition - startPosition - 2], 0, length);
+ System.arraycopy(source, startPosition + 1,
+ result = new char[length = currentPosition - startPosition - 2], 0,
+ length);
}
return result;
}
public int getCurrentTokenStartPosition() {
return this.startPosition;
}
-
public final char[] getCurrentStringLiteralSource() {
// Return the token REAL source (aka unicodes are precomputed)
-
char[] result;
-
int length;
- System.arraycopy(source, startPosition + 1, result = new char[length = currentPosition - startPosition - 2], 0, length);
+ System.arraycopy(source, startPosition + 1,
+ result = new char[length = currentPosition - startPosition - 2], 0,
+ length);
// }
return result;
}
-
/*
* Search the source position corresponding to the end of a given line number
*
- * Line numbers are 1-based, and relative to the scanner initialPosition. Character positions are 0-based.
+ * Line numbers are 1-based, and relative to the scanner initialPosition.
+ * Character positions are 0-based.
*
* In case the given line number is inconsistent, answers -1.
*/
public final int getLineEnd(int lineNumber) {
-
if (lineEnds == null)
return -1;
if (lineNumber >= lineEnds.length)
return -1;
if (lineNumber <= 0)
return -1;
-
if (lineNumber == lineEnds.length - 1)
return eofPosition;
return lineEnds[lineNumber - 1];
// next line start one character behind the lineEnd of the previous line
}
/**
- * Search the source position corresponding to the beginning of a given line number
+ * Search the source position corresponding to the beginning of a given line
+ * number
*
- * Line numbers are 1-based, and relative to the scanner initialPosition. Character positions are 0-based.
+ * Line numbers are 1-based, and relative to the scanner initialPosition.
+ * Character positions are 0-based.
*
* e.g. getLineStart(1) --> 0 i.e. first line starts at character 0.
*
* In case the given line number is inconsistent, answers -1.
*/
public final int getLineStart(int lineNumber) {
-
if (lineEnds == null)
return -1;
if (lineNumber >= lineEnds.length)
return -1;
if (lineNumber <= 0)
return -1;
-
if (lineNumber == 1)
return initialPosition;
return lineEnds[lineNumber - 2] + 1;
public final boolean getNextChar(char testedChar) {
//BOOLEAN
//handle the case of unicode.
- //when a unicode appears then we must use a buffer that holds char internal values
+ //when a unicode appears then we must use a buffer that holds char
+ // internal values
//At the end of this method currentCharacter holds the new visited char
//and currentPosition points right next after it
- //Both previous lines are true if the currentCharacter is == to the testedChar
+ //Both previous lines are true if the currentCharacter is == to the
+ // testedChar
//On false, no side effect has occured.
-
//ALL getNextChar.... ARE OPTIMIZED COPIES
-
int temp = currentPosition;
try {
currentCharacter = source[currentPosition++];
//INT 0 : testChar1 \\\\///\\\\ 1 : testedChar2 \\\\///\\\\ -1 : others
//test can be done with (x==0) for the first and (x>0) for the second
//handle the case of unicode.
- //when a unicode appears then we must use a buffer that holds char internal values
+ //when a unicode appears then we must use a buffer that holds char
+ // internal values
//At the end of this method currentCharacter holds the new visited char
//and currentPosition points right next after it
- //Both previous lines are true if the currentCharacter is == to the testedChar1/2
+ //Both previous lines are true if the currentCharacter is == to the
+ // testedChar1/2
//On false, no side effect has occured.
-
//ALL getNextChar.... ARE OPTIMIZED COPIES
-
int temp = currentPosition;
try {
int result;
currentPosition = temp;
return -1;
}
-
// if (withoutUnicodePtr != 0)
// withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
return result;
public final boolean getNextCharAsDigit() {
//BOOLEAN
//handle the case of unicode.
- //when a unicode appears then we must use a buffer that holds char internal values
+ //when a unicode appears then we must use a buffer that holds char
+ // internal values
//At the end of this method currentCharacter holds the new visited char
//and currentPosition points right next after it
//Both previous lines are true if the currentCharacter is a digit
//On false, no side effect has occured.
-
//ALL getNextChar.... ARE OPTIMIZED COPIES
-
int temp = currentPosition;
try {
currentCharacter = source[currentPosition++];
public final boolean getNextCharAsDigit(int radix) {
//BOOLEAN
//handle the case of unicode.
- //when a unicode appears then we must use a buffer that holds char internal values
+ //when a unicode appears then we must use a buffer that holds char
+ // internal values
//At the end of this method currentCharacter holds the new visited char
//and currentPosition points right next after it
- //Both previous lines are true if the currentCharacter is a digit base on radix
+ //Both previous lines are true if the currentCharacter is a digit base on
+ // radix
//On false, no side effect has occured.
-
//ALL getNextChar.... ARE OPTIMIZED COPIES
-
int temp = currentPosition;
try {
currentCharacter = source[currentPosition++];
public boolean getNextCharAsJavaIdentifierPart() {
//BOOLEAN
//handle the case of unicode.
- //when a unicode appears then we must use a buffer that holds char internal values
+ //when a unicode appears then we must use a buffer that holds char
+ // internal values
//At the end of this method currentCharacter holds the new visited char
//and currentPosition points right next after it
- //Both previous lines are true if the currentCharacter is a JavaIdentifierPart
+ //Both previous lines are true if the currentCharacter is a
+ // JavaIdentifierPart
//On false, no side effect has occured.
-
//ALL getNextChar.... ARE OPTIMIZED COPIES
-
int temp = currentPosition;
try {
currentCharacter = source[currentPosition++];
currentPosition = temp;
return false;
}
-
// if (withoutUnicodePtr != 0)
// withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
return true;
return false;
}
}
-
- public int getNextToken() throws InvalidInputException {
- int htmlPosition = currentPosition;
+ public int getCastOrParen() {
+ int tempPosition = currentPosition;
+ char tempCharacter = currentCharacter;
+ int tempToken = TokenNameLPAREN;
+ boolean found = false;
+ StringBuffer buf = new StringBuffer();
try {
- while (!phpMode) {
+ do {
currentCharacter = source[currentPosition++];
- if (currentCharacter == '<') {
- if (getNextChar('?')) {
- currentCharacter = source[currentPosition++];
- if ((currentCharacter == ' ') || Character.isWhitespace(currentCharacter)) {
- // <?
- startPosition = currentPosition;
- phpMode = true;
- if (tokenizeWhiteSpace) {
- // && (whiteStart != currentPosition - 1)) {
- // reposition scanner in case we are interested by spaces as tokens
- startPosition = htmlPosition;
- return TokenNameHTML;
+ } while (currentCharacter == ' ' || currentCharacter == '\t');
+ while ((currentCharacter >= 'a' && currentCharacter <= 'z')
+ || (currentCharacter >= 'A' && currentCharacter <= 'Z')) {
+ buf.append(currentCharacter);
+ currentCharacter = source[currentPosition++];
+ }
+ if (buf.length() >= 3 && buf.length() <= 7) {
+ char[] data = buf.toString().toCharArray();
+ int index = 0;
+ switch (data.length) {
+ case 3 :
+ // int
+ if ((data[index] == 'i') && (data[++index] == 'n')
+ && (data[++index] == 't')) {
+ found = true;
+ tempToken = TokenNameintCAST;
+ }
+ break;
+ case 4 :
+ // bool real
+ if ((data[index] == 'b') && (data[++index] == 'o')
+ && (data[++index] == 'o') && (data[++index] == 'l')) {
+ found = true;
+ tempToken = TokenNameboolCAST;
+ } else {
+ index = 0;
+ if ((data[index] == 'r') && (data[++index] == 'e')
+ && (data[++index] == 'a') && (data[++index] == 'l')) {
+ found = true;
+ tempToken = TokenNamedoubleCAST;
+ }
+ }
+ break;
+ case 5 :
+ // array unset float
+ if ((data[index] == 'a') && (data[++index] == 'r')
+ && (data[++index] == 'r') && (data[++index] == 'a')
+ && (data[++index] == 'y')) {
+ found = true;
+ tempToken = TokenNamearrayCAST;
+ } else {
+ index = 0;
+ if ((data[index] == 'u') && (data[++index] == 'n')
+ && (data[++index] == 's') && (data[++index] == 'e')
+ && (data[++index] == 't')) {
+ found = true;
+ tempToken = TokenNameunsetCAST;
+ } else {
+ index = 0;
+ if ((data[index] == 'f') && (data[++index] == 'l')
+ && (data[++index] == 'o') && (data[++index] == 'a')
+ && (data[++index] == 't')) {
+ found = true;
+ tempToken = TokenNamedoubleCAST;
+ }
}
+ }
+ break;
+ case 6 :
+ // object string double
+ if ((data[index] == 'o') && (data[++index] == 'b')
+ && (data[++index] == 'j') && (data[++index] == 'e')
+ && (data[++index] == 'c') && (data[++index] == 't')) {
+ found = true;
+ tempToken = TokenNameobjectCAST;
} else {
- boolean phpStart = (currentCharacter == 'P') || (currentCharacter == 'p');
- if (phpStart) {
- int test = getNextChar('H', 'h');
- if (test >= 0) {
- test = getNextChar('P', 'p');
- if (test >= 0) {
- // <?PHP <?php
- startPosition = currentPosition;
- phpMode = true;
-
- if (tokenizeWhiteSpace) {
- // && (whiteStart != currentPosition - 1)) {
- // reposition scanner in case we are interested by spaces as tokens
- startPosition = htmlPosition;
- return TokenNameHTML;
- }
- }
+ index = 0;
+ if ((data[index] == 's') && (data[++index] == 't')
+ && (data[++index] == 'r') && (data[++index] == 'i')
+ && (data[++index] == 'n') && (data[++index] == 'g')) {
+ found = true;
+ tempToken = TokenNamestringCAST;
+ } else {
+ index = 0;
+ if ((data[index] == 'd') && (data[++index] == 'o')
+ && (data[++index] == 'u') && (data[++index] == 'b')
+ && (data[++index] == 'l') && (data[++index] == 'e')) {
+ found = true;
+ tempToken = TokenNamedoubleCAST;
}
}
}
+ break;
+ case 7 :
+ // boolean integer
+ if ((data[index] == 'b') && (data[++index] == 'o')
+ && (data[++index] == 'o') && (data[++index] == 'l')
+ && (data[++index] == 'e') && (data[++index] == 'a')
+ && (data[++index] == 'n')) {
+ found = true;
+ tempToken = TokenNameboolCAST;
+ } else {
+ index = 0;
+ if ((data[index] == 'i') && (data[++index] == 'n')
+ && (data[++index] == 't') && (data[++index] == 'e')
+ && (data[++index] == 'g') && (data[++index] == 'e')
+ && (data[++index] == 'r')) {
+ found = true;
+ tempToken = TokenNameintCAST;
+ }
+ }
+ break;
+ }
+ if (found) {
+ while (currentCharacter == ' ' || currentCharacter == '\t') {
+ currentCharacter = source[currentPosition++];
+ }
+ if (currentCharacter == ')') {
+ return tempToken;
}
}
-
- if ((currentCharacter == '\r') || (currentCharacter == '\n')) {
- if (recordLineSeparator) {
- pushLineSeparator();
- } else {
- currentLine = null;
+ }
+ } catch (IndexOutOfBoundsException e) {
+ }
+ currentCharacter = tempCharacter;
+ currentPosition = tempPosition;
+ return TokenNameLPAREN;
+ }
+ public void consumeStringInterpolated() throws InvalidInputException {
+ try {
+ // consume next character
+ unicodeAsBackSlash = false;
+ currentCharacter = source[currentPosition++];
+ // if (((currentCharacter = source[currentPosition++]) == '\\')
+ // && (source[currentPosition] == 'u')) {
+ // getNextUnicodeChar();
+ // } else {
+ // if (withoutUnicodePtr != 0) {
+ // withoutUnicodeBuffer[++withoutUnicodePtr] =
+ // currentCharacter;
+ // }
+ // }
+ while (currentCharacter != '`') {
+ /** ** in PHP \r and \n are valid in string literals *** */
+ // if ((currentCharacter == '\n')
+ // || (currentCharacter == '\r')) {
+ // // relocate if finding another quote fairly close: thus unicode
+ // '/u000D' will be fully consumed
+ // for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
+ // if (currentPosition + lookAhead == source.length)
+ // break;
+ // if (source[currentPosition + lookAhead] == '\n')
+ // break;
+ // if (source[currentPosition + lookAhead] == '\"') {
+ // currentPosition += lookAhead + 1;
+ // break;
+ // }
+ // }
+ // throw new InvalidInputException(INVALID_CHAR_IN_STRING);
+ // }
+ if (currentCharacter == '\\') {
+ int escapeSize = currentPosition;
+ boolean backSlashAsUnicodeInString = unicodeAsBackSlash;
+ //scanEscapeCharacter make a side effect on this value and we need
+ // the previous value few lines down this one
+ scanDoubleQuotedEscapeCharacter();
+ escapeSize = currentPosition - escapeSize;
+ if (withoutUnicodePtr == 0) {
+ //buffer all the entries that have been left aside....
+ withoutUnicodePtr = currentPosition - escapeSize - 1
+ - startPosition;
+ System.arraycopy(source, startPosition, withoutUnicodeBuffer, 1,
+ withoutUnicodePtr);
+ withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
+ } else { //overwrite the / in the buffer
+ withoutUnicodeBuffer[withoutUnicodePtr] = currentCharacter;
+ if (backSlashAsUnicodeInString) { //there are TWO \ in the stream
+ // where only one is correct
+ withoutUnicodePtr--;
+ }
}
}
+ // consume next character
+ unicodeAsBackSlash = false;
+ currentCharacter = source[currentPosition++];
+ // if (((currentCharacter = source[currentPosition++]) == '\\')
+ // && (source[currentPosition] == 'u')) {
+ // getNextUnicodeChar();
+ // } else {
+ if (withoutUnicodePtr != 0) {
+ withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
+ }
+ // }
}
- } //-----------------end switch while try--------------------
- catch (IndexOutOfBoundsException e) {
- if (tokenizeWhiteSpace) {
- // && (whiteStart != currentPosition - 1)) {
- // reposition scanner in case we are interested by spaces as tokens
- startPosition = htmlPosition;
+ } catch (IndexOutOfBoundsException e) {
+ throw new InvalidInputException(UNTERMINATED_STRING);
+ } catch (InvalidInputException e) {
+ if (e.getMessage().equals(INVALID_ESCAPE)) {
+ // relocate if finding another quote fairly close: thus unicode
+ // '/u000D' will be fully consumed
+ for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
+ if (currentPosition + lookAhead == source.length)
+ break;
+ if (source[currentPosition + lookAhead] == '\n')
+ break;
+ if (source[currentPosition + lookAhead] == '`') {
+ currentPosition += lookAhead + 1;
+ break;
+ }
+ }
}
- return TokenNameEOF;
+ throw e; // rethrow
+ }
+ if (checkNonExternalizedStringLiterals) { // check for presence of NLS tags
+ // //$NON-NLS-?$ where ? is an
+ // int.
