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/* -*- Mode: java; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
package org.mozilla.javascript;
import java.io.IOException;
import java.io.Reader;
import java.math.BigInteger;
/**
* This class implements the JavaScript scanner.
*
* It is based on the C source files jsscan.c and jsscan.h in the jsref package.
*
* @see org.mozilla.javascript.Parser
* @author Mike McCabe
* @author Brendan Eich
*/
class TokenStream {
/*
* For chars - because we need something out-of-range
* to check. (And checking EOF by exception is annoying.)
* Note distinction from EOF token type!
*/
private static final int EOF_CHAR = -1;
/*
* Return value for readDigits() to signal the caller has
* to return an number format problem.
*/
private static final int REPORT_NUMBER_FORMAT_ERROR = -2;
private static final char BYTE_ORDER_MARK = '\uFEFF';
private static final char NUMERIC_SEPARATOR = '_';
TokenStream(Parser parser, Reader sourceReader, String sourceString, int lineno) {
this.parser = parser;
this.lineno = lineno;
if (sourceReader != null) {
if (sourceString != null) Kit.codeBug();
this.sourceReader = sourceReader;
this.sourceBuffer = new char[512];
this.sourceEnd = 0;
} else {
if (sourceString == null) Kit.codeBug();
this.sourceString = sourceString;
this.sourceEnd = sourceString.length();
}
this.sourceCursor = this.cursor = 0;
}
/* This function uses the cached op, string and number fields in
* TokenStream; if getToken has been called since the passed token
* was scanned, the op or string printed may be incorrect.
*/
String tokenToString(int token) {
if (Token.printTrees) {
String name = Token.name(token);
switch (token) {
case Token.STRING:
case Token.REGEXP:
case Token.NAME:
return name + " `" + this.string + "'";
case Token.NUMBER:
return "NUMBER " + this.number;
case Token.BIGINT:
return "BIGINT " + this.bigInt.toString();
}
return name;
}
return "";
}
static boolean isKeyword(String s, int version, boolean isStrict) {
return Token.EOF != stringToKeyword(s, version, isStrict);
}
private static int stringToKeyword(String name, int version, boolean isStrict) {
if (version < Context.VERSION_ES6) {
return stringToKeywordForJS(name);
}
return stringToKeywordForES(name, isStrict);
}
/** JavaScript 1.8 and earlier */
private static int stringToKeywordForJS(String name) {
// The following assumes that Token.EOF == 0
final int Id_break = Token.BREAK,
Id_case = Token.CASE,
Id_continue = Token.CONTINUE,
Id_default = Token.DEFAULT,
Id_delete = Token.DELPROP,
Id_do = Token.DO,
Id_else = Token.ELSE,
Id_export = Token.RESERVED,
Id_false = Token.FALSE,
Id_for = Token.FOR,
Id_function = Token.FUNCTION,
Id_if = Token.IF,
Id_in = Token.IN,
Id_let = Token.LET, // reserved ES5 strict
Id_new = Token.NEW,
Id_null = Token.NULL,
Id_return = Token.RETURN,
Id_switch = Token.SWITCH,
Id_this = Token.THIS,
Id_true = Token.TRUE,
Id_typeof = Token.TYPEOF,
Id_var = Token.VAR,
Id_void = Token.VOID,
Id_while = Token.WHILE,
Id_with = Token.WITH,
Id_yield = Token.YIELD, // reserved ES5 strict
// the following are #ifdef RESERVE_JAVA_KEYWORDS in jsscan.c
Id_abstract = Token.RESERVED, // ES3 only
Id_boolean = Token.RESERVED, // ES3 only
Id_byte = Token.RESERVED, // ES3 only
Id_catch = Token.CATCH,
Id_char = Token.RESERVED, // ES3 only
Id_class = Token.RESERVED,
Id_const = Token.CONST, // reserved
Id_debugger = Token.DEBUGGER,
Id_double = Token.RESERVED, // ES3 only
Id_enum = Token.RESERVED,
Id_extends = Token.RESERVED,
Id_final = Token.RESERVED, // ES3 only
Id_finally = Token.FINALLY,
Id_float = Token.RESERVED, // ES3 only
Id_goto = Token.RESERVED, // ES3 only
Id_implements = Token.RESERVED, // ES3, ES5 strict
Id_import = Token.RESERVED,
Id_instanceof = Token.INSTANCEOF,
Id_int = Token.RESERVED, // ES3
Id_interface = Token.RESERVED, // ES3, ES5 strict
Id_long = Token.RESERVED, // ES3 only
Id_native = Token.RESERVED, // ES3 only
Id_package = Token.RESERVED, // ES3, ES5 strict
Id_private = Token.RESERVED, // ES3, ES5 strict
Id_protected = Token.RESERVED, // ES3, ES5 strict
Id_public = Token.RESERVED, // ES3, ES5 strict
Id_short = Token.RESERVED, // ES3 only