+ if (currentLine == null) {
+ currentLine = new NLSLine();
+ lines.add(currentLine);
+ }
+ currentLine.add(new StringLiteral(getCurrentTokenSourceString(),
+ startPosition, currentPosition - 1));
+ }
+ }
+ public void consumeStringConstant() throws InvalidInputException {
+ try {
+ // consume next character
+ unicodeAsBackSlash = false;
+ currentCharacter = source[currentPosition++];
+ // if (((currentCharacter = source[currentPosition++]) == '\\')
+ // && (source[currentPosition] == 'u')) {
+ // getNextUnicodeChar();
+ // } else {
+ // if (withoutUnicodePtr != 0) {
+ // withoutUnicodeBuffer[++withoutUnicodePtr] =
+ // currentCharacter;
+ // }
+ // }
+ while (currentCharacter != '\'') {
+ /** ** in PHP \r and \n are valid in string literals *** */
+ // if ((currentCharacter == '\n')
+ // || (currentCharacter == '\r')) {
+ // // relocate if finding another quote fairly close: thus unicode
+ // '/u000D' will be fully consumed
+ // for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
+ // if (currentPosition + lookAhead == source.length)
+ // break;
+ // if (source[currentPosition + lookAhead] == '\n')
+ // break;
+ // if (source[currentPosition + lookAhead] == '\"') {
+ // currentPosition += lookAhead + 1;
+ // break;
+ // }
+ // }
+ // throw new InvalidInputException(INVALID_CHAR_IN_STRING);
+ // }
+ if (currentCharacter == '\\') {
+ int escapeSize = currentPosition;
+ boolean backSlashAsUnicodeInString = unicodeAsBackSlash;
+ //scanEscapeCharacter make a side effect on this value and we need
+ // the previous value few lines down this one
+ scanSingleQuotedEscapeCharacter();
+ escapeSize = currentPosition - escapeSize;
+ if (withoutUnicodePtr == 0) {
+ //buffer all the entries that have been left aside....
+ withoutUnicodePtr = currentPosition - escapeSize - 1
+ - startPosition;
+ System.arraycopy(source, startPosition, withoutUnicodeBuffer, 1,
+ withoutUnicodePtr);
+ withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
+ } else { //overwrite the / in the buffer
+ withoutUnicodeBuffer[withoutUnicodePtr] = currentCharacter;
+ if (backSlashAsUnicodeInString) { //there are TWO \ in the stream
+ // where only one is correct
+ withoutUnicodePtr--;
+ }
+ }
+ }
+ // consume next character
+ unicodeAsBackSlash = false;
+ currentCharacter = source[currentPosition++];
+ // if (((currentCharacter = source[currentPosition++]) == '\\')
+ // && (source[currentPosition] == 'u')) {
+ // getNextUnicodeChar();
+ // } else {
+ if (withoutUnicodePtr != 0) {
+ withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
+ }
+ // }
+ }
+ } catch (IndexOutOfBoundsException e) {
+ throw new InvalidInputException(UNTERMINATED_STRING);
+ } catch (InvalidInputException e) {
+ if (e.getMessage().equals(INVALID_ESCAPE)) {
+ // relocate if finding another quote fairly close: thus unicode
+ // '/u000D' will be fully consumed
+ for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
+ if (currentPosition + lookAhead == source.length)
+ break;
+ if (source[currentPosition + lookAhead] == '\n')
+ break;
+ if (source[currentPosition + lookAhead] == '\'') {
+ currentPosition += lookAhead + 1;
+ break;
+ }
+ }
+ }
+ throw e; // rethrow
+ }
+ if (checkNonExternalizedStringLiterals) { // check for presence of NLS tags
+ // //$NON-NLS-?$ where ? is an
+ // int.
+ if (currentLine == null) {
+ currentLine = new NLSLine();
+ lines.add(currentLine);
+ }
+ currentLine.add(new StringLiteral(getCurrentTokenSourceString(),
+ startPosition, currentPosition - 1));
+ }
+ }
+ public void consumeStringLiteral() throws InvalidInputException {
+ try {
+ // consume next character
+ unicodeAsBackSlash = false;
+ currentCharacter = source[currentPosition++];
+ // if (((currentCharacter = source[currentPosition++]) == '\\')
+ // && (source[currentPosition] == 'u')) {
+ // getNextUnicodeChar();
+ // } else {
+ // if (withoutUnicodePtr != 0) {
+ // withoutUnicodeBuffer[++withoutUnicodePtr] =
+ // currentCharacter;
+ // }
+ // }
+ while (currentCharacter != '"') {
+ /** ** in PHP \r and \n are valid in string literals *** */
+ // if ((currentCharacter == '\n')
+ // || (currentCharacter == '\r')) {
+ // // relocate if finding another quote fairly close: thus unicode
+ // '/u000D' will be fully consumed
+ // for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
+ // if (currentPosition + lookAhead == source.length)
+ // break;
+ // if (source[currentPosition + lookAhead] == '\n')
+ // break;
+ // if (source[currentPosition + lookAhead] == '\"') {
+ // currentPosition += lookAhead + 1;
+ // break;
+ // }
+ // }
+ // throw new InvalidInputException(INVALID_CHAR_IN_STRING);
+ // }
+ if (currentCharacter == '\\') {
+ int escapeSize = currentPosition;
+ boolean backSlashAsUnicodeInString = unicodeAsBackSlash;
+ //scanEscapeCharacter make a side effect on this value and we need
+ // the previous value few lines down this one
+ scanDoubleQuotedEscapeCharacter();
+ escapeSize = currentPosition - escapeSize;
+ if (withoutUnicodePtr == 0) {
+ //buffer all the entries that have been left aside....
+ withoutUnicodePtr = currentPosition - escapeSize - 1
+ - startPosition;
+ System.arraycopy(source, startPosition, withoutUnicodeBuffer, 1,
+ withoutUnicodePtr);
+ withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
+ } else { //overwrite the / in the buffer
+ withoutUnicodeBuffer[withoutUnicodePtr] = currentCharacter;
+ if (backSlashAsUnicodeInString) { //there are TWO \ in the stream
+ // where only one is correct
+ withoutUnicodePtr--;
+ }
+ }
+ }
+ // consume next character
+ unicodeAsBackSlash = false;
+ currentCharacter = source[currentPosition++];
+ // if (((currentCharacter = source[currentPosition++]) == '\\')
+ // && (source[currentPosition] == 'u')) {
+ // getNextUnicodeChar();
+ // } else {
+ if (withoutUnicodePtr != 0) {
+ withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
+ }
+ // }
+ }
+ } catch (IndexOutOfBoundsException e) {
+ throw new InvalidInputException(UNTERMINATED_STRING);
+ } catch (InvalidInputException e) {
+ if (e.getMessage().equals(INVALID_ESCAPE)) {
+ // relocate if finding another quote fairly close: thus unicode
+ // '/u000D' will be fully consumed
+ for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
+ if (currentPosition + lookAhead == source.length)
+ break;
+ if (source[currentPosition + lookAhead] == '\n')
+ break;
+ if (source[currentPosition + lookAhead] == '\"') {
+ currentPosition += lookAhead + 1;
+ break;
+ }
+ }
+ }
+ throw e; // rethrow
+ }
+ if (checkNonExternalizedStringLiterals) { // check for presence of NLS tags
+ // //$NON-NLS-?$ where ? is an
+ // int.
+ if (currentLine == null) {
+ currentLine = new NLSLine();
+ lines.add(currentLine);
+ }
+ currentLine.add(new StringLiteral(getCurrentTokenSourceString(),
+ startPosition, currentPosition - 1));
+ }
+ }
+ public int getNextToken() throws InvalidInputException {
+ if (!phpMode) {
+ return getInlinedHTML(currentPosition);
}
-
if (phpMode) {
this.wasAcr = false;
if (diet) {
return currentPosition > source.length ? TokenNameEOF : TokenNameRBRACE;
}
try {
- while (true) { //loop for jumping over comments
+ while (true) {
withoutUnicodePtr = 0;
- //start with a new token (even comment written with unicode )
-
+ //start with a new token
+ char encapsedChar = ' ';
+ if (!encapsedStringStack.isEmpty()) {
+ encapsedChar = ((Character) encapsedStringStack.peek()).charValue();
+ }
+ if (encapsedChar != '$' && encapsedChar != ' ') {
+ currentCharacter = source[currentPosition++];
+ if (currentCharacter == encapsedChar) {
+ switch (currentCharacter) {
+ case '`' :
+ return TokenNameEncapsedString0;
+ case '\'' :
+ return TokenNameEncapsedString1;
+ case '"' :
+ return TokenNameEncapsedString2;
+ }
+ }
+ while (currentCharacter != encapsedChar) {
+ /** ** in PHP \r and \n are valid in string literals *** */
+ switch (currentCharacter) {
+ case '\\' :
+ int escapeSize = currentPosition;
+ boolean backSlashAsUnicodeInString = unicodeAsBackSlash;
+ //scanEscapeCharacter make a side effect on this value and
+ // we need the previous value few lines down this one
+ scanDoubleQuotedEscapeCharacter();
+ escapeSize = currentPosition - escapeSize;
+ if (withoutUnicodePtr == 0) {
+ //buffer all the entries that have been left aside....
+ withoutUnicodePtr = currentPosition - escapeSize - 1
+ - startPosition;
+ System.arraycopy(source, startPosition,
+ withoutUnicodeBuffer, 1, withoutUnicodePtr);
+ withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
+ } else { //overwrite the / in the buffer
+ withoutUnicodeBuffer[withoutUnicodePtr] = currentCharacter;
+ if (backSlashAsUnicodeInString) { //there are TWO \ in
+ withoutUnicodePtr--;
+ }
+ }
+ break;
+ case '$' :
+ if (isPHPIdentifierStart(source[currentPosition])
+ || source[currentPosition] == '{') {
+ currentPosition--;
+ encapsedStringStack.push(new Character('$'));
+ return TokenNameSTRING;
+ }
+ break;
+ case '{' :
+ if (source[currentPosition] == '$') { // CURLY_OPEN
+ currentPosition--;
+ encapsedStringStack.push(new Character('$'));
+ return TokenNameSTRING;
+ }
+ }
+ // consume next character
+ unicodeAsBackSlash = false;
+ currentCharacter = source[currentPosition++];
+ if (withoutUnicodePtr != 0) {
+ withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
+ }
+ // }
+ } // end while
+ currentPosition--;
+ return TokenNameSTRING;
+ }
// ---------Consume white space and handles startPosition---------
int whiteStart = currentPosition;
- boolean isWhiteSpace;
- do {
+ startPosition = currentPosition;
+ currentCharacter = source[currentPosition++];
+ if (encapsedChar == '$') {
+ switch (currentCharacter) {
+ case '\\' :
+ currentCharacter = source[currentPosition++];
+ return TokenNameSTRING;
+ case '{' :
+ if (encapsedChar == '$') {
+ if (getNextChar('$'))
+ return TokenNameCURLY_OPEN;
+ }
+ return TokenNameLBRACE;
+ case '}' :
+ return TokenNameRBRACE;
+ case '[' :
+ return TokenNameLBRACKET;
+ case ']' :
+ return TokenNameRBRACKET;
+ case '\'' :
+ if (tokenizeStrings) {
+ consumeStringConstant();
+ return TokenNameStringConstant;
+ }
+ return TokenNameEncapsedString1;
+ case '"' :
+ return TokenNameEncapsedString2;
+ case '`' :
+ if (tokenizeStrings) {
+ consumeStringInterpolated();
+ return TokenNameStringInterpolated;
+ }
+ return TokenNameEncapsedString0;
+ case '-' :
+ if (getNextChar('>'))
+ return TokenNameMINUS_GREATER;
+ return TokenNameSTRING;
+ default :
+ if (currentCharacter == '$') {
+ int oldPosition = currentPosition;
+ try {
+ currentCharacter = source[currentPosition++];
+ if (currentCharacter == '{') {
+ return TokenNameDOLLAR_LBRACE;
+ }
+ if (isPHPIdentifierStart(currentCharacter)) {
+ return scanIdentifierOrKeyword(true);
+ } else {
+ currentPosition = oldPosition;
+ return TokenNameSTRING;
+ }
+ } catch (IndexOutOfBoundsException e) {
+ currentPosition = oldPosition;
+ return TokenNameSTRING;
+ }
+ }
+ if (isPHPIdentifierStart(currentCharacter))
+ return scanIdentifierOrKeyword(false);
+ if (Character.isDigit(currentCharacter))
+ return scanNumber(false);
+ return TokenNameERROR;
+ }
+ }
+ // boolean isWhiteSpace;
+
+ while ((currentCharacter == ' ')
+ || Character.isWhitespace(currentCharacter)) {
startPosition = currentPosition;
currentCharacter = source[currentPosition++];
// if (((currentCharacter = source[currentPosition++]) == '\\')
currentLine = null;
}
}
- isWhiteSpace = (currentCharacter == ' ') || Character.isWhitespace(currentCharacter);
+ // isWhiteSpace = (currentCharacter == ' ')
+ // || Character.isWhitespace(currentCharacter);
// }
- } while (isWhiteSpace);
+ }
if (tokenizeWhiteSpace && (whiteStart != currentPosition - 1)) {
// reposition scanner in case we are interested by spaces as tokens
currentPosition--;
//little trick to get out in the middle of a source compuation
if (currentPosition > eofPosition)
return TokenNameEOF;
-
// ---------Identify the next token-------------
-
switch (currentCharacter) {
case '(' :
- return TokenNameLPAREN;
+ return getCastOrParen();
case ')' :
return TokenNameRPAREN;
case '{' :
return TokenNameSEMICOLON;
case ',' :
return TokenNameCOMMA;
-
case '.' :
+ if (getNextChar('='))
+ return TokenNameDOT_EQUAL;
if (getNextCharAsDigit())
return scanNumber(true);
return TokenNameDOT;
return TokenNameMINUS_EQUAL;
if (getNextChar('>'))
return TokenNameMINUS_GREATER;
-
return TokenNameMINUS;
}
case '~' :
return TokenNameREMAINDER;
case '<' :
{
- int test;
- if ((test = getNextChar('=', '<')) == 0)
- return TokenNameLESS_EQUAL;
- if (test > 0) {
- if (getNextChar('='))
- return TokenNameLEFT_SHIFT_EQUAL;
- if (getNextChar('<')) {
- int heredocStart = currentPosition;
- int heredocLength = 0;
- currentCharacter = source[currentPosition++];
- if (isPHPIdentifierStart(currentCharacter)) {
- currentCharacter = source[currentPosition++];
- } else {
- return TokenNameERROR;
- }
- while (isPHPIdentifierPart(currentCharacter)) {
+ int oldPosition = currentPosition;
+ try {
+ currentCharacter = source[currentPosition++];
+ } catch (IndexOutOfBoundsException e) {
+ currentPosition = oldPosition;
+ return TokenNameLESS;
+ }
+ switch (currentCharacter) {
+ case '=' :
+ return TokenNameLESS_EQUAL;
+ case '>' :
+ return TokenNameNOT_EQUAL;
+ case '<' :
+ if (getNextChar('='))
+ return TokenNameLEFT_SHIFT_EQUAL;
+ if (getNextChar('<')) {
currentCharacter = source[currentPosition++];
- }
-
- heredocLength = currentPosition - heredocStart - 1;
-
- // heredoc end-tag determination
- boolean endTag = true;
- char ch;
- do {
- ch = source[currentPosition++];
- if (ch == '\r' || ch == '\n') {
- if (recordLineSeparator) {
- pushLineSeparator();
- } else {
- currentLine = null;
- }
- for (int i = 0; i < heredocLength; i++) {
- if (source[currentPosition + i] != source[heredocStart + i]) {
- endTag = false;
- break;
+ while (Character.isWhitespace(currentCharacter)) {
+ currentCharacter = source[currentPosition++];
+ }
+ int heredocStart = currentPosition - 1;
+ int heredocLength = 0;
+ if (isPHPIdentifierStart(currentCharacter)) {
+ currentCharacter = source[currentPosition++];
+ } else {
+ return TokenNameERROR;
+ }
+ while (isPHPIdentifierPart(currentCharacter)) {
+ currentCharacter = source[currentPosition++];
+ }
+ heredocLength = currentPosition - heredocStart - 1;
+ // heredoc end-tag determination
+ boolean endTag = true;
+ char ch;
+ do {
+ ch = source[currentPosition++];
+ if (ch == '\r' || ch == '\n') {
+ if (recordLineSeparator) {
+ pushLineSeparator();
+ } else {
+ currentLine = null;
+ }
+ for (int i = 0; i < heredocLength; i++) {
+ if (source[currentPosition + i] != source[heredocStart
+ + i]) {
+ endTag = false;
+ break;
+ }
+ }
+ if (endTag) {
+ currentPosition += heredocLength - 1;
+ currentCharacter = source[currentPosition++];
+ break; // do...while loop
+ } else {
+ endTag = true;
}
}
- if (endTag) {
- currentPosition += heredocLength - 1;
- currentCharacter = source[currentPosition++];
- break; // do...while loop
- } else {
- endTag = true;
- }
- }
-
- } while (true);
-
- return TokenNameHEREDOC;
- }
- return TokenNameLEFT_SHIFT;
+ } while (true);
+ return TokenNameHEREDOC;
+ }
+ return TokenNameLEFT_SHIFT;
}
+ currentPosition = oldPosition;
return TokenNameLESS;
}
case '>' :
case '?' :
if (getNextChar('>')) {
phpMode = false;
- return TokenNameStopPHP;
+ if (currentPosition == source.length) {
+ phpMode = true;
+ return TokenNameINLINE_HTML;
+ }
+ return getInlinedHTML(currentPosition - 2);
}
return TokenNameQUESTION;
case ':' :
if (getNextChar(':'))
- return TokenNameCOLON_COLON;
+ return TokenNamePAAMAYIM_NEKUDOTAYIM;
return TokenNameCOLON;
case '@' :
return TokenNameAT;
- // case '\'' :
- // {
- // int test;
- // if ((test = getNextChar('\n', '\r')) == 0) {
- // throw new InvalidInputException(INVALID_CHARACTER_CONSTANT);
- // }
- // if (test > 0) {
- // // relocate if finding another quote fairly close: thus unicode '/u000D' will be fully consumed
- // for (int lookAhead = 0;
- // lookAhead < 3;
- // lookAhead++) {
- // if (currentPosition + lookAhead
- // == source.length)
- // break;
- // if (source[currentPosition + lookAhead]
- // == '\n')
- // break;
- // if (source[currentPosition + lookAhead]
- // == '\'') {
- // currentPosition += lookAhead + 1;
- // break;
- // }
- // }
- // throw new InvalidInputException(INVALID_CHARACTER_CONSTANT);
- // }
- // }
- // if (getNextChar('\'')) {
- // // relocate if finding another quote fairly close: thus unicode '/u000D' will be fully consumed
- // for (int lookAhead = 0;
- // lookAhead < 3;
- // lookAhead++) {
- // if (currentPosition + lookAhead
- // == source.length)
- // break;
- // if (source[currentPosition + lookAhead]
- // == '\n')
- // break;
- // if (source[currentPosition + lookAhead]
- // == '\'') {
- // currentPosition += lookAhead + 1;
- // break;
- // }
- // }
- // throw new InvalidInputException(INVALID_CHARACTER_CONSTANT);
- // }
- // if (getNextChar('\\'))
- // scanEscapeCharacter();
- // else { // consume next character
- // unicodeAsBackSlash = false;
- // if (((currentCharacter = source[currentPosition++])
- // == '\\')
- // && (source[currentPosition] == 'u')) {
- // getNextUnicodeChar();
- // } else {
- // if (withoutUnicodePtr != 0) {
- // withoutUnicodeBuffer[++withoutUnicodePtr] =
- // currentCharacter;
- // }
- // }
- // }
- // // if (getNextChar('\''))
- // // return TokenNameCharacterLiteral;
- // // relocate if finding another quote fairly close: thus unicode '/u000D' will be fully consumed
- // for (int lookAhead = 0; lookAhead < 20; lookAhead++) {
- // if (currentPosition + lookAhead == source.length)
- // break;
- // if (source[currentPosition + lookAhead] == '\n')
- // break;
- // if (source[currentPosition + lookAhead] == '\'') {
- // currentPosition += lookAhead + 1;
- // break;
- // }
- // }
- // throw new InvalidInputException(INVALID_CHARACTER_CONSTANT);
case '\'' :
- try {
- // consume next character
- unicodeAsBackSlash = false;
- currentCharacter = source[currentPosition++];
- // if (((currentCharacter = source[currentPosition++]) == '\\')
- // && (source[currentPosition] == 'u')) {
- // getNextUnicodeChar();
- // } else {
- // if (withoutUnicodePtr != 0) {
- // withoutUnicodeBuffer[++withoutUnicodePtr] =
- // currentCharacter;
- // }
- // }
-
- while (currentCharacter != '\'') {
-
- /** ** in PHP \r and \n are valid in string literals *** */
- // if ((currentCharacter == '\n')
- // || (currentCharacter == '\r')) {
- // // relocate if finding another quote fairly close: thus unicode '/u000D' will be fully consumed
- // for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
- // if (currentPosition + lookAhead == source.length)
- // break;
- // if (source[currentPosition + lookAhead] == '\n')
- // break;
- // if (source[currentPosition + lookAhead] == '\"') {
- // currentPosition += lookAhead + 1;
- // break;
- // }
- // }
- // throw new InvalidInputException(INVALID_CHAR_IN_STRING);
- // }
- if (currentCharacter == '\\') {
- int escapeSize = currentPosition;
- boolean backSlashAsUnicodeInString = unicodeAsBackSlash;
- //scanEscapeCharacter make a side effect on this value and we need the previous value few lines down this one
- scanSingleQuotedEscapeCharacter();
- escapeSize = currentPosition - escapeSize;
- if (withoutUnicodePtr == 0) {
- //buffer all the entries that have been left aside....
- withoutUnicodePtr = currentPosition - escapeSize - 1 - startPosition;
- System.arraycopy(source, startPosition, withoutUnicodeBuffer, 1, withoutUnicodePtr);
- withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
- } else { //overwrite the / in the buffer
- withoutUnicodeBuffer[withoutUnicodePtr] = currentCharacter;
- if (backSlashAsUnicodeInString) { //there are TWO \ in the stream where only one is correct
- withoutUnicodePtr--;
- }
- }
- }
- // consume next character
- unicodeAsBackSlash = false;
- currentCharacter = source[currentPosition++];
- // if (((currentCharacter = source[currentPosition++]) == '\\')
- // && (source[currentPosition] == 'u')) {
- // getNextUnicodeChar();
- // } else {
- if (withoutUnicodePtr != 0) {
- withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
- }
- // }
-
- }
- } catch (IndexOutOfBoundsException e) {
- throw new InvalidInputException(UNTERMINATED_STRING);
- } catch (InvalidInputException e) {
- if (e.getMessage().equals(INVALID_ESCAPE)) {
- // relocate if finding another quote fairly close: thus unicode '/u000D' will be fully consumed
- for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
- if (currentPosition + lookAhead == source.length)
- break;
- if (source[currentPosition + lookAhead] == '\n')
- break;
- if (source[currentPosition + lookAhead] == '\'') {
- currentPosition += lookAhead + 1;
- break;
- }
- }
-
- }
- throw e; // rethrow
- }
- if (checkNonExternalizedStringLiterals) { // check for presence of NLS tags //$NON-NLS-?$ where ? is an int.
- if (currentLine == null) {
- currentLine = new NLSLine();
- lines.add(currentLine);
- }
- currentLine.add(new StringLiteral(getCurrentTokenSourceString(), startPosition, currentPosition - 1));
- }
+ consumeStringConstant();
return TokenNameStringConstant;
case '"' :
- try {
- // consume next character
- unicodeAsBackSlash = false;
- currentCharacter = source[currentPosition++];
- // if (((currentCharacter = source[currentPosition++]) == '\\')
- // && (source[currentPosition] == 'u')) {
- // getNextUnicodeChar();
- // } else {
- // if (withoutUnicodePtr != 0) {
- // withoutUnicodeBuffer[++withoutUnicodePtr] =
- // currentCharacter;
- // }
- // }
-
- while (currentCharacter != '"') {
-
- /** ** in PHP \r and \n are valid in string literals *** */
- // if ((currentCharacter == '\n')
- // || (currentCharacter == '\r')) {
- // // relocate if finding another quote fairly close: thus unicode '/u000D' will be fully consumed
- // for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
- // if (currentPosition + lookAhead == source.length)
- // break;
- // if (source[currentPosition + lookAhead] == '\n')
- // break;
- // if (source[currentPosition + lookAhead] == '\"') {
- // currentPosition += lookAhead + 1;
- // break;
- // }
- // }
- // throw new InvalidInputException(INVALID_CHAR_IN_STRING);
- // }
- if (currentCharacter == '\\') {
- int escapeSize = currentPosition;
- boolean backSlashAsUnicodeInString = unicodeAsBackSlash;
- //scanEscapeCharacter make a side effect on this value and we need the previous value few lines down this one
- scanDoubleQuotedEscapeCharacter();
- escapeSize = currentPosition - escapeSize;
- if (withoutUnicodePtr == 0) {
- //buffer all the entries that have been left aside....
- withoutUnicodePtr = currentPosition - escapeSize - 1 - startPosition;
- System.arraycopy(source, startPosition, withoutUnicodeBuffer, 1, withoutUnicodePtr);
- withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
- } else { //overwrite the / in the buffer
- withoutUnicodeBuffer[withoutUnicodePtr] = currentCharacter;
- if (backSlashAsUnicodeInString) { //there are TWO \ in the stream where only one is correct
- withoutUnicodePtr--;
- }
- }
- }
- // consume next character
- unicodeAsBackSlash = false;
- currentCharacter = source[currentPosition++];
- // if (((currentCharacter = source[currentPosition++]) == '\\')
- // && (source[currentPosition] == 'u')) {
- // getNextUnicodeChar();
- // } else {
- if (withoutUnicodePtr != 0) {
- withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
- }
- // }
-
- }
- } catch (IndexOutOfBoundsException e) {
- throw new InvalidInputException(UNTERMINATED_STRING);
- } catch (InvalidInputException e) {
- if (e.getMessage().equals(INVALID_ESCAPE)) {
- // relocate if finding another quote fairly close: thus unicode '/u000D' will be fully consumed
- for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
- if (currentPosition + lookAhead == source.length)
- break;
- if (source[currentPosition + lookAhead] == '\n')
- break;
- if (source[currentPosition + lookAhead] == '\"') {
- currentPosition += lookAhead + 1;
- break;
- }
- }
-
- }
- throw e; // rethrow
- }
- if (checkNonExternalizedStringLiterals) { // check for presence of NLS tags //$NON-NLS-?$ where ? is an int.
- if (currentLine == null) {
- currentLine = new NLSLine();
- lines.add(currentLine);
- }
- currentLine.add(new StringLiteral(getCurrentTokenSourceString(), startPosition, currentPosition - 1));
+ if (tokenizeStrings) {
+ consumeStringLiteral();
+ return TokenNameStringLiteral;
}
- return TokenNameStringLiteral;
+ return TokenNameEncapsedString2;
case '`' :
- try {
- // consume next character
- unicodeAsBackSlash = false;
- currentCharacter = source[currentPosition++];
- // if (((currentCharacter = source[currentPosition++]) == '\\')
- // && (source[currentPosition] == 'u')) {
- // getNextUnicodeChar();
- // } else {
- // if (withoutUnicodePtr != 0) {
- // withoutUnicodeBuffer[++withoutUnicodePtr] =
- // currentCharacter;
- // }
- // }
-
- while (currentCharacter != '`') {
-
- /** ** in PHP \r and \n are valid in string literals *** */
- // if ((currentCharacter == '\n')
- // || (currentCharacter == '\r')) {
- // // relocate if finding another quote fairly close: thus unicode '/u000D' will be fully consumed
- // for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
- // if (currentPosition + lookAhead == source.length)
- // break;
- // if (source[currentPosition + lookAhead] == '\n')
- // break;
- // if (source[currentPosition + lookAhead] == '\"') {
- // currentPosition += lookAhead + 1;
- // break;
- // }
- // }
- // throw new InvalidInputException(INVALID_CHAR_IN_STRING);
- // }
- if (currentCharacter == '\\') {
- int escapeSize = currentPosition;
- boolean backSlashAsUnicodeInString = unicodeAsBackSlash;
- //scanEscapeCharacter make a side effect on this value and we need the previous value few lines down this one
- scanDoubleQuotedEscapeCharacter();
- escapeSize = currentPosition - escapeSize;
- if (withoutUnicodePtr == 0) {
- //buffer all the entries that have been left aside....
- withoutUnicodePtr = currentPosition - escapeSize - 1 - startPosition;
- System.arraycopy(source, startPosition, withoutUnicodeBuffer, 1, withoutUnicodePtr);
- withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
- } else { //overwrite the / in the buffer
- withoutUnicodeBuffer[withoutUnicodePtr] = currentCharacter;
- if (backSlashAsUnicodeInString) { //there are TWO \ in the stream where only one is correct
- withoutUnicodePtr--;
- }
- }
- }
- // consume next character
- unicodeAsBackSlash = false;
- currentCharacter = source[currentPosition++];
- // if (((currentCharacter = source[currentPosition++]) == '\\')
- // && (source[currentPosition] == 'u')) {
- // getNextUnicodeChar();
- // } else {
- if (withoutUnicodePtr != 0) {
- withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
- }
- // }
-
- }
- } catch (IndexOutOfBoundsException e) {
- throw new InvalidInputException(UNTERMINATED_STRING);
- } catch (InvalidInputException e) {
- if (e.getMessage().equals(INVALID_ESCAPE)) {
- // relocate if finding another quote fairly close: thus unicode '/u000D' will be fully consumed
- for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
- if (currentPosition + lookAhead == source.length)
- break;
- if (source[currentPosition + lookAhead] == '\n')
- break;
- if (source[currentPosition + lookAhead] == '`') {
- currentPosition += lookAhead + 1;
- break;
- }
- }
-
- }
- throw e; // rethrow
- }
- if (checkNonExternalizedStringLiterals) { // check for presence of NLS tags //$NON-NLS-?$ where ? is an int.