Id_static = Token.RESERVED, // ES3, ES5 strict
Id_super = Token.RESERVED,
Id_synchronized = Token.RESERVED, // ES3 only
Id_throw = Token.THROW,
Id_throws = Token.RESERVED, // ES3 only
Id_transient = Token.RESERVED, // ES3 only
Id_try = Token.TRY,
Id_volatile = Token.RESERVED; // ES3 only
int id;
String s = name;
switch (s) {
case "break":
id = Id_break;
break;
case "case":
id = Id_case;
break;
case "continue":
id = Id_continue;
break;
case "default":
id = Id_default;
break;
case "delete":
id = Id_delete;
break;
case "do":
id = Id_do;
break;
case "else":
id = Id_else;
break;
case "export":
id = Id_export;
break;
case "false":
id = Id_false;
break;
case "for":
id = Id_for;
break;
case "function":
id = Id_function;
break;
case "if":
id = Id_if;
break;
case "in":
id = Id_in;
break;
case "let":
id = Id_let;
break;
case "new":
id = Id_new;
break;
case "null":
id = Id_null;
break;
case "return":
id = Id_return;
break;
case "switch":
id = Id_switch;
break;
case "this":
id = Id_this;
break;
case "true":
id = Id_true;
break;
case "typeof":
id = Id_typeof;
break;
case "var":
id = Id_var;
break;
case "void":
id = Id_void;
break;
case "while":
id = Id_while;
break;
case "with":
id = Id_with;
break;
case "yield":
id = Id_yield;
break;
case "abstract":
id = Id_abstract;
break;
case "boolean":
id = Id_boolean;
break;
case "byte":
id = Id_byte;
break;
case "catch":
id = Id_catch;
break;
case "char":
id = Id_char;
break;
case "class":
id = Id_class;
break;
case "const":
id = Id_const;
break;
case "debugger":
id = Id_debugger;
break;
case "double":
id = Id_double;
break;
case "enum":
id = Id_enum;
break;
case "extends":
id = Id_extends;
break;
case "final":
id = Id_final;
break;
case "finally":
id = Id_finally;
break;
case "float":
id = Id_float;
break;
case "goto":
id = Id_goto;
break;
case "implements":
id = Id_implements;
break;
case "import":
id = Id_import;
break;
case "instanceof":
id = Id_instanceof;
break;
case "int":
id = Id_int;
break;
case "interface":
id = Id_interface;
break;
case "long":
id = Id_long;
break;
case "native":
id = Id_native;
break;
case "package":
id = Id_package;
break;
case "private":
id = Id_private;
break;
case "protected":
id = Id_protected;
break;
case "public":
id = Id_public;
break;
case "short":
id = Id_short;
break;
case "static":
id = Id_static;
break;
case "super":
id = Id_super;
break;
case "synchronized":
id = Id_synchronized;
break;
case "throw":
id = Id_throw;
break;
case "throws":
id = Id_throws;
break;
case "transient":
id = Id_transient;
break;
case "try":
id = Id_try;
break;
case "volatile":
id = Id_volatile;
break;
default:
id = 0;
break;
}
if (id == 0) {
return Token.EOF;
}
return id & 0xff;
}
/** ECMAScript 6. */
private static int stringToKeywordForES(String name, boolean isStrict) {
// The following assumes that Token.EOF == 0
final int
// 11.6.2.1 Keywords (ECMAScript2015)
Id_break = Token.BREAK,
Id_case = Token.CASE,
Id_catch = Token.CATCH,
Id_class = Token.RESERVED,
Id_const = Token.CONST,
Id_continue = Token.CONTINUE,
Id_debugger = Token.DEBUGGER,
Id_default = Token.DEFAULT,
Id_delete = Token.DELPROP,
Id_do = Token.DO,
Id_else = Token.ELSE,
Id_export = Token.RESERVED,
Id_extends = Token.RESERVED,
Id_finally = Token.FINALLY,
Id_for = Token.FOR,
Id_function = Token.FUNCTION,
Id_if = Token.IF,
Id_import = Token.RESERVED,
Id_in = Token.IN,
Id_instanceof = Token.INSTANCEOF,
Id_new = Token.NEW,
Id_return = Token.RETURN,
Id_super = Token.RESERVED,
Id_switch = Token.SWITCH,
Id_this = Token.THIS,
Id_throw = Token.THROW,
Id_try = Token.TRY,
Id_typeof = Token.TYPEOF,
Id_var = Token.VAR,
Id_void = Token.VOID,
Id_while = Token.WHILE,
Id_with = Token.WITH,
Id_yield = Token.YIELD,
// 11.6.2.2 Future Reserved Words
Id_await = Token.RESERVED,
Id_enum = Token.RESERVED,
// 11.6.2.2 NOTE Strict Future Reserved Words
Id_implements = Token.RESERVED,
Id_interface = Token.RESERVED,
Id_package = Token.RESERVED,
Id_private = Token.RESERVED,
Id_protected = Token.RESERVED,
Id_public = Token.RESERVED,
// 11.8 Literals
Id_false = Token.FALSE,
Id_null = Token.NULL,
Id_true = Token.TRUE,
// Non ReservedWord, but Non IdentifierName in strict mode code.
// 12.1.1 Static Semantics: Early Errors
Id_let = Token.LET, // TODO : Valid IdentifierName in non-strict mode.
Id_static = Token.RESERVED;
int id = 0;
String s = name;
switch (s) {
case "break":
id = Id_break;
break;
case "case":
id = Id_case;
break;
case "catch":
id = Id_catch;
break;
case "class":
id = Id_class;
break;
case "const":
id = Id_const;
break;
case "continue":
id = Id_continue;
break;
case "debugger":
id = Id_debugger;
break;
case "default":
id = Id_default;
break;
case "delete":
id = Id_delete;
break;
case "do":
id = Id_do;
break;
case "else":
id = Id_else;
break;
case "export":
id = Id_export;
break;
case "extends":
id = Id_extends;
break;
case "finally":
id = Id_finally;
break;
case "for":
id = Id_for;
break;
case "function":
id = Id_function;
break;
case "if":
id = Id_if;
break;
case "import":
id = Id_import;
break;
case "in":
id = Id_in;
break;
case "instanceof":
id = Id_instanceof;
break;
case "new":
id = Id_new;
break;
case "return":
id = Id_return;
break;
case "super":
id = Id_super;
break;
case "switch":
id = Id_switch;
break;
case "this":
id = Id_this;
break;
case "throw":
id = Id_throw;
break;
case "try":
id = Id_try;
break;
case "typeof":
id = Id_typeof;
break;
case "var":
id = Id_var;
break;
case "void":
id = Id_void;
break;
case "while":
id = Id_while;
break;
case "with":
id = Id_with;
break;
case "yield":
id = Id_yield;
break;
case "await":
id = Id_await;
break;
case "enum":
id = Id_enum;
break;
case "implements":
if (isStrict) {
id = Id_implements;
}
break;
case "interface":
if (isStrict) {
id = Id_interface;
}
break;
case "package":
if (isStrict) {
id = Id_package;
}
break;
case "private":
if (isStrict) {
id = Id_private;
}
break;
case "protected":
if (isStrict) {
id = Id_protected;
}
break;
case "public":
if (isStrict) {
id = Id_public;
}
break;
case "false":
id = Id_false;
break;
case "null":
id = Id_null;
break;
case "true":
id = Id_true;
break;
case "let":
id = Id_let;
break;
case "static":
if (isStrict) {
id = Id_static;
}
break;
default:
id = 0;
break;
}
if (id == 0) {
return Token.EOF;
}
return id & 0xff;
}
final String getSourceString() {
return sourceString;
}
final int getLineno() {
return lineno;
}
final String getString() {
return string;
}
final char getQuoteChar() {
return (char) quoteChar;
}
final double getNumber() {
return number;
}
final BigInteger getBigInt() {
return bigInt;
}
final boolean isNumericBinary() {
return isBinary;
}
final boolean isNumericOldOctal() {
return isOldOctal;
}
final boolean isNumericOctal() {
return isOctal;
}
final boolean isNumericHex() {
return isHex;
}
final boolean eof() {
return hitEOF;
}
final int getToken() throws IOException {
int c;
for (; ; ) {
// Eat whitespace, possibly sensitive to newlines.
for (; ; ) {
c = getChar();
if (c == EOF_CHAR) {
tokenBeg = cursor - 1;
tokenEnd = cursor;
return Token.EOF;
} else if (c == '\n') {
dirtyLine = false;
tokenBeg = cursor - 1;
tokenEnd = cursor;
return Token.EOL;
} else if (!isJSSpace(c)) {
if (c != '-') {
dirtyLine = true;
}
break;
}
}
// Assume the token will be 1 char - fixed up below.
tokenBeg = cursor - 1;
tokenEnd = cursor;
if (c == '@') return Token.XMLATTR;
// identifier/keyword/instanceof?
// watch out for starting with a
boolean identifierStart;
boolean isUnicodeEscapeStart = false;
if (c == '\\') {
c = getChar();
if (c == 'u') {
identifierStart = true;
isUnicodeEscapeStart = true;
stringBufferTop = 0;
} else {
identifierStart = false;
ungetChar(c);
c = '\\';
}
} else {
identifierStart = Character.isJavaIdentifierStart((char) c);
if (identifierStart) {
stringBufferTop = 0;
addToString(c);
}
}
if (identifierStart) {
boolean containsEscape = isUnicodeEscapeStart;
for (; ; ) {
if (isUnicodeEscapeStart) {
// strictly speaking we should probably push-back
// all the bad characters if the uXXXX
// sequence is malformed. But since there isn't a
// correct context(is there?) for a bad Unicode
// escape sequence in an identifier, we can report
// an error here.
int escapeVal = 0;
for (int i = 0; i != 4; ++i) {
c = getChar();
escapeVal = Kit.xDigitToInt(c, escapeVal);
// Next check takes care about c < 0 and bad escape
if (escapeVal < 0) {
break;
}
}
if (escapeVal < 0) {
parser.addError("msg.invalid.escape");
return Token.ERROR;
}
addToString(escapeVal);
isUnicodeEscapeStart = false;
} else {
c = getChar();
if (c == '\\') {
c = getChar();
if (c == 'u') {
isUnicodeEscapeStart = true;
containsEscape = true;
} else {
parser.addError("msg.illegal.character", c);
return Token.ERROR;
}
} else {
if (c == EOF_CHAR
|| c == BYTE_ORDER_MARK
|| !Character.isJavaIdentifierPart((char) c)) {
break;
}
addToString(c);
}
}
}
ungetChar(c);
String str = getStringFromBuffer();
if (!containsEscape) {
// OPT we shouldn't have to make a string (object!) to
// check if it's a keyword.