- if (currentLine == null) {
- currentLine = new NLSLine();
- lines.add(currentLine);
- }
- currentLine.add(new StringLiteral(getCurrentTokenSourceString(), startPosition, currentPosition - 1));
+ if (tokenizeStrings) {
+ consumeStringInterpolated();
+ return TokenNameStringInterpolated;
}
- return TokenNameStringInterpolated;
+ return TokenNameEncapsedString0;
case '#' :
case '/' :
{
+ char startChar = currentCharacter;
+ if (getNextChar('=')) {
+ return TokenNameDIVIDE_EQUAL;
+ }
int test;
- if ((currentCharacter == '#') || (test = getNextChar('/', '*')) == 0) {
+ if ((startChar == '#') || (test = getNextChar('/', '*')) == 0) {
//line comment
int endPositionForLineComment = 0;
try { //get the next char
// Character.getNumericValue(source[currentPosition++]))
// > 15
// || c4 < 0) {
- // throw new InvalidInputException(INVALID_UNICODE_ESCAPE);
+ // throw new
+ // InvalidInputException(INVALID_UNICODE_ESCAPE);
// } else {
// currentCharacter =
// (char) (((c1 * 16 + c2) * 16 + c3) * 16 + c4);
// }
// }
-
//handle the \\u case manually into comment
// if (currentCharacter == '\\') {
// if (source[currentPosition] == '\\')
if (getNextChar('>')) {
startPosition = currentPosition - 2;
phpMode = false;
- return TokenNameStopPHP;
+ return TokenNameINLINE_HTML;
}
}
-
//get the next char
isUnicode = false;
currentCharacter = source[currentPosition++];
// source[currentPosition++]))
// > 15
// || c4 < 0) {
- // throw new InvalidInputException(INVALID_UNICODE_ESCAPE);
+ // throw new
+ // InvalidInputException(INVALID_UNICODE_ESCAPE);
// } else {
// currentCharacter =
// (char) (((c1 * 16 + c2) * 16 + c3) * 16 + c4);
endPositionForLineComment = currentPosition - 1;
}
recordComment(false);
- if ((currentCharacter == '\r') || (currentCharacter == '\n')) {
+ if (this.taskTags != null) checkTaskTag(this.startPosition, this.currentPosition);
+ if ((currentCharacter == '\r')
+ || (currentCharacter == '\n')) {
checkNonExternalizeString();
if (recordLineSeparator) {
if (isUnicode) {
}
return TokenNameCOMMENT_LINE;
}
- } catch (IndexOutOfBoundsException e) { //an eof will them be generated
+ } catch (IndexOutOfBoundsException e) { //an eof will them
+ // be generated
if (tokenizeComments) {
currentPosition--;
// reset one character behind
// consume next character
unicodeAsBackSlash = false;
currentCharacter = source[currentPosition++];
- // if (((currentCharacter = source[currentPosition++]) == '\\')
+ // if (((currentCharacter = source[currentPosition++]) ==
+ // '\\')
// && (source[currentPosition] == 'u')) {
// getNextUnicodeChar();
// } else {
// currentCharacter;
// }
// }
-
if (currentCharacter == '*') {
isJavadoc = true;
star = true;
}
//loop until end of comment */
while ((currentCharacter != '/') || (!star)) {
- if ((currentCharacter == '\r') || (currentCharacter == '\n')) {
+ if ((currentCharacter == '\r')
+ || (currentCharacter == '\n')) {
checkNonExternalizeString();
if (recordLineSeparator) {
pushLineSeparator();
}
break;
}
- if (getNextChar('='))
- return TokenNameDIVIDE_EQUAL;
return TokenNameDIVIDE;
}
case '\u001a' :
if (atEnd())
return TokenNameEOF;
- //the atEnd may not be <currentPosition == source.length> if source is only some part of a real (external) stream
+ //the atEnd may not be <currentPosition == source.length> if
+ // source is only some part of a real (external) stream
throw new InvalidInputException("Ctrl-Z"); //$NON-NLS-1$
-
default :
if (currentCharacter == '$') {
- while ((currentCharacter = source[currentPosition++]) == '$') {
+ int oldPosition = currentPosition;
+ try {
+ currentCharacter = source[currentPosition++];
+ if (isPHPIdentifierStart(currentCharacter)) {
+ return scanIdentifierOrKeyword(true);
+ } else {
+ currentPosition = oldPosition;
+ return TokenNameDOLLAR;
+ }
+ } catch (IndexOutOfBoundsException e) {
+ currentPosition = oldPosition;
+ return TokenNameDOLLAR;
}
- if (currentCharacter == '{')
- return TokenNameDOLLAR_LBRACE;
- if (isPHPIdentifierStart(currentCharacter))
- return scanIdentifierOrKeyword(true);
- return TokenNameERROR;
}
if (isPHPIdentifierStart(currentCharacter))
return scanIdentifierOrKeyword(false);
}
return TokenNameEOF;
}
-
+ /**
+ * @return @throws
+ * InvalidInputException
+ */
+ private int getInlinedHTML(int start) throws InvalidInputException {
+ // int htmlPosition = start;
+ if (currentPosition > source.length) {
+ currentPosition = source.length;
+ return TokenNameEOF;
+ }
+ startPosition = start;
+ try {
+ while (!phpMode) {
+ currentCharacter = source[currentPosition++];
+ if (currentCharacter == '<') {
+ if (getNextChar('?')) {
+ currentCharacter = source[currentPosition++];
+ if ((currentCharacter == ' ')
+ || Character.isWhitespace(currentCharacter)) {
+ // <?
+ phpMode = true;
+ return TokenNameINLINE_HTML;
+ } else {
+ boolean phpStart = (currentCharacter == 'P')
+ || (currentCharacter == 'p');
+ if (phpStart) {
+ int test = getNextChar('H', 'h');
+ if (test >= 0) {
+ test = getNextChar('P', 'p');
+ if (test >= 0) {
+ // <?PHP <?php
+ phpMode = true;
+ return TokenNameINLINE_HTML;
+ }
+ }
+ }
+ }
+ }
+ }
+ if ((currentCharacter == '\r') || (currentCharacter == '\n')) {
+ if (recordLineSeparator) {
+ pushLineSeparator();
+ } else {
+ currentLine = null;
+ }
+ }
+ } //-----------------while--------------------
+ phpMode = true;
+ return TokenNameINLINE_HTML;
+ } //-----------------try--------------------
+ catch (IndexOutOfBoundsException e) {
+ startPosition = start;
+ currentPosition--;
+ }
+ phpMode = true;
+ return TokenNameINLINE_HTML;
+ }
// public final void getNextUnicodeChar()
// throws IndexOutOfBoundsException, InvalidInputException {
// //VOID
// //handle the case of unicode.
- // //when a unicode appears then we must use a buffer that holds char internal values
+ // //when a unicode appears then we must use a buffer that holds char
+ // internal values
// //At the end of this method currentCharacter holds the new visited char
// //and currentPosition points right next after it
//
// unicodeAsBackSlash = currentCharacter == '\\';
// }
/*
- * Tokenize a method body, assuming that curly brackets are properly balanced.
+ * Tokenize a method body, assuming that curly brackets are properly
+ * balanced.
*/
public final void jumpOverMethodBody() {
-
this.wasAcr = false;
int found = 1;
try {
// && (source[currentPosition] == 'u')) {
// isWhiteSpace = jumpOverUnicodeWhiteSpace();
// } else {
- if (recordLineSeparator && ((currentCharacter == '\r') || (currentCharacter == '\n')))
+ if (recordLineSeparator
+ && ((currentCharacter == '\r') || (currentCharacter == '\n')))
pushLineSeparator();
isWhiteSpace = Character.isWhitespace(currentCharacter);
// }
} while (isWhiteSpace);
-
// -------consume token until } is found---------
switch (currentCharacter) {
case '{' :
try {
//get the next char
currentCharacter = source[currentPosition++];
- // if (((currentCharacter = source[currentPosition++]) == '\\')
+ // if (((currentCharacter = source[currentPosition++]) ==
+ // '\\')
// && (source[currentPosition] == 'u')) {
// //-------------unicode traitement ------------
// int c1 = 0, c2 = 0, c3 = 0, c4 = 0;
// (char) (((c1 * 16 + c2) * 16 + c3) * 16 + c4);
// }
// }
-
while (currentCharacter != '\r' && currentCharacter != '\n') {
//get the next char
currentCharacter = source[currentPosition++];
// }
// }
}
- if (recordLineSeparator && ((currentCharacter == '\r') || (currentCharacter == '\n')))
+ if (recordLineSeparator
+ && ((currentCharacter == '\r') || (currentCharacter == '\n')))
pushLineSeparator();
} catch (IndexOutOfBoundsException e) {
} //an eof will them be generated
if (currentCharacter == '*') {
star = true;
}
- if (recordLineSeparator && ((currentCharacter == '\r') || (currentCharacter == '\n')))
+ if (recordLineSeparator
+ && ((currentCharacter == '\r') || (currentCharacter == '\n')))
pushLineSeparator();
try { //get the next char
currentCharacter = source[currentPosition++];
- // if (((currentCharacter = source[currentPosition++]) == '\\')
+ // if (((currentCharacter = source[currentPosition++]) ==
+ // '\\')
// && (source[currentPosition] == 'u')) {
// //-------------unicode traitement ------------
// int c1 = 0, c2 = 0, c3 = 0, c4 = 0;
// }
//loop until end of comment */
while ((currentCharacter != '/') || (!star)) {
- if (recordLineSeparator && ((currentCharacter == '\r') || (currentCharacter == '\n')))
+ if (recordLineSeparator
+ && ((currentCharacter == '\r') || (currentCharacter == '\n')))
pushLineSeparator();
star = currentCharacter == '*';
//get next char
}
break;
}
-
default :
- if (isPHPIdentifierStart(currentCharacter) || currentCharacter == '$') {
+ if (isPHPIdentifierStart(currentCharacter)
+ || currentCharacter == '$') {
try {
scanIdentifierOrKeyword((currentCharacter == '$'));
} catch (InvalidInputException ex) {
// }
public final int[] getLineEnds() {
//return a bounded copy of this.lineEnds
-
int[] copy;
System.arraycopy(lineEnds, 0, copy = new int[linePtr + 1], 0, linePtr + 1);
return copy;
}
-
public char[] getSource() {
return this.source;
}
final char[] optimizedCurrentTokenSource1() {
//return always the same char[] build only once
-
//optimization at no speed cost of 99.5 % of the singleCharIdentifier
char charOne = source[startPosition];
switch (charOne) {
case 'z' :
return charArray_z;
default :
- return new char[] { charOne };
+ return new char[]{charOne};
}
}
-
final char[] optimizedCurrentTokenSource2() {
//try to return the same char[] build only once
-
char c0, c1;
- int hash = (((c0 = source[startPosition]) << 6) + (c1 = source[startPosition + 1])) % TableSize;
+ int hash = (((c0 = source[startPosition]) << 6) + (c1 = source[startPosition + 1]))
+ % TableSize;
char[][] table = charArray_length[0][hash];
int i = newEntry2;
while (++i < InternalTableSize) {
if (++max >= InternalTableSize)
max = 0;
char[] r;
- table[max] = (r = new char[] { c0, c1 });
+ table[max] = (r = new char[]{c0, c1});
newEntry2 = max;
return r;
}
-
final char[] optimizedCurrentTokenSource3() {
//try to return the same char[] build only once
-
char c0, c1, c2;
- int hash =
- (((c0 = source[startPosition]) << 12) + ((c1 = source[startPosition + 1]) << 6) + (c2 = source[startPosition + 2]))
+ int hash = (((c0 = source[startPosition]) << 12)
+ + ((c1 = source[startPosition + 1]) << 6) + (c2 = source[startPosition + 2]))
% TableSize;
char[][] table = charArray_length[1][hash];
int i = newEntry3;
if (++max >= InternalTableSize)
max = 0;
char[] r;
- table[max] = (r = new char[] { c0, c1, c2 });
+ table[max] = (r = new char[]{c0, c1, c2});
newEntry3 = max;
return r;
}
-
final char[] optimizedCurrentTokenSource4() {
//try to return the same char[] build only once
-
char c0, c1, c2, c3;
- long hash =
- ((((long) (c0 = source[startPosition])) << 18)
+ long hash = ((((long) (c0 = source[startPosition])) << 18)
+ ((c1 = source[startPosition + 1]) << 12)
- + ((c2 = source[startPosition + 2]) << 6)
- + (c3 = source[startPosition + 3]))
+ + ((c2 = source[startPosition + 2]) << 6) + (c3 = source[startPosition + 3]))
% TableSize;
char[][] table = charArray_length[2][(int) hash];
int i = newEntry4;
while (++i < InternalTableSize) {
char[] charArray = table[i];
- if ((c0 == charArray[0]) && (c1 == charArray[1]) && (c2 == charArray[2]) && (c3 == charArray[3]))
+ if ((c0 == charArray[0]) && (c1 == charArray[1]) && (c2 == charArray[2])
+ && (c3 == charArray[3]))
return charArray;
}
//---------other side---------
int max = newEntry4;
while (++i <= max) {
char[] charArray = table[i];
- if ((c0 == charArray[0]) && (c1 == charArray[1]) && (c2 == charArray[2]) && (c3 == charArray[3]))
+ if ((c0 == charArray[0]) && (c1 == charArray[1]) && (c2 == charArray[2])
+ && (c3 == charArray[3]))
return charArray;
}
//--------add the entry-------
if (++max >= InternalTableSize)
max = 0;
char[] r;
- table[max] = (r = new char[] { c0, c1, c2, c3 });
+ table[max] = (r = new char[]{c0, c1, c2, c3});
newEntry4 = max;
return r;
-
}
-
final char[] optimizedCurrentTokenSource5() {
//try to return the same char[] build only once
-
char c0, c1, c2, c3, c4;
- long hash =
- ((((long) (c0 = source[startPosition])) << 24)
+ long hash = ((((long) (c0 = source[startPosition])) << 24)
+ (((long) (c1 = source[startPosition + 1])) << 18)
+ ((c2 = source[startPosition + 2]) << 12)
- + ((c3 = source[startPosition + 3]) << 6)
- + (c4 = source[startPosition + 4]))
+ + ((c3 = source[startPosition + 3]) << 6) + (c4 = source[startPosition + 4]))
% TableSize;
char[][] table = charArray_length[3][(int) hash];
int i = newEntry5;
while (++i < InternalTableSize) {
char[] charArray = table[i];
- if ((c0 == charArray[0]) && (c1 == charArray[1]) && (c2 == charArray[2]) && (c3 == charArray[3]) && (c4 == charArray[4]))
+ if ((c0 == charArray[0]) && (c1 == charArray[1]) && (c2 == charArray[2])
+ && (c3 == charArray[3]) && (c4 == charArray[4]))
return charArray;
}
//---------other side---------
int max = newEntry5;
while (++i <= max) {
char[] charArray = table[i];