// Return the corresponding token if it's a keyword
int result =
stringToKeyword(
str,
parser.compilerEnv.getLanguageVersion(),
parser.inUseStrictDirective());
if (result != Token.EOF) {
if ((result == Token.LET || result == Token.YIELD)
&& parser.compilerEnv.getLanguageVersion() < Context.VERSION_1_7) {
// LET and YIELD are tokens only in 1.7 and later
string = result == Token.LET ? "let" : "yield";
result = Token.NAME;
}
// Save the string in case we need to use in
// object literal definitions.
this.string = (String) allStrings.intern(str);
if (result != Token.RESERVED) {
return result;
} else if (parser.compilerEnv.getLanguageVersion() >= Context.VERSION_ES6) {
return result;
} else if (!parser.compilerEnv.isReservedKeywordAsIdentifier()) {
return result;
}
}
} else if (isKeyword(
str,
parser.compilerEnv.getLanguageVersion(),
parser.inUseStrictDirective())) {
// If a string contains unicodes, and converted to a keyword,
// we convert the last character back to unicode
str = convertLastCharToHex(str);
}
this.string = (String) allStrings.intern(str);
return Token.NAME;
}
// is it a number?
if (isDigit(c) || (c == '.' && isDigit(peekChar()))) {
stringBufferTop = 0;
int base = 10;
isHex = isOldOctal = isOctal = isBinary = false;
boolean es6 = parser.compilerEnv.getLanguageVersion() >= Context.VERSION_ES6;
if (c == '0') {
c = getChar();
if (c == 'x' || c == 'X') {
base = 16;
isHex = true;
c = getChar();
} else if (es6 && (c == 'o' || c == 'O')) {
base = 8;
isOctal = true;
c = getChar();
} else if (es6 && (c == 'b' || c == 'B')) {
base = 2;
isBinary = true;
c = getChar();
} else if (isDigit(c)) {
base = 8;
isOldOctal = true;
} else {
addToString('0');
}
}
int emptyDetector = stringBufferTop;
if (base == 10 || base == 16 || (base == 8 && !isOldOctal) || base == 2) {
c = readDigits(base, c);
if (c == REPORT_NUMBER_FORMAT_ERROR) {
parser.addError("msg.caught.nfe");
return Token.ERROR;
}
} else {
while (isDigit(c)) {
// finally the oldOctal case
if (c >= '8') {
/*
* We permit 08 and 09 as decimal numbers, which
* makes our behavior a superset of the ECMA
* numeric grammar. We might not always be so
* permissive, so we warn about it.
*/
parser.addWarning("msg.bad.octal.literal", c == '8' ? "8" : "9");
base = 10;
c = readDigits(base, c);
if (c == REPORT_NUMBER_FORMAT_ERROR) {
parser.addError("msg.caught.nfe");
return Token.ERROR;
}
break;
}
addToString(c);
c = getChar();
}
}
if (stringBufferTop == emptyDetector && (isBinary || isOctal || isHex)) {
parser.addError("msg.caught.nfe");
return Token.ERROR;
}
boolean isInteger = true;
boolean isBigInt = false;
if (es6 && c == 'n') {
isBigInt = true;
c = getChar();
} else if (base == 10 && (c == '.' || c == 'e' || c == 'E')) {
isInteger = false;
if (c == '.') {
isInteger = false;
addToString(c);
c = getChar();
c = readDigits(base, c);
if (c == REPORT_NUMBER_FORMAT_ERROR) {
parser.addError("msg.caught.nfe");
return Token.ERROR;
}
}
if (c == 'e' || c == 'E') {
isInteger = false;
addToString(c);
c = getChar();
if (c == '+' || c == '-') {
addToString(c);
c = getChar();
}
if (!isDigit(c)) {
parser.addError("msg.missing.exponent");
return Token.ERROR;
}
c = readDigits(base, c);
if (c == REPORT_NUMBER_FORMAT_ERROR) {
parser.addError("msg.caught.nfe");
return Token.ERROR;
}
}
}
ungetChar(c);
String numString = getStringFromBuffer();
this.string = numString;
// try to remove the separator in a fast way
int pos = numString.indexOf(NUMERIC_SEPARATOR);
if (pos != -1) {
final char[] chars = numString.toCharArray();
for (int i = pos + 1; i < chars.length; i++) {
if (chars[i] != NUMERIC_SEPARATOR) {
chars[pos++] = chars[i];
}
}
numString = new String(chars, 0, pos);
}
if (isBigInt) {
this.bigInt = new BigInteger(numString, base);
return Token.BIGINT;
}
double dval;
if (base == 10 && !isInteger) {
try {
// Use Java conversion to number from string...
dval = Double.parseDouble(numString);
} catch (NumberFormatException ex) {
parser.addError("msg.caught.nfe");
return Token.ERROR;
}
} else {
dval = ScriptRuntime.stringPrefixToNumber(numString, 0, base);
}
this.number = dval;
return Token.NUMBER;
}
// is it a string?
if (c == '"' || c == '\'') {
// We attempt to accumulate a string the fast way, by
// building it directly out of the reader. But if there
// are any escaped characters in the string, we revert to
// building it out of a StringBuffer.
quoteChar = c;
stringBufferTop = 0;
c = getCharIgnoreLineEnd(false);
strLoop:
while (c != quoteChar) {
boolean unterminated = false;
if (c == EOF_CHAR) {
unterminated = true;
} else if (c == '\n') {
switch (lineEndChar) {
case '\n':
case '\r':
unterminated = true;
break;
case 0x2028: //
case 0x2029: //
// Line/Paragraph separators need to be included as is
c = lineEndChar;
break;
default:
break;
}
}
if (unterminated) {
ungetCharIgnoreLineEnd(c);
tokenEnd = cursor;
parser.addError("msg.unterminated.string.lit");
return Token.ERROR;
}
if (c == '\\') {
// We've hit an escaped character
int escapeVal;
c = getChar();
switch (c) {
case 'b':
c = '\b';
break;
case 'f':
c = '\f';
break;
case 'n':
c = '\n';
break;
case 'r':
c = '\r';
break;
case 't':
c = '\t';
break;
// \v a late addition to the ECMA spec,
// it is not in Java, so use 0xb
case 'v':
c = 0xb;
break;
case 'u':
// Get 4 hex digits; if the u escape is not
// followed by 4 hex digits, use 'u' + the
// literal character sequence that follows.
int escapeStart = stringBufferTop;
addToString('u');
escapeVal = 0;
for (int i = 0; i != 4; ++i) {
c = getChar();
escapeVal = Kit.xDigitToInt(c, escapeVal);
if (escapeVal < 0) {
continue strLoop;
}
addToString(c);
}
// prepare for replace of stored 'u' sequence
// by escape value
stringBufferTop = escapeStart;
c = escapeVal;
break;
case 'x':
// Get 2 hex digits, defaulting to 'x'+literal
// sequence, as above.
c = getChar();
escapeVal = Kit.xDigitToInt(c, 0);
if (escapeVal < 0) {
addToString('x');
continue strLoop;
}
int c1 = c;
c = getChar();
escapeVal = Kit.xDigitToInt(c, escapeVal);
if (escapeVal < 0) {
addToString('x');
addToString(c1);
continue strLoop;
}
// got 2 hex digits
c = escapeVal;
break;
case '\n':
// Remove line terminator after escape to follow
// SpiderMonkey and C/C++
c = getChar();
continue strLoop;
default:
if ('0' <= c && c < '8') {
int val = c - '0';
c = getChar();
if ('0' <= c && c < '8') {
val = 8 * val + c - '0';
c = getChar();
if ('0' <= c && c < '8' && val <= 037) {
// c is 3rd char of octal sequence only
// if the resulting val <= 0377
val = 8 * val + c - '0';
c = getChar();
}
}
ungetChar(c);
c = val;
}
}
}
addToString(c);
c = getChar(false);
}
String str = getStringFromBuffer();
this.string = (String) allStrings.intern(str);
return Token.STRING;
}
switch (c) {
case ';':
return Token.SEMI;
case '[':
return Token.LB;
case ']':
return Token.RB;
case '{':
return Token.LC;
case '}':
return Token.RC;
case '(':
return Token.LP;
case ')':
return Token.RP;
case ',':
return Token.COMMA;
case '?':
return Token.HOOK;
case ':':
if (matchChar(':')) {
return Token.COLONCOLON;
}
return Token.COLON;
case '.':
if (matchChar('.')) {
return Token.DOTDOT;
} else if (matchChar('(')) {
return Token.DOTQUERY;
} else {
return Token.DOT;
}
case '|':
if (matchChar('|')) {
return Token.OR;
} else if (matchChar('=')) {
return Token.ASSIGN_BITOR;
} else {
return Token.BITOR;
}
case '^':
if (matchChar('=')) {
return Token.ASSIGN_BITXOR;
}
return Token.BITXOR;
case '&':
if (matchChar('&')) {
return Token.AND;
} else if (matchChar('=')) {
return Token.ASSIGN_BITAND;
} else {
return Token.BITAND;
}
case '=':
if (matchChar('=')) {
if (matchChar('=')) {
return Token.SHEQ;
}
return Token.EQ;
} else if (matchChar('>')) {
return Token.ARROW;
} else {
return Token.ASSIGN;
}
case '!':
if (matchChar('=')) {
if (matchChar('=')) {
return Token.SHNE;
}
return Token.NE;
}
return Token.NOT;
case '<':
/* NB:treat HTML begin-comment as comment-till-eol */
if (matchChar('!')) {
if (matchChar('-')) {
if (matchChar('-')) {