- if ((c0 == charArray[0]) && (c1 == charArray[1]) && (c2 == charArray[2]) && (c3 == charArray[3]) && (c4 == charArray[4]))
+ if ((c0 == charArray[0]) && (c1 == charArray[1]) && (c2 == charArray[2])
+ && (c3 == charArray[3]) && (c4 == charArray[4]))
return charArray;
}
//--------add the entry-------
if (++max >= InternalTableSize)
max = 0;
char[] r;
- table[max] = (r = new char[] { c0, c1, c2, c3, c4 });
+ table[max] = (r = new char[]{c0, c1, c2, c3, c4});
newEntry5 = max;
return r;
-
}
-
final char[] optimizedCurrentTokenSource6() {
//try to return the same char[] build only once
-
char c0, c1, c2, c3, c4, c5;
- long hash =
- ((((long) (c0 = source[startPosition])) << 32)
+ long hash = ((((long) (c0 = source[startPosition])) << 32)
+ (((long) (c1 = source[startPosition + 1])) << 24)
+ (((long) (c2 = source[startPosition + 2])) << 18)
+ ((c3 = source[startPosition + 3]) << 12)
- + ((c4 = source[startPosition + 4]) << 6)
- + (c5 = source[startPosition + 5]))
+ + ((c4 = source[startPosition + 4]) << 6) + (c5 = source[startPosition + 5]))
% TableSize;
char[][] table = charArray_length[4][(int) hash];
int i = newEntry6;
while (++i < InternalTableSize) {
char[] charArray = table[i];
- if ((c0 == charArray[0])
- && (c1 == charArray[1])
- && (c2 == charArray[2])
- && (c3 == charArray[3])
- && (c4 == charArray[4])
- && (c5 == charArray[5]))
+ if ((c0 == charArray[0]) && (c1 == charArray[1]) && (c2 == charArray[2])
+ && (c3 == charArray[3]) && (c4 == charArray[4])
+ && (c5 == charArray[5]))
return charArray;
}
//---------other side---------
int max = newEntry6;
while (++i <= max) {
char[] charArray = table[i];
- if ((c0 == charArray[0])
- && (c1 == charArray[1])
- && (c2 == charArray[2])
- && (c3 == charArray[3])
- && (c4 == charArray[4])
- && (c5 == charArray[5]))
+ if ((c0 == charArray[0]) && (c1 == charArray[1]) && (c2 == charArray[2])
+ && (c3 == charArray[3]) && (c4 == charArray[4])
+ && (c5 == charArray[5]))
return charArray;
}
//--------add the entry-------
if (++max >= InternalTableSize)
max = 0;
char[] r;
- table[max] = (r = new char[] { c0, c1, c2, c3, c4, c5 });
+ table[max] = (r = new char[]{c0, c1, c2, c3, c4, c5});
newEntry6 = max;
return r;
}
-
public final void pushLineSeparator() throws InvalidInputException {
//see comment on isLineDelimiter(char) for the use of '\n' and '\r'
final int INCREMENT = 250;
-
if (this.checkNonExternalizedStringLiterals) {
// reinitialize the current line for non externalize strings purpose
currentLine = null;
}
//currentCharacter is at position currentPosition-1
-
// cr 000D
if (currentCharacter == '\r') {
int separatorPos = currentPosition - 1;
}
public final void pushUnicodeLineSeparator() {
// isUnicode means that the \r or \n has been read as a unicode character
-
//see comment on isLineDelimiter(char) for the use of '\n' and '\r'
-
final int INCREMENT = 250;
//currentCharacter is at position currentPosition-1
-
if (this.checkNonExternalizedStringLiterals) {
// reinitialize the current line for non externalize strings purpose
currentLine = null;
}
-
// cr 000D
if (currentCharacter == '\r') {
int separatorPos = currentPosition - 6;
}
}
public final void recordComment(boolean isJavadoc) {
-
// a new annotation comment is recorded
try {
- commentStops[++commentPtr] = isJavadoc ? currentPosition : -currentPosition;
+ commentStops[++commentPtr] = isJavadoc
+ ? currentPosition
+ : -currentPosition;
} catch (IndexOutOfBoundsException e) {
int oldStackLength = commentStops.length;
int[] oldStack = commentStops;
commentStarts = new int[oldStackLength + 30];
System.arraycopy(old, 0, commentStarts, 0, oldStackLength);
}
-
//the buffer is of a correct size here
commentStarts[commentPtr] = startPosition;
}
public void resetTo(int begin, int end) {
//reset the scanner to a given position where it may rescan again
-
diet = false;
initialPosition = startPosition = currentPosition = begin;
eofPosition = end < Integer.MAX_VALUE ? end + 1 : end;
commentPtr = -1; // reset comment stack
}
-
- public final void scanSingleQuotedEscapeCharacter() throws InvalidInputException {
+ public final void scanSingleQuotedEscapeCharacter()
+ throws InvalidInputException {
// the string with "\\u" is a legal string of two chars \ and u
//thus we use a direct access to the source (for regular cases).
-
// if (unicodeAsBackSlash) {
// // consume next character
// unicodeAsBackSlash = false;
currentPosition--;
}
}
-
- public final void scanDoubleQuotedEscapeCharacter() throws InvalidInputException {
+ public final void scanDoubleQuotedEscapeCharacter()
+ throws InvalidInputException {
// the string with "\\u" is a legal string of two chars \ and u
//thus we use a direct access to the source (for regular cases).
-
// if (unicodeAsBackSlash) {
// // consume next character
// unicodeAsBackSlash = false;
case 'n' :
currentCharacter = '\n';
break;
- // case 'f' :
- // currentCharacter = '\f';
- // break;
+ // case 'f' :
+ // currentCharacter = '\f';
+ // break;
case 'r' :
currentCharacter = '\r';
break;
// OctalDigit
// OctalDigit OctalDigit
// ZeroToThree OctalDigit OctalDigit
-
int number = Character.getNumericValue(currentCharacter);
if (number >= 0 && number <= 7) {
boolean zeroToThreeNot = number > 3;
int digit = Character.getNumericValue(currentCharacter);
if (digit >= 0 && digit <= 7) {
number = (number * 8) + digit;
- if (Character.isDigit(currentCharacter = source[currentPosition++])) {
- if (zeroToThreeNot) { // has read \NotZeroToThree OctalDigit Digit --> ignore last character
+ if (Character
+ .isDigit(currentCharacter = source[currentPosition++])) {
+ if (zeroToThreeNot) { // has read \NotZeroToThree OctalDigit
+ // Digit --> ignore last character
currentPosition--;
} else {
digit = Character.getNumericValue(currentCharacter);
if (digit >= 0 && digit <= 7) {
// has read \ZeroToThree OctalDigit OctalDigit
number = (number * 8) + digit;
- } else { // has read \ZeroToThree OctalDigit NonOctalDigit --> ignore last character
+ } else { // has read \ZeroToThree OctalDigit NonOctalDigit
+ // --> ignore last character
currentPosition--;
}
}
- } else { // has read \OctalDigit NonDigit--> ignore last character
+ } else { // has read \OctalDigit NonDigit--> ignore last
+ // character
currentPosition--;
}
- } else { // has read \OctalDigit NonOctalDigit--> ignore last character
+ } else { // has read \OctalDigit NonOctalDigit--> ignore last
+ // character
currentPosition--;
}
} else { // has read \OctalDigit --> ignore last character
throw new InvalidInputException(INVALID_ESCAPE);
currentCharacter = (char) number;
}
- //else
- // throw new InvalidInputException(INVALID_ESCAPE);
+ //else
+ // throw new InvalidInputException(INVALID_ESCAPE);
}
}
-
// public int scanIdentifierOrKeyword() throws InvalidInputException {
// return scanIdentifierOrKeyword( false );
// }
-
- public int scanIdentifierOrKeyword(boolean isVariable) throws InvalidInputException {
+ public int scanIdentifierOrKeyword(boolean isVariable)
+ throws InvalidInputException {
//test keywords
-
//first dispatch on the first char.
//then the length. If there are several
//keywors with the same length AND the same first char, then do another
//disptach on the second char :-)...cool....but fast !
-
useAssertAsAnIndentifier = false;
-
while (getNextCharAsJavaIdentifierPart()) {
};
-
if (isVariable) {
- if (new String(getCurrentTokenSource()).equals("$this")) {
- return TokenNamethis;
- }
+ // if (new String(getCurrentTokenSource()).equals("$this")) {
+ // return TokenNamethis;
+ // }
return TokenNameVariable;
}
int index, length;
char[] data;
char firstLetter;
// if (withoutUnicodePtr == 0)
-
//quick test on length == 1 but not on length > 12 while most identifier
//have a length which is <= 12...but there are lots of identifier with
//only one char....
-
// {
if ((length = currentPosition - startPosition) == 1)
return TokenNameIdentifier;
// }
// index = 1;
// }
-
firstLetter = data[index];
switch (firstLetter) {
-
- case 'a' : // as and array abstract
+ case '_' :
switch (length) {
- case 2 : //as
+ case 8 :
+ //__FILE__
+ if ((data[++index] == '_') && (data[++index] == 'f')
+ && (data[++index] == 'i') && (data[++index] == 'l')
+ && (data[++index] == 'e') && (data[++index] == '_')
+ && (data[++index] == '_'))
+ return TokenNameFILE;
+ index = 0; //__LINE__
+ if ((data[++index] == '_') && (data[++index] == 'l')
+ && (data[++index] == 'i') && (data[++index] == 'n')
+ && (data[++index] == 'e') && (data[++index] == '_')
+ && (data[++index] == '_'))
+ return TokenNameLINE;
+ break;
+ case 9 :
+ //__CLASS__
+ if ((data[++index] == '_') && (data[++index] == 'c')
+ && (data[++index] == 'l') && (data[++index] == 'a')
+ && (data[++index] == 's') && (data[++index] == 's')
+ && (data[++index] == '_') && (data[++index] == '_'))
+ return TokenNameCLASS_C;
+ break;
+ case 11 :
+ //__METHOD__
+ if ((data[++index] == '_') && (data[++index] == 'm')
+ && (data[++index] == 'e') && (data[++index] == 't')
+ && (data[++index] == 'h') && (data[++index] == 'o')
+ && (data[++index] == 'd') && (data[++index] == '_')
+ && (data[++index] == '_'))
+ return TokenNameMETHOD_C;
+ break;
+ case 12 :
+ //__FUNCTION__
+ if ((data[++index] == '_') && (data[++index] == 'f')
+ && (data[++index] == 'u') && (data[++index] == 'n')
+ && (data[++index] == 'c') && (data[++index] == 't')
+ && (data[++index] == 'i') && (data[++index] == 'o')
+ && (data[++index] == 'n') && (data[++index] == '_')
+ && (data[++index] == '_'))
+ return TokenNameFUNC_C;
+ break;
+ }
+ return TokenNameIdentifier;
+ case 'a' :
+ // as and array abstract
+ switch (length) {
+ case 2 :
+ //as
if ((data[++index] == 's')) {
return TokenNameas;
} else {
return TokenNameIdentifier;
}
- case 3 : //and
+ case 3 :
+ //and
if ((data[++index] == 'n') && (data[++index] == 'd')) {
- return TokenNameAND;
+ return TokenNameand;
} else {
return TokenNameIdentifier;
}
- case 5 : // array
- if ((data[++index] == 'r') && (data[++index] == 'r') && (data[++index] == 'a') && (data[++index] == 'y'))
+ case 5 :
+ // array
+ if ((data[++index] == 'r') && (data[++index] == 'r')
+ && (data[++index] == 'a') && (data[++index] == 'y'))
return TokenNamearray;
else
return TokenNameIdentifier;
case 8 :
- if ((data[++index] == 'b')
- && (data[++index] == 's')
- && (data[++index] == 't')
- && (data[++index] == 'r')
- && (data[++index] == 'a')
- && (data[++index] == 'c')
- && (data[++index] == 't'))
+ if ((data[++index] == 'b') && (data[++index] == 's')
+ && (data[++index] == 't') && (data[++index] == 'r')
+ && (data[++index] == 'a') && (data[++index] == 'c')
+ && (data[++index] == 't'))
return TokenNameabstract;
else
return TokenNameIdentifier;
default :
return TokenNameIdentifier;
}
- case 'b' : //break
+ case 'b' :
+ //break
switch (length) {
case 5 :
- if ((data[++index] == 'r') && (data[++index] == 'e') && (data[++index] == 'a') && (data[++index] == 'k'))
+ if ((data[++index] == 'r') && (data[++index] == 'e')
+ && (data[++index] == 'a') && (data[++index] == 'k'))
return TokenNamebreak;
else
return TokenNameIdentifier;
default :
return TokenNameIdentifier;
}
-
- case 'c' : //case catch class const continue
+ case 'c' :
+ //case catch class clone const continue
switch (length) {
case 4 :
- if ((data[++index] == 'a') && (data[++index] == 's') && (data[++index] == 'e'))
+ if ((data[++index] == 'a') && (data[++index] == 's')
+ && (data[++index] == 'e'))
return TokenNamecase;
else
return TokenNameIdentifier;
case 5 :
- if ((data[++index] == 'a') && (data[++index] == 't') && (data[++index] == 'c') && (data[++index] == 'h'))
+ if ((data[++index] == 'a') && (data[++index] == 't')
+ && (data[++index] == 'c') && (data[++index] == 'h'))
return TokenNamecatch;
- if ((data[index] == 'l') && (data[++index] == 'a') && (data[++index] == 's') && (data[++index] == 's'))
+ index = 0;
+ if ((data[++index] == 'l') && (data[++index] == 'a')
+ && (data[++index] == 's') && (data[++index] == 's'))
return TokenNameclass;
- if ((data[index] == 'o') && (data[++index] == 'n') && (data[++index] == 's') && (data[++index] == 't'))
+ index = 0;
+ if ((data[++index] == 'l') && (data[++index] == 'o')
+ && (data[++index] == 'n') && (data[++index] == 'e'))
+ return TokenNameclone;
+ index = 0;
+ if ((data[++index] == 'o') && (data[++index] == 'n')
+ && (data[++index] == 's') && (data[++index] == 't'))
return TokenNameconst;
else
return TokenNameIdentifier;
case 8 :
- if ((data[++index] == 'o')
- && (data[++index] == 'n')
- && (data[++index] == 't')
- && (data[++index] == 'i')
- && (data[++index] == 'n')
- && (data[++index] == 'u')
- && (data[++index] == 'e'))
+ if ((data[++index] == 'o') && (data[++index] == 'n')
+ && (data[++index] == 't') && (data[++index] == 'i')
+ && (data[++index] == 'n') && (data[++index] == 'u')
+ && (data[++index] == 'e'))
return TokenNamecontinue;
else
return TokenNameIdentifier;
default :
return TokenNameIdentifier;
}
-
- case 'd' : //define declare default do die
+ case 'd' :
+ // declare default do die
+ // TODO delete define ==> no keyword !