tokenBeg = cursor - 4;
skipLine();
commentType = Token.CommentType.HTML;
return Token.COMMENT;
}
ungetCharIgnoreLineEnd('-');
}
ungetCharIgnoreLineEnd('!');
}
if (matchChar('<')) {
if (matchChar('=')) {
return Token.ASSIGN_LSH;
}
return Token.LSH;
}
if (matchChar('=')) {
return Token.LE;
}
return Token.LT;
case '>':
if (matchChar('>')) {
if (matchChar('>')) {
if (matchChar('=')) {
return Token.ASSIGN_URSH;
}
return Token.URSH;
}
if (matchChar('=')) {
return Token.ASSIGN_RSH;
}
return Token.RSH;
}
if (matchChar('=')) {
return Token.GE;
}
return Token.GT;
case '*':
if (parser.compilerEnv.getLanguageVersion() >= Context.VERSION_ES6) {
if (matchChar('*')) {
if (matchChar('=')) {
return Token.ASSIGN_EXP;
}
return Token.EXP;
}
}
if (matchChar('=')) {
return Token.ASSIGN_MUL;
}
return Token.MUL;
case '/':
markCommentStart();
// is it a // comment?
if (matchChar('/')) {
tokenBeg = cursor - 2;
skipLine();
commentType = Token.CommentType.LINE;
return Token.COMMENT;
}
// is it a /* or /** comment?
if (matchChar('*')) {
boolean lookForSlash = false;
tokenBeg = cursor - 2;
if (matchChar('*')) {
lookForSlash = true;
commentType = Token.CommentType.JSDOC;
} else {
commentType = Token.CommentType.BLOCK_COMMENT;
}
for (; ; ) {
c = getChar();
if (c == EOF_CHAR) {
tokenEnd = cursor - 1;
parser.addError("msg.unterminated.comment");
return Token.COMMENT;
} else if (c == '*') {
lookForSlash = true;
} else if (c == '/') {
if (lookForSlash) {
tokenEnd = cursor;
return Token.COMMENT;
}
} else {
lookForSlash = false;
tokenEnd = cursor;
}
}
}
if (matchChar('=')) {
return Token.ASSIGN_DIV;
}
return Token.DIV;
case '%':
if (matchChar('=')) {
return Token.ASSIGN_MOD;
}
return Token.MOD;
case '~':
return Token.BITNOT;
case '+':
if (matchChar('=')) {
return Token.ASSIGN_ADD;
} else if (matchChar('+')) {
return Token.INC;
} else {
return Token.ADD;
}
case '-':
if (matchChar('=')) {
c = Token.ASSIGN_SUB;
} else if (matchChar('-')) {
if (!dirtyLine) {
// treat HTML end-comment after possible whitespace
// after line start as comment-until-eol
if (matchChar('>')) {
markCommentStart("--");
skipLine();
commentType = Token.CommentType.HTML;
return Token.COMMENT;
}
}
c = Token.DEC;
} else {
c = Token.SUB;
}
dirtyLine = true;
return c;
case '`':
return Token.TEMPLATE_LITERAL;
default:
parser.addError("msg.illegal.character", c);
return Token.ERROR;
}
}
}
/*
* Helper to read the next digits according to the base
* and ignore the number separator if there is one.
*/
private int readDigits(int base, int c) throws IOException {
if (isDigit(base, c)) {
addToString(c);
c = getChar();
if (c == EOF_CHAR) {
return EOF_CHAR;
}
while (true) {
if (c == NUMERIC_SEPARATOR) {
// we do no peek here, we are optimistic for performance
// reasons and because peekChar() only does an getChar/ungetChar.
c = getChar();
// if the line ends after the separator we have
// to report this as an error
if (c == '\n' || c == EOF_CHAR) {
return REPORT_NUMBER_FORMAT_ERROR;
}
if (!isDigit(base, c)) {
// bad luck we have to roll back
ungetChar(c);
return NUMERIC_SEPARATOR;
}
addToString(NUMERIC_SEPARATOR);
} else if (isDigit(base, c)) {
addToString(c);
c = getChar();
if (c == EOF_CHAR) {
return EOF_CHAR;
}
} else {
return c;
}
}
}
return c;
}
private static boolean isAlpha(int c) {
// Use 'Z' < 'a'
if (c <= 'Z') {
return 'A' <= c;
}
return 'a' <= c && c <= 'z';
}
private static boolean isDigit(int base, int c) {
return (base == 10 && isDigit(c))
|| (base == 16 && isHexDigit(c))
|| (base == 8 && isOctalDigit(c))
|| (base == 2 && isDualDigit(c));
}
private static boolean isDualDigit(int c) {
return '0' == c || c == '1';
}
private static boolean isOctalDigit(int c) {
return '0' <= c && c <= '7';
}
private static boolean isDigit(int c) {
return '0' <= c && c <= '9';
}
private static boolean isHexDigit(int c) {
return ('0' <= c && c <= '9') || ('a' <= c && c <= 'f') || ('A' <= c && c <= 'F');
}
/* As defined in ECMA. jsscan.c uses C isspace() (which allows
* \v, I think.) note that code in getChar() implicitly accepts
* '\r' == \u000D as well.