switch (length) {
case 2 :
if ((data[++index] == 'o'))
return TokenNamedo;
else
return TokenNameIdentifier;
- case 3 :
- if ((data[++index] == 'i') && (data[++index] == 'e'))
- return TokenNamedie;
- else
- return TokenNameIdentifier;
- case 6 :
- if ((data[++index] == 'e')
- && (data[++index] == 'f')
- && (data[++index] == 'i')
- && (data[++index] == 'n')
- && (data[++index] == 'e'))
- return TokenNamedefine;
- else
- return TokenNameIdentifier;
+ // case 6 :
+ // if ((data[++index] == 'e')
+ // && (data[++index] == 'f')
+ // && (data[++index] == 'i')
+ // && (data[++index] == 'n')
+ // && (data[++index] == 'e'))
+ // return TokenNamedefine;
+ // else
+ // return TokenNameIdentifier;
case 7 :
- if ((data[++index] == 'e')
- && (data[++index] == 'c')
- && (data[++index] == 'l')
- && (data[++index] == 'a')
- && (data[++index] == 'r')
- && (data[++index] == 'e'))
+ if ((data[++index] == 'e') && (data[++index] == 'c')
+ && (data[++index] == 'l') && (data[++index] == 'a')
+ && (data[++index] == 'r') && (data[++index] == 'e'))
return TokenNamedeclare;
index = 0;
- if ((data[++index] == 'e')
- && (data[++index] == 'f')
- && (data[++index] == 'a')
- && (data[++index] == 'u')
- && (data[++index] == 'l')
- && (data[++index] == 't'))
+ if ((data[++index] == 'e') && (data[++index] == 'f')
+ && (data[++index] == 'a') && (data[++index] == 'u')
+ && (data[++index] == 'l') && (data[++index] == 't'))
return TokenNamedefault;
else
return TokenNameIdentifier;
default :
return TokenNameIdentifier;
}
- case 'e' : //echo else exit elseif extends eval
+ case 'e' :
+ //echo else exit elseif extends eval
switch (length) {
case 4 :
- if ((data[++index] == 'c') && (data[++index] == 'h') && (data[++index] == 'o'))
+ if ((data[++index] == 'c') && (data[++index] == 'h')
+ && (data[++index] == 'o'))
return TokenNameecho;
- else if ((data[index] == 'l') && (data[++index] == 's') && (data[++index] == 'e'))
+ else if ((data[index] == 'l') && (data[++index] == 's')
+ && (data[++index] == 'e'))
return TokenNameelse;
- else if ((data[index] == 'x') && (data[++index] == 'i') && (data[++index] == 't'))
+ else if ((data[index] == 'x') && (data[++index] == 'i')
+ && (data[++index] == 't'))
return TokenNameexit;
- else if ((data[index] == 'v') && (data[++index] == 'a') && (data[++index] == 'l'))
+ else if ((data[index] == 'v') && (data[++index] == 'a')
+ && (data[++index] == 'l'))
return TokenNameeval;
else
return TokenNameIdentifier;
- case 5 : // endif empty
- if ((data[++index] == 'n') && (data[++index] == 'd') && (data[++index] == 'i') && (data[++index] == 'f'))
+ case 5 :
+ // endif empty
+ if ((data[++index] == 'n') && (data[++index] == 'd')
+ && (data[++index] == 'i') && (data[++index] == 'f'))
return TokenNameendif;
- if ((data[index] == 'm') && (data[++index] == 'p') && (data[++index] == 't') && (data[++index] == 'y'))
+ if ((data[index] == 'm') && (data[++index] == 'p')
+ && (data[++index] == 't') && (data[++index] == 'y'))
return TokenNameempty;
else
return TokenNameIdentifier;
- case 6 : // endfor
- if ((data[++index] == 'n')
- && (data[++index] == 'd')
- && (data[++index] == 'f')
- && (data[++index] == 'o')
- && (data[++index] == 'r'))
+ case 6 :
+ // endfor
+ if ((data[++index] == 'n') && (data[++index] == 'd')
+ && (data[++index] == 'f') && (data[++index] == 'o')
+ && (data[++index] == 'r'))
return TokenNameendfor;
- else if (
- (data[index] == 'l')
- && (data[++index] == 's')
- && (data[++index] == 'e')
- && (data[++index] == 'i')
+ else if ((data[index] == 'l') && (data[++index] == 's')
+ && (data[++index] == 'e') && (data[++index] == 'i')
&& (data[++index] == 'f'))
return TokenNameelseif;
else
return TokenNameIdentifier;
case 7 :
- if ((data[++index] == 'x')
- && (data[++index] == 't')
- && (data[++index] == 'e')
- && (data[++index] == 'n')
- && (data[++index] == 'd')
- && (data[++index] == 's'))
+ if ((data[++index] == 'x') && (data[++index] == 't')
+ && (data[++index] == 'e') && (data[++index] == 'n')
+ && (data[++index] == 'd') && (data[++index] == 's'))
return TokenNameextends;
else
return TokenNameIdentifier;
- case 8 : // endwhile
- if ((data[++index] == 'n')
- && (data[++index] == 'd')
- && (data[++index] == 'w')
- && (data[++index] == 'h')
- && (data[++index] == 'i')
- && (data[++index] == 'l')
- && (data[++index] == 'e'))
+ case 8 :
+ // endwhile
+ if ((data[++index] == 'n') && (data[++index] == 'd')
+ && (data[++index] == 'w') && (data[++index] == 'h')
+ && (data[++index] == 'i') && (data[++index] == 'l')
+ && (data[++index] == 'e'))
return TokenNameendwhile;
else
return TokenNameIdentifier;
- case 9 : // endswitch
- if ((data[++index] == 'n')
- && (data[++index] == 'd')
- && (data[++index] == 's')
- && (data[++index] == 'w')
- && (data[++index] == 'i')
- && (data[++index] == 't')
- && (data[++index] == 'c')
- && (data[++index] == 'h'))
+ case 9 :
+ // endswitch
+ if ((data[++index] == 'n') && (data[++index] == 'd')
+ && (data[++index] == 's') && (data[++index] == 'w')
+ && (data[++index] == 'i') && (data[++index] == 't')
+ && (data[++index] == 'c') && (data[++index] == 'h'))
return TokenNameendswitch;
else
return TokenNameIdentifier;
- case 10 : // enddeclare
- if ((data[++index] == 'n')
- && (data[++index] == 'd')
- && (data[++index] == 'd')
- && (data[++index] == 'e')
- && (data[++index] == 'c')
- && (data[++index] == 'l')
- && (data[++index] == 'a')
- && (data[++index] == 'r')
- && (data[++index] == 'e'))
+ case 10 :
+ // enddeclare
+ if ((data[++index] == 'n') && (data[++index] == 'd')
+ && (data[++index] == 'd') && (data[++index] == 'e')
+ && (data[++index] == 'c') && (data[++index] == 'l')
+ && (data[++index] == 'a') && (data[++index] == 'r')
+ && (data[++index] == 'e'))
return TokenNameendforeach;
index = 0;
if ((data[++index] == 'n') // endforeach
- && (data[++index] == 'd')
- && (data[++index] == 'f')
- && (data[++index] == 'o')
- && (data[++index] == 'r')
- && (data[++index] == 'e')
- && (data[++index] == 'a')
- && (data[++index] == 'c')
- && (data[++index] == 'h'))
+ && (data[++index] == 'd') && (data[++index] == 'f')
+ && (data[++index] == 'o') && (data[++index] == 'r')
+ && (data[++index] == 'e') && (data[++index] == 'a')
+ && (data[++index] == 'c') && (data[++index] == 'h'))
return TokenNameendforeach;
else
return TokenNameIdentifier;
-
default :
return TokenNameIdentifier;
}
-
- case 'f' : //for false final function
+ case 'f' :
+ //for false final function
switch (length) {
case 3 :
if ((data[++index] == 'o') && (data[++index] == 'r'))
else
return TokenNameIdentifier;
case 5 :
- if ((data[++index] == 'a') && (data[++index] == 'l') && (data[++index] == 's') && (data[++index] == 'e'))
- return TokenNamefalse;
- if ((data[index] == 'i') && (data[++index] == 'n') && (data[++index] == 'a') && (data[++index] == 'l'))
+ // if ((data[++index] == 'a') && (data[++index] == 'l')
+ // && (data[++index] == 's') && (data[++index] == 'e'))
+ // return TokenNamefalse;
+ if ((data[++index] == 'i') && (data[++index] == 'n')
+ && (data[++index] == 'a') && (data[++index] == 'l'))
return TokenNamefinal;
else
return TokenNameIdentifier;
- case 7 : // foreach
- if ((data[++index] == 'o')
- && (data[++index] == 'r')
- && (data[++index] == 'e')
- && (data[++index] == 'a')
- && (data[++index] == 'c')
- && (data[++index] == 'h'))
+ case 7 :
+ // foreach
+ if ((data[++index] == 'o') && (data[++index] == 'r')
+ && (data[++index] == 'e') && (data[++index] == 'a')
+ && (data[++index] == 'c') && (data[++index] == 'h'))
return TokenNameforeach;
else
return TokenNameIdentifier;
- case 8 : // function
- if ((data[++index] == 'u')
- && (data[++index] == 'n')
- && (data[++index] == 'c')
- && (data[++index] == 't')
- && (data[++index] == 'i')
- && (data[++index] == 'o')
- && (data[++index] == 'n'))
+ case 8 :
+ // function
+ if ((data[++index] == 'u') && (data[++index] == 'n')
+ && (data[++index] == 'c') && (data[++index] == 't')
+ && (data[++index] == 'i') && (data[++index] == 'o')
+ && (data[++index] == 'n'))
return TokenNamefunction;
else
return TokenNameIdentifier;
default :
return TokenNameIdentifier;
}
- case 'g' : //global
+ case 'g' :
+ //global
if (length == 6) {
- if ((data[++index] == 'l')
- && (data[++index] == 'o')
- && (data[++index] == 'b')
- && (data[++index] == 'a')
- && (data[++index] == 'l')) {
+ if ((data[++index] == 'l') && (data[++index] == 'o')
+ && (data[++index] == 'b') && (data[++index] == 'a')
+ && (data[++index] == 'l')) {
return TokenNameglobal;
}
}
return TokenNameIdentifier;
-
- case 'i' : //if int isset include include_once instanceof interface implements
+ case 'i' :
+ //if int isset include include_once instanceof interface implements
switch (length) {
case 2 :
if (data[++index] == 'f')
return TokenNameif;
else
return TokenNameIdentifier;
- // case 3 :
- // if ((data[++index] == 'n') && (data[++index] == 't'))
- // return TokenNameint;
- // else
- // return TokenNameIdentifier;
+ // case 3 :
+ // if ((data[++index] == 'n') && (data[++index] == 't'))
+ // return TokenNameint;
+ // else
+ // return TokenNameIdentifier;
case 5 :
- if ((data[++index] == 's') && (data[++index] == 's') && (data[++index] == 'e') && (data[++index] == 't'))
+ if ((data[++index] == 's') && (data[++index] == 's')
+ && (data[++index] == 'e') && (data[++index] == 't'))
return TokenNameisset;
else
return TokenNameIdentifier;
case 7 :
- if ((data[++index] == 'n')
- && (data[++index] == 'c')
- && (data[++index] == 'l')
- && (data[++index] == 'u')
- && (data[++index] == 'd')
- && (data[++index] == 'e'))
+ if ((data[++index] == 'n') && (data[++index] == 'c')
+ && (data[++index] == 'l') && (data[++index] == 'u')
+ && (data[++index] == 'd') && (data[++index] == 'e'))
return TokenNameinclude;
else
return TokenNameIdentifier;
- case 9 : // interface
- if ((data[++index] == 'n')
- && (data[++index] == 't')
- && (data[++index] == 'e')
- && (data[++index] == 'r')
- && (data[++index] == 'f')
- && (data[++index] == 'a')
- && (data[++index] == 'c')
- && (data[++index] == 'e'))
+ case 9 :
+ // interface
+ if ((data[++index] == 'n') && (data[++index] == 't')
+ && (data[++index] == 'e') && (data[++index] == 'r')
+ && (data[++index] == 'f') && (data[++index] == 'a')
+ && (data[++index] == 'c') && (data[++index] == 'e'))
return TokenNameinterface;
else
return TokenNameIdentifier;
- case 10 : // instanceof
- if ((data[++index] == 'n')
- && (data[++index] == 's')
- && (data[++index] == 't')
- && (data[++index] == 'a')
- && (data[++index] == 'n')
- && (data[++index] == 'c')
- && (data[++index] == 'e')
- && (data[++index] == 'o')
- && (data[++index] == 'f'))
+ case 10 :
+ // instanceof
+ if ((data[++index] == 'n') && (data[++index] == 's')
+ && (data[++index] == 't') && (data[++index] == 'a')
+ && (data[++index] == 'n') && (data[++index] == 'c')
+ && (data[++index] == 'e') && (data[++index] == 'o')
+ && (data[++index] == 'f'))
return TokenNameinstanceof;
- if ((data[index] == 'm')
- && (data[++index] == 'p')
- && (data[++index] == 'l')
- && (data[++index] == 'e')
- && (data[++index] == 'm')
- && (data[++index] == 'e')
- && (data[++index] == 'n')
- && (data[++index] == 't')
- && (data[++index] == 's'))
+ if ((data[index] == 'm') && (data[++index] == 'p')
+ && (data[++index] == 'l') && (data[++index] == 'e')
+ && (data[++index] == 'm') && (data[++index] == 'e')
+ && (data[++index] == 'n') && (data[++index] == 't')
+ && (data[++index] == 's'))
return TokenNameimplements;
else
return TokenNameIdentifier;
case 12 :
- if ((data[++index] == 'n')
- && (data[++index] == 'c')
- && (data[++index] == 'l')
- && (data[++index] == 'u')
- && (data[++index] == 'd')
- && (data[++index] == 'e')
- && (data[++index] == '_')
- && (data[++index] == 'o')
- && (data[++index] == 'n')
- && (data[++index] == 'c')
- && (data[++index] == 'e'))
+ if ((data[++index] == 'n') && (data[++index] == 'c')
+ && (data[++index] == 'l') && (data[++index] == 'u')
+ && (data[++index] == 'd') && (data[++index] == 'e')
+ && (data[++index] == '_') && (data[++index] == 'o')
+ && (data[++index] == 'n') && (data[++index] == 'c')
+ && (data[++index] == 'e'))
return TokenNameinclude_once;
else
return TokenNameIdentifier;
default :
return TokenNameIdentifier;
}
-
- case 'l' : //list
+ case 'l' :
+ //list
if (length == 4) {
- if ((data[++index] == 'i') && (data[++index] == 's') && (data[++index] == 't')) {
+ if ((data[++index] == 'i') && (data[++index] == 's')
+ && (data[++index] == 't')) {
return TokenNamelist;
}
}
return TokenNameIdentifier;
-
- case 'n' : // new null
+ case 'n' :
+ // new null
switch (length) {
case 3 :
if ((data[++index] == 'e') && (data[++index] == 'w'))
return TokenNamenew;
else
return TokenNameIdentifier;
- case 4 :
- if ((data[++index] == 'u') && (data[++index] == 'l') && (data[++index] == 'l'))
- return TokenNamenull;
- else
- return TokenNameIdentifier;
-
+ // case 4 :
+ // if ((data[++index] == 'u') && (data[++index] == 'l')
+ // && (data[++index] == 'l'))
+ // return TokenNamenull;
+ // else
+ // return TokenNameIdentifier;
default :
return TokenNameIdentifier;
}
- case 'o' : // or old_function
+ case 'o' :