*/
private static boolean isJSSpace(int c) {
if (c <= 127) {
return c == 0x20 || c == 0x9 || c == 0xC || c == 0xB;
}
return c == 0xA0
|| c == BYTE_ORDER_MARK
|| Character.getType((char) c) == Character.SPACE_SEPARATOR;
}
private static boolean isJSFormatChar(int c) {
return c > 127 && Character.getType((char) c) == Character.FORMAT;
}
/** Parser calls the method when it gets / or /= in literal context. */
void readRegExp(int startToken) throws IOException {
int start = tokenBeg;
stringBufferTop = 0;
if (startToken == Token.ASSIGN_DIV) {
// Miss-scanned /=
addToString('=');
} else {
if (startToken != Token.DIV) Kit.codeBug();
if (peekChar() == '*') {
tokenEnd = cursor - 1;
this.string = new String(stringBuffer, 0, stringBufferTop);
parser.reportError("msg.unterminated.re.lit");
return;
}
}
boolean inCharSet = false; // true if inside a '['..']' pair
int c;
while ((c = getChar()) != '/' || inCharSet) {
if (c == '\n' || c == EOF_CHAR) {
ungetChar(c);
tokenEnd = cursor - 1;
this.string = new String(stringBuffer, 0, stringBufferTop);
parser.reportError("msg.unterminated.re.lit");
return;
}
if (c == '\\') {
addToString(c);
c = getChar();
if (c == '\n' || c == EOF_CHAR) {
ungetChar(c);
tokenEnd = cursor - 1;
this.string = new String(stringBuffer, 0, stringBufferTop);
parser.reportError("msg.unterminated.re.lit");
return;
}
} else if (c == '[') {
inCharSet = true;
} else if (c == ']') {
inCharSet = false;
}
addToString(c);
}
int reEnd = stringBufferTop;
while (true) {
if (matchChar('g')) addToString('g');
else if (matchChar('i')) addToString('i');
else if (matchChar('m')) addToString('m');
else if (matchChar('y')) // FireFox 3
addToString('y');
else break;
}
tokenEnd = start + stringBufferTop + 2; // include slashes
if (isAlpha(peekChar())) {
parser.reportError("msg.invalid.re.flag");
}
this.string = new String(stringBuffer, 0, reEnd);
this.regExpFlags = new String(stringBuffer, reEnd, stringBufferTop - reEnd);
}
String readAndClearRegExpFlags() {
String flags = this.regExpFlags;
this.regExpFlags = null;
return flags;
}
private StringBuilder rawString = new StringBuilder();
String getRawString() {
if (rawString.length() == 0) {
return "";
}
return rawString.toString();
}
private int getTemplateLiteralChar() throws IOException {
/*
* In Template Literals and are normalized to
*
* Line and Paragraph separators ( & ) need to be included in the template strings as is
*/
int c = getCharIgnoreLineEnd(false);
if (c == '\n') {
switch (lineEndChar) {
case '\r':
// check whether dealing with a sequence
if (charAt(cursor) == '\n') {
// consume the that followed the
getCharIgnoreLineEnd(false);
}
break;
case 0x2028: //
case 0x2029: //
// Line/Paragraph separators need to be included as is
c = lineEndChar;
break;
default:
break;
}
// Adjust numbers: duplicates the logic in getChar thats skipped as getChar is called
// via getCharIgnoreLineEnd
lineEndChar = -1;
lineStart = sourceCursor - 1;
lineno++;
}
rawString.append((char) c);
return c;
}
private void ungetTemplateLiteralChar(int c) {
ungetCharIgnoreLineEnd(c);
rawString.setLength(rawString.length() - 1);
}
private boolean matchTemplateLiteralChar(int test) throws IOException {
int c = getTemplateLiteralChar();
if (c == test) {
return true;
}
ungetTemplateLiteralChar(c);
return false;
}
private int peekTemplateLiteralChar() throws IOException {
int c = getTemplateLiteralChar();
ungetTemplateLiteralChar(c);
return c;
}
int readTemplateLiteral(boolean isTaggedLiteral) throws IOException {
rawString.setLength(0);
stringBufferTop = 0;
boolean hasInvalidEscapeSequences = false;
while (true) {
int c = getTemplateLiteralChar();
switch (c) {
case EOF_CHAR:
this.string = hasInvalidEscapeSequences ? null : getStringFromBuffer();
tokenEnd = cursor - 1; // restore tokenEnd
parser.reportError("msg.unexpected.eof");
return Token.ERROR;
case '`':
rawString.setLength(rawString.length() - 1); // don't include "`"