+ // or old_function
if (length == 2) {
if (data[++index] == 'r') {
- return TokenNameOR;
+ return TokenNameor;
}
}
// if (length == 12) {
// }
// }
return TokenNameIdentifier;
-
- case 'p' : // print public private protected
+ case 'p' :
+ // print public private protected
switch (length) {
case 5 :
- if ((data[++index] == 'r') && (data[++index] == 'i') && (data[++index] == 'n') && (data[++index] == 't')) {
+ if ((data[++index] == 'r') && (data[++index] == 'i')
+ && (data[++index] == 'n') && (data[++index] == 't')) {
return TokenNameprint;
} else
return TokenNameIdentifier;
case 6 :
- if ((data[++index] == 'u')
- && (data[++index] == 'b')
- && (data[++index] == 'l')
- && (data[++index] == 'i')
- && (data[++index] == 'c')) {
+ if ((data[++index] == 'u') && (data[++index] == 'b')
+ && (data[++index] == 'l') && (data[++index] == 'i')
+ && (data[++index] == 'c')) {
return TokenNamepublic;
} else
return TokenNameIdentifier;
case 7 :
- if ((data[++index] == 'r')
- && (data[++index] == 'i')
- && (data[++index] == 'v')
- && (data[++index] == 'a')
- && (data[++index] == 't')
- && (data[++index] == 'e')) {
+ if ((data[++index] == 'r') && (data[++index] == 'i')
+ && (data[++index] == 'v') && (data[++index] == 'a')
+ && (data[++index] == 't') && (data[++index] == 'e')) {
return TokenNameprivate;
} else
return TokenNameIdentifier;
case 9 :
- if ((data[++index] == 'r')
- && (data[++index] == 'o')
- && (data[++index] == 't')
- && (data[++index] == 'e')
- && (data[++index] == 'c')
- && (data[++index] == 't')
- && (data[++index] == 'e')
- && (data[++index] == 'd')) {
+ if ((data[++index] == 'r') && (data[++index] == 'o')
+ && (data[++index] == 't') && (data[++index] == 'e')
+ && (data[++index] == 'c') && (data[++index] == 't')
+ && (data[++index] == 'e') && (data[++index] == 'd')) {
return TokenNameprotected;
} else
return TokenNameIdentifier;
}
return TokenNameIdentifier;
- case 'r' : //return require require_once
+ case 'r' :
+ //return require require_once
if (length == 6) {
- if ((data[++index] == 'e')
- && (data[++index] == 't')
- && (data[++index] == 'u')
- && (data[++index] == 'r')
- && (data[++index] == 'n')) {
+ if ((data[++index] == 'e') && (data[++index] == 't')
+ && (data[++index] == 'u') && (data[++index] == 'r')
+ && (data[++index] == 'n')) {
return TokenNamereturn;
}
} else if (length == 7) {
- if ((data[++index] == 'e')
- && (data[++index] == 'q')
- && (data[++index] == 'u')
- && (data[++index] == 'i')
- && (data[++index] == 'r')
- && (data[++index] == 'e')) {
+ if ((data[++index] == 'e') && (data[++index] == 'q')
+ && (data[++index] == 'u') && (data[++index] == 'i')
+ && (data[++index] == 'r') && (data[++index] == 'e')) {
return TokenNamerequire;
}
} else if (length == 12) {
- if ((data[++index] == 'e')
- && (data[++index] == 'q')
- && (data[++index] == 'u')
- && (data[++index] == 'i')
- && (data[++index] == 'r')
- && (data[++index] == 'e')
- && (data[++index] == '_')
- && (data[++index] == 'o')
- && (data[++index] == 'n')
- && (data[++index] == 'c')
- && (data[++index] == 'e')) {
+ if ((data[++index] == 'e') && (data[++index] == 'q')
+ && (data[++index] == 'u') && (data[++index] == 'i')
+ && (data[++index] == 'r') && (data[++index] == 'e')
+ && (data[++index] == '_') && (data[++index] == 'o')
+ && (data[++index] == 'n') && (data[++index] == 'c')
+ && (data[++index] == 'e')) {
return TokenNamerequire_once;
}
} else
return TokenNameIdentifier;
-
- case 's' : //static switch
+ case 's' :
+ //static switch
switch (length) {
case 6 :
if (data[++index] == 't')
- if ((data[++index] == 'a') && (data[++index] == 't') && (data[++index] == 'i') && (data[++index] == 'c')) {
+ if ((data[++index] == 'a') && (data[++index] == 't')
+ && (data[++index] == 'i') && (data[++index] == 'c')) {
return TokenNamestatic;
} else
return TokenNameIdentifier;
- else if (
- (data[index] == 'w')
- && (data[++index] == 'i')
- && (data[++index] == 't')
- && (data[++index] == 'c')
+ else if ((data[index] == 'w') && (data[++index] == 'i')
+ && (data[++index] == 't') && (data[++index] == 'c')
&& (data[++index] == 'h'))
return TokenNameswitch;
else
default :
return TokenNameIdentifier;
}
-
- case 't' : // try true throw
+ case 't' :
+ // try true throw
switch (length) {
case 3 :
if ((data[++index] == 'r') && (data[++index] == 'y'))
return TokenNametry;
else
return TokenNameIdentifier;
- case 4 :
- if ((data[++index] == 'r') && (data[++index] == 'u') && (data[++index] == 'e'))
- return TokenNametrue;
- else
- return TokenNameIdentifier;
+ // case 4 :
+ // if ((data[++index] == 'r') && (data[++index] == 'u')
+ // && (data[++index] == 'e'))
+ // return TokenNametrue;
+ // else
+ // return TokenNameIdentifier;
case 5 :
- if ((data[++index] == 'h') && (data[++index] == 'r') && (data[++index] == 'o') && (data[++index] == 'w'))
+ if ((data[++index] == 'h') && (data[++index] == 'r')
+ && (data[++index] == 'o') && (data[++index] == 'w'))
return TokenNamethrow;
else
return TokenNameIdentifier;
-
default :
return TokenNameIdentifier;
}
- case 'u' : //use unset
+ case 'u' :
+ //use unset
switch (length) {
case 3 :
if ((data[++index] == 's') && (data[++index] == 'e'))
else
return TokenNameIdentifier;
case 5 :
- if ((data[++index] == 'n') && (data[++index] == 's') && (data[++index] == 'e') && (data[++index] == 't'))
+ if ((data[++index] == 'n') && (data[++index] == 's')
+ && (data[++index] == 'e') && (data[++index] == 't'))
return TokenNameunset;
else
return TokenNameIdentifier;
default :
return TokenNameIdentifier;
}
- case 'v' : //var
+ case 'v' :
+ //var
switch (length) {
case 3 :
if ((data[++index] == 'a') && (data[++index] == 'r'))
return TokenNamevar;
else
return TokenNameIdentifier;
-
default :
return TokenNameIdentifier;
}
-
- case 'w' : //while
+ case 'w' :
+ //while
switch (length) {
case 5 :
- if ((data[++index] == 'h') && (data[++index] == 'i') && (data[++index] == 'l') && (data[++index] == 'e'))
+ if ((data[++index] == 'h') && (data[++index] == 'i')
+ && (data[++index] == 'l') && (data[++index] == 'e'))
return TokenNamewhile;
else
return TokenNameIdentifier;
- //case 6:if ( (data[++index] =='i') && (data[++index]=='d') && (data[++index]=='e') && (data[++index]=='f')&&
- // (data[++index]=='p'))
- //return TokenNamewidefp ;
- //else
- //return TokenNameIdentifier;
+ //case 6:if ( (data[++index] =='i') && (data[++index]=='d') &&
+ // (data[++index]=='e') && (data[++index]=='f')&&
+ // (data[++index]=='p'))
+ //return TokenNamewidefp ;
+ //else
+ //return TokenNameIdentifier;
default :
return TokenNameIdentifier;
}
-
- case 'x' : //xor
+ case 'x' :
+ //xor
switch (length) {
case 3 :
if ((data[++index] == 'o') && (data[++index] == 'r'))
- return TokenNameXOR;
+ return TokenNamexor;
else
return TokenNameIdentifier;
-
default :
return TokenNameIdentifier;
}
}
}
public int scanNumber(boolean dotPrefix) throws InvalidInputException {
-
//when entering this method the currentCharacter is the firt
//digit of the number , i.e. it may be preceeded by a . when
//dotPrefix is true
-
boolean floating = dotPrefix;
if ((!dotPrefix) && (currentCharacter == '0')) {
if (getNextChar('x', 'X') >= 0) { //----------hexa-----------------
// else
return TokenNameIntegerLiteral;
}
-
//there is x or X in the number
- //potential octal ! ... some one may write 000099.0 ! thus 00100 < 00078.0 is true !!!!! crazy language
+ //potential octal ! ... some one may write 000099.0 ! thus 00100 <
+ // 00078.0 is true !!!!! crazy language
if (getNextCharAsDigit()) {
//-------------potential octal-----------------
while (getNextCharAsDigit()) {
};
-
// if (getNextChar('l', 'L') >= 0) {
// return TokenNameLongLiteral;
// }
// if (getNextChar('f', 'F') >= 0) {
// return TokenNameFloatingPointLiteral;
// }
-
if (getNextChar('d', 'D') >= 0) {
return TokenNameDoubleLiteral;
} else { //make the distinction between octal and float ....
// withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
// }
// }
-
if ((currentCharacter == '-') || (currentCharacter == '+')) {
// consume next character
unicodeAsBackSlash = false;
/* carry on */
}
}
-
while (getNextCharAsDigit()) {
};
-
// if ((!dotPrefix) && (getNextChar('l', 'L') >= 0))
// return TokenNameLongLiteral;
-
if ((!dotPrefix) && (getNextChar('.'))) { //decimal part that can be empty
while (getNextCharAsDigit()) {
};
floating = true;
}
-
//if floating is true both exponant and suffix may be optional
-
if (getNextChar('e', 'E') >= 0) {
floating = true;
// consume next character
// withoutUnicodeBuffer[++withoutUnicodePtr] = currentCharacter;
// }
// }
-
- if ((currentCharacter == '-') || (currentCharacter == '+')) { // consume next character
+ if ((currentCharacter == '-') || (currentCharacter == '+')) { // consume
+ // next
+ // character
unicodeAsBackSlash = false;
currentCharacter = source[currentPosition++];
// if (((currentCharacter = source[currentPosition++]) == '\\')
while (getNextCharAsDigit()) {
};
}
-
if (getNextChar('d', 'D') >= 0)
return TokenNameDoubleLiteral;
// if (getNextChar('f', 'F') >= 0)
// return TokenNameFloatingPointLiteral;
-
//the long flag has been tested before
-
return floating ? TokenNameDoubleLiteral : TokenNameIntegerLiteral;
}
/**
*
*/
public final int getLineNumber(int position) {
-
if (lineEnds == null)
return 1;
int length = linePtr + 1;
}
return m + 2;
}
-
public void setPHPMode(boolean mode) {
phpMode = mode;
}
-
public final void setSource(char[] source) {
//the source-buffer is set to sourceString
-
if (source == null) {
this.source = new char[0];
} else {
initialPosition = currentPosition = 0;
containsAssertKeyword = false;
withoutUnicodeBuffer = new char[this.source.length];
-
+ encapsedStringStack = new Stack();
}
-
public String toString() {
if (startPosition == source.length)
return "EOF\n\n" + new String(source); //$NON-NLS-1$
if (currentPosition > source.length)
return "behind the EOF :-( ....\n\n" + new String(source); //$NON-NLS-1$
-
char front[] = new char[startPosition];
System.arraycopy(source, 0, front, 0, startPosition);
-
int middleLength = (currentPosition - 1) - startPosition + 1;
char middle[];
if (middleLength > -1) {
} else {
middle = new char[0];
}
-
char end[] = new char[source.length - (currentPosition - 1)];
- System.arraycopy(source, (currentPosition - 1) + 1, end, 0, source.length - (currentPosition - 1) - 1);
-
- return new String(front) + "\n===============================\nStarts here -->" //$NON-NLS-1$
- + new String(middle) + "<-- Ends here\n===============================\n" //$NON-NLS-1$
- + new String(end);
+ System.arraycopy(source, (currentPosition - 1) + 1, end, 0, source.length
+ - (currentPosition - 1) - 1);
+ return new String(front)
+ + "\n===============================\nStarts here -->" //$NON-NLS-1$
+ + new String(middle)
+ + "<-- Ends here\n===============================\n" //$NON-NLS-1$
+ + new String(end);
}
public final String toStringAction(int act) {
-
switch (act) {
case TokenNameERROR :
- return "ScannerError"; // + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$
- case TokenNameStopPHP :
- return "StopPHP(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
+ return "ScannerError"; // + new String(getCurrentTokenSource()) + ")";
+ // //$NON-NLS-1$
+ case TokenNameINLINE_HTML :
+ return "Inline-HTML(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
case TokenNameIdentifier :
return "Identifier(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
case TokenNameVariable :
return "Variable(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
+ case TokenNameabstract :
+ return "abstract"; //$NON-NLS-1$
+ case TokenNameand :
+ return "AND"; //$NON-NLS-1$
+ case TokenNamearray :
+ return "array"; //$NON-NLS-1$
case TokenNameas :
return "as"; //$NON-NLS-1$
case TokenNamebreak :
return "case"; //$NON-NLS-1$
case TokenNameclass :
return "class"; //$NON-NLS-1$
+ case TokenNamecatch :
+ return "catch"; //$NON-NLS-1$
+ case TokenNameclone :
+ //$NON-NLS-1$
+ return "clone";
+ case TokenNameconst :
+ //$NON-NLS-1$
+ return "const";
case TokenNamecontinue :
return "continue"; //$NON-NLS-1$
case TokenNamedefault :
return "default"; //$NON-NLS-1$
- case TokenNamedefine :
- return "define"; //$NON-NLS-1$
+ // case TokenNamedefine :
+ // return "define"; //$NON-NLS-1$
case TokenNamedo :
return "do"; //$NON-NLS-1$
case TokenNameecho :
return "endswitch"; //$NON-NLS-1$
case TokenNameendwhile :
return "endwhile"; //$NON-NLS-1$
+ case TokenNameexit:
+ return "exit";
case TokenNameextends :
return "extends"; //$NON-NLS-1$
- case TokenNamefalse :
- return "false"; //$NON-NLS-1$
+ // case TokenNamefalse :
+ // return "false"; //$NON-NLS-1$
+ case TokenNamefinal :
+ return "final"; //$NON-NLS-1$
case TokenNamefor :
return "for"; //$NON-NLS-1$
case TokenNameforeach :
return "global"; //$NON-NLS-1$
case TokenNameif :
return "if"; //$NON-NLS-1$
+ case TokenNameimplements :
+ return "implements"; //$NON-NLS-1$
case TokenNameinclude :
return "include"; //$NON-NLS-1$
case TokenNameinclude_once :
return "include_once"; //$NON-NLS-1$
+ case TokenNameinstanceof :
+ return "instanceof"; //$NON-NLS-1$
+ case TokenNameinterface :
+ return "interface"; //$NON-NLS-1$
+ case TokenNameisset :
+ return "isset"; //$NON-NLS-1$
case TokenNamelist :
return "list"; //$NON-NLS-1$
case TokenNamenew :
return "new"; //$NON-NLS-1$
- case TokenNamenull :
- return "null"; //$NON-NLS-1$
+ // case TokenNamenull :
+ // return "null"; //$NON-NLS-1$
+ case TokenNameor :
+ return "OR"; //$NON-NLS-1$
case TokenNameprint :
return "print"; //$NON-NLS-1$
+ case TokenNameprivate :
+ return "private"; //$NON-NLS-1$
+ case TokenNameprotected :
+ return "protected"; //$NON-NLS-1$
+ case TokenNamepublic :
+ return "public"; //$NON-NLS-1$
case TokenNamerequire :
return "require"; //$NON-NLS-1$
case TokenNamerequire_once :
return "static"; //$NON-NLS-1$
case TokenNameswitch :
return "switch"; //$NON-NLS-1$
- case TokenNametrue :
- return "true"; //$NON-NLS-1$
+ // case TokenNametrue :
+ // return "true"; //$NON-NLS-1$
+ case TokenNameunset :
+ return "unset"; //$NON-NLS-1$
case TokenNamevar :
return "var"; //$NON-NLS-1$
case TokenNamewhile :
return "while"; //$NON-NLS-1$
- case TokenNamethis :
- return "$this"; //$NON-NLS-1$
+ case TokenNamexor :
+ return "XOR"; //$NON-NLS-1$
+ // case TokenNamethis :
+ // return "$this"; //$NON-NLS-1$
case TokenNameIntegerLiteral :
return "Integer(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
case TokenNameDoubleLiteral :
return "Double(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
case TokenNameStringLiteral :
- return "String(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
+ return "StringLiteral(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
case TokenNameStringConstant :
return "StringConstant(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
case TokenNameStringInterpolated :
- return "StringInterpolated(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
+ return "StringInterpolated(" + new String(getCurrentTokenSource())
+ + ")"; //$NON-NLS-1$ //$NON-NLS-2$
+ case TokenNameEncapsedString0 :
+ return "`"; //$NON-NLS-1$
+ case TokenNameEncapsedString1 :
+ return "\'"; //$NON-NLS-1$
+ case TokenNameEncapsedString2 :
+ return "\""; //$NON-NLS-1$
+ case TokenNameSTRING :
+ return "STRING(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
case TokenNameHEREDOC :
return "HEREDOC(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$
-
case TokenNamePLUS_PLUS :
return "++"; //$NON-NLS-1$
case TokenNameMINUS_MINUS :
return "^="; //$NON-NLS-1$
case TokenNameREMAINDER_EQUAL :
return "%="; //$NON-NLS-1$
+ case TokenNameDOT_EQUAL :
+ return ".="; //$NON-NLS-1$
case TokenNameLEFT_SHIFT_EQUAL :
return "<<="; //$NON-NLS-1$
case TokenNameRIGHT_SHIFT_EQUAL :
return "="; //$NON-NLS-1$
case TokenNameAT :
return "@";
+ case TokenNameDOLLAR :
+ return "$";
case TokenNameDOLLAR_LBRACE :
return "${";
case TokenNameEOF :
return "COMMENT_BLOCK(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$
case TokenNameCOMMENT_PHPDOC :
return "COMMENT_PHPDOC(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$
- case TokenNameHTML :
- return "HTML(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$
+ // case TokenNameHTML :
+ // return "HTML(" + new String(getCurrentTokenSource()) + ")";
+ // //$NON-NLS-1$
+ case TokenNameFILE :
+ return "__FILE__"; //$NON-NLS-1$
+ case TokenNameLINE :
+ return "__LINE__"; //$NON-NLS-1$
+ case TokenNameCLASS_C :
+ return "__CLASS__"; //$NON-NLS-1$
+ case TokenNameMETHOD_C :
+ return "__METHOD__"; //$NON-NLS-1$
+ case TokenNameFUNC_C :
+ return "__FUNCTION__"; //$NON-NLS-1
+ case TokenNameboolCAST :
+ return "( bool )"; //$NON-NLS-1$
+ case TokenNameintCAST :
+ return "( int )"; //$NON-NLS-1$
+ case TokenNamedoubleCAST :
+ return "( double )"; //$NON-NLS-1$
+ case TokenNameobjectCAST :
+ return "( object )"; //$NON-NLS-1$
+ case TokenNamestringCAST :
+ return "( string )"; //$NON-NLS-1$
default :
- return "not-a-token(" + (new Integer(act)) + ") " + new String(getCurrentTokenSource()); //$NON-NLS-1$
+ return "not-a-token(" + (new Integer(act)) + ") "
+ + new String(getCurrentTokenSource()); //$NON-NLS-1$
}
}
-
- public Scanner(boolean tokenizeComments, boolean tokenizeWhiteSpace, boolean checkNonExternalizedStringLiterals) {
- this(tokenizeComments, tokenizeWhiteSpace, checkNonExternalizedStringLiterals, false);
+
+ public Scanner() {
+ this(false, false);
}
-
- public Scanner(
- boolean tokenizeComments,
- boolean tokenizeWhiteSpace,
- boolean checkNonExternalizedStringLiterals,
- boolean assertMode) {
+ public Scanner(boolean tokenizeComments, boolean tokenizeWhiteSpace) {
+ this(tokenizeComments, tokenizeWhiteSpace, false);
+ }
+ public Scanner(boolean tokenizeComments, boolean tokenizeWhiteSpace,
+ boolean checkNonExternalizedStringLiterals) {
+ this(tokenizeComments, tokenizeWhiteSpace,
+ checkNonExternalizedStringLiterals, false);
+ }
+ public Scanner(boolean tokenizeComments, boolean tokenizeWhiteSpace,
+ boolean checkNonExternalizedStringLiterals, boolean assertMode) {
+ this(tokenizeComments, tokenizeWhiteSpace,
+ checkNonExternalizedStringLiterals, assertMode, false, null, null);
+ }
+ public Scanner(boolean tokenizeComments, boolean tokenizeWhiteSpace,
+ boolean checkNonExternalizedStringLiterals, boolean assertMode,
+ boolean tokenizeStrings,
+ char[][] taskTags,
+ char[][] taskPriorities) {
this.eofPosition = Integer.MAX_VALUE;
this.tokenizeComments = tokenizeComments;
this.tokenizeWhiteSpace = tokenizeWhiteSpace;
+ this.tokenizeStrings = tokenizeStrings;
this.checkNonExternalizedStringLiterals = checkNonExternalizedStringLiterals;
this.assertMode = assertMode;
+ this.encapsedStringStack = null;
+ this.taskTags = taskTags;
+ this.taskPriorities = taskPriorities;
}
-
private void checkNonExternalizeString() throws InvalidInputException {
if (currentLine == null)
return;
parseTags(currentLine);
}
-
private void parseTags(NLSLine line) throws InvalidInputException {
String s = new String(getCurrentTokenSource());
int pos = s.indexOf(TAG_PREFIX);
}
pos = s.indexOf(TAG_PREFIX, start);
}
-
this.nonNLSStrings = new StringLiteral[lineLength];
int nonNLSCounter = 0;
for (Iterator iterator = line.iterator(); iterator.hasNext();) {
}
this.wasNonExternalizedStringLiteral = true;
if (nonNLSCounter != lineLength) {
- System.arraycopy(this.nonNLSStrings, 0, (this.nonNLSStrings = new StringLiteral[nonNLSCounter]), 0, nonNLSCounter);
+ System.arraycopy(this.nonNLSStrings, 0,
+ (this.nonNLSStrings = new StringLiteral[nonNLSCounter]), 0,
+ nonNLSCounter);
}
currentLine = null;
}
-
public final void scanEscapeCharacter() throws InvalidInputException {
// the string with "\\u" is a legal string of two chars \ and u
//thus we use a direct access to the source (for regular cases).
-
if (unicodeAsBackSlash) {
// consume next character
unicodeAsBackSlash = false;
- // if (((currentCharacter = source[currentPosition++]) == '\\') && (source[currentPosition] == 'u')) {
+ // if (((currentCharacter = source[currentPosition++]) == '\\') &&
+ // (source[currentPosition] == 'u')) {
// getNextUnicodeChar();
// } else {
if (withoutUnicodePtr != 0) {
// OctalDigit
// OctalDigit OctalDigit
// ZeroToThree OctalDigit OctalDigit
-
int number = Character.getNumericValue(currentCharacter);
if (number >= 0 && number <= 7) {
boolean zeroToThreeNot = number > 3;
int digit = Character.getNumericValue(currentCharacter);
if (digit >= 0 && digit <= 7) {
number = (number * 8) + digit;
- if (Character.isDigit(currentCharacter = source[currentPosition++])) {
- if (zeroToThreeNot) { // has read \NotZeroToThree OctalDigit Digit --> ignore last character
+ if (Character
+ .isDigit(currentCharacter = source[currentPosition++])) {
+ if (zeroToThreeNot) { // has read \NotZeroToThree OctalDigit
+ // Digit --> ignore last character
currentPosition--;
} else {
digit = Character.getNumericValue(currentCharacter);
- if (digit >= 0 && digit <= 7) { // has read \ZeroToThree OctalDigit OctalDigit
+ if (digit >= 0 && digit <= 7) { // has read \ZeroToThree
+ // OctalDigit OctalDigit
number = (number * 8) + digit;
- } else { // has read \ZeroToThree OctalDigit NonOctalDigit --> ignore last character
+ } else { // has read \ZeroToThree OctalDigit NonOctalDigit
+ // --> ignore last character
currentPosition--;
}
}
- } else { // has read \OctalDigit NonDigit--> ignore last character
+ } else { // has read \OctalDigit NonDigit--> ignore last
+ // character
currentPosition--;
}
- } else { // has read \OctalDigit NonOctalDigit--> ignore last character
+ } else { // has read \OctalDigit NonOctalDigit--> ignore last
+ // character
currentPosition--;
}
} else { // has read \OctalDigit --> ignore last character
throw new InvalidInputException(INVALID_ESCAPE);
}
}
-
// chech presence of task: tags
public void checkTaskTag(int commentStart, int commentEnd) {
-
// only look for newer task: tags
- if (this.foundTaskCount > 0 && this.foundTaskPositions[this.foundTaskCount - 1][0] >= commentStart) {
+ if (this.foundTaskCount > 0
+ && this.foundTaskPositions[this.foundTaskCount - 1][0] >= commentStart) {
return;
}
int foundTaskIndex = this.foundTaskCount;
- nextChar : for (int i = commentStart; i < commentEnd && i < this.eofPosition; i++) {
-
+ nextChar : for (int i = commentStart; i < commentEnd
+ && i < this.eofPosition; i++) {
char[] tag = null;
char[] priority = null;
-
// check for tag occurrence
nextTag : for (int itag = 0; itag < this.taskTags.length; itag++) {
tag = this.taskTags[itag];
- priority = this.taskPriorities != null && itag < this.taskPriorities.length ? this.taskPriorities[itag] : null;
+ priority = this.taskPriorities != null
+ && itag < this.taskPriorities.length
+ ? this.taskPriorities[itag]
+ : null;
int tagLength = tag.length;
for (int t = 0; t < tagLength; t++) {
if (this.source[i + t] != tag[t])
continue nextTag;
}
-
if (this.foundTaskTags == null) {
this.foundTaskTags = new char[5][];
this.foundTaskMessages = new char[5][];
this.foundTaskPriorities = new char[5][];
this.foundTaskPositions = new int[5][];
} else if (this.foundTaskCount == this.foundTaskTags.length) {
- System.arraycopy(this.foundTaskTags, 0, this.foundTaskTags = new char[this.foundTaskCount * 2][], 0, this.foundTaskCount);
- System.arraycopy(
- this.foundTaskMessages,
- 0,
- this.foundTaskMessages = new char[this.foundTaskCount * 2][],
- 0,
- this.foundTaskCount);
- System.arraycopy(
- this.foundTaskPriorities,
- 0,
- this.foundTaskPriorities = new char[this.foundTaskCount * 2][],
- 0,
- this.foundTaskCount);
- System.arraycopy(
- this.foundTaskPositions,
- 0,
- this.foundTaskPositions = new int[this.foundTaskCount * 2][],
- 0,
- this.foundTaskCount);
+ System.arraycopy(this.foundTaskTags, 0,
+ this.foundTaskTags = new char[this.foundTaskCount * 2][], 0,
+ this.foundTaskCount);
+ System.arraycopy(this.foundTaskMessages, 0,
+ this.foundTaskMessages = new char[this.foundTaskCount * 2][], 0,
+ this.foundTaskCount);
+ System.arraycopy(this.foundTaskPriorities, 0,
+ this.foundTaskPriorities = new char[this.foundTaskCount * 2][],
+ 0, this.foundTaskCount);
+ System.arraycopy(this.foundTaskPositions, 0,
+ this.foundTaskPositions = new int[this.foundTaskCount * 2][], 0,
+ this.foundTaskCount);
}
this.foundTaskTags[this.foundTaskCount] = tag;
this.foundTaskPriorities[this.foundTaskCount] = priority;
- this.foundTaskPositions[this.foundTaskCount] = new int[] { i, i + tagLength - 1 };
+ this.foundTaskPositions[this.foundTaskCount] = new int[]{i,
+ i + tagLength - 1};
this.foundTaskMessages[this.foundTaskCount] = CharOperation.NO_CHAR;
this.foundTaskCount++;
-
i += tagLength - 1; // will be incremented when looping
}
}
-
for (int i = foundTaskIndex; i < this.foundTaskCount; i++) {
// retrieve message start and end positions
- int msgStart = this.foundTaskPositions[i][0] + this.foundTaskTags[i].length;
- int max_value = i + 1 < this.foundTaskCount ? this.foundTaskPositions[i + 1][0] - 1 : commentEnd - 1;
+ int msgStart = this.foundTaskPositions[i][0]
+ + this.foundTaskTags[i].length;
+ int max_value = i + 1 < this.foundTaskCount
+ ? this.foundTaskPositions[i + 1][0] - 1
+ : commentEnd - 1;
// at most beginning of next task
if (max_value < msgStart)
max_value = msgStart; // would only occur if tag is before EOF.
int end = -1;
char c;
-
for (int j = msgStart; j < max_value; j++) {
if ((c = this.source[j]) == '\n' || c == '\r') {
end = j - 1;
break;
}
}
-
if (end == -1) {
for (int j = max_value; j > msgStart; j--) {
if ((c = this.source[j]) == '*') {
if (end == -1)
end = max_value;
}
-
if (msgStart == end)
continue; // empty
-
// trim the message
while (CharOperation.isWhitespace(source[end]) && msgStart <= end)
end--;
while (CharOperation.isWhitespace(source[msgStart]) && msgStart <= end)
msgStart++;
-
// update the end position of the task
this.foundTaskPositions[i][1] = end;
-
// get the message source
final int messageLength = end - msgStart + 1;
char[] message = new char[messageLength];
-
System.arraycopy(source, msgStart, message, 0, messageLength);
this.foundTaskMessages[i] = message;
}
}
-
}
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