this.string = hasInvalidEscapeSequences ? null : getStringFromBuffer();
return Token.TEMPLATE_LITERAL;
case '$':
if (matchTemplateLiteralChar('{')) {
rawString.setLength(rawString.length() - 2); // don't include "${"
this.string = hasInvalidEscapeSequences ? null : getStringFromBuffer();
this.tokenEnd = cursor - 1; // don't include "{"
return Token.TEMPLATE_LITERAL_SUBST;
} else {
addToString(c);
break;
}
case '\\':
// LineContinuation ::
// \ LineTerminatorSequence
// EscapeSequence ::
// CharacterEscapeSequence
// 0 [LA not DecimalDigit]
// HexEscapeSequence
// UnicodeEscapeSequence
// CharacterEscapeSequence ::
// SingleEscapeCharacter
// NonEscapeCharacter
// SingleEscapeCharacter ::
// ' " \ b f n r t v
// NonEscapeCharacter ::
// SourceCharacter but not one of EscapeCharacter or LineTerminator
// EscapeCharacter ::
// SingleEscapeCharacter
// DecimalDigit
// x
// u
c = getTemplateLiteralChar();
switch (c) {
case '\n':
case '\u2028':
case '\u2029':
continue;
case '\'':
case '"':
case '\\':
// use as-is
break;
case 'b':
c = '\b';
break;
case 'f':
c = '\f';
break;
case 'n':
c = '\n';
break;
case 'r':
c = '\r';
break;
case 't':
c = '\t';
break;
case 'v':
c = 0xb;
break;
case 'x':
{
int escapeVal = 0;
for (int i = 0; i < 2; i++) {
if (peekTemplateLiteralChar() == '`') {
escapeVal = -1;
break;
}
escapeVal =
Kit.xDigitToInt(getTemplateLiteralChar(), escapeVal);
}
if (escapeVal < 0) {
if (isTaggedLiteral) {
hasInvalidEscapeSequences = true;
continue;
} else {
parser.reportError("msg.syntax");
return Token.ERROR;
}
}
c = escapeVal;
break;
}
case 'u':
{
int escapeVal = 0;
if (matchTemplateLiteralChar('{')) {
for (; ; ) {
if (peekTemplateLiteralChar() == '`') {
escapeVal = -1;
break;
}
c = getTemplateLiteralChar();
if (c == '}') {
break;
}
escapeVal = Kit.xDigitToInt(c, escapeVal);
}
if (escapeVal < 0 || escapeVal > 0x10FFFF) {
if (isTaggedLiteral) {
hasInvalidEscapeSequences = true;
continue;
} else {
parser.reportError("msg.syntax");
return Token.ERROR;
}
}
if (escapeVal > 0xFFFF) {
addToString(Character.highSurrogate(escapeVal));
addToString(Character.lowSurrogate(escapeVal));
continue;
}
c = escapeVal;
break;
}
for (int i = 0; i < 4; i++) {
if (peekTemplateLiteralChar() == '`') {
escapeVal = -1;
break;
}
escapeVal =
Kit.xDigitToInt(getTemplateLiteralChar(), escapeVal);
}
if (escapeVal < 0) {
if (isTaggedLiteral) {
hasInvalidEscapeSequences = true;
continue;
} else {
parser.reportError("msg.syntax");
return Token.ERROR;
}
}
c = escapeVal;
break;
}
case '0':
{
int d = peekTemplateLiteralChar();
if (d >= '0' && d <= '9') {
if (isTaggedLiteral) {
hasInvalidEscapeSequences = true;
continue;
} else {
parser.reportError("msg.syntax");
return Token.ERROR;
}
}
c = 0x00;
break;
}
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
if (isTaggedLiteral) {
hasInvalidEscapeSequences = true;
continue;
} else {
parser.reportError("msg.syntax");
return Token.ERROR;
}
default:
// use as-is
break;
}
addToString(c);
break;
default:
addToString(c);
break;
}
}
}
boolean isXMLAttribute() {
return xmlIsAttribute;
}
int getFirstXMLToken() throws IOException {
xmlOpenTagsCount = 0;
xmlIsAttribute = false;
xmlIsTagContent = false;
if (!canUngetChar()) return Token.ERROR;
ungetChar('<');
return getNextXMLToken();
}
int getNextXMLToken() throws IOException {
tokenBeg = cursor;
stringBufferTop = 0; // remember the XML
for (int c = getChar(); c != EOF_CHAR; c = getChar()) {
if (xmlIsTagContent) {
switch (c) {
case '>':
addToString(c);
xmlIsTagContent = false;
xmlIsAttribute = false;
break;
case '/':
addToString(c);
if (peekChar() == '>') {
c = getChar();
addToString(c);
xmlIsTagContent = false;
xmlOpenTagsCount--;
}
break;
case '{':
ungetChar(c);
this.string = getStringFromBuffer();
return Token.XML;
case '\'':
case '"':
addToString(c);
if (!readQuotedString(c)) return Token.ERROR;
break;
case '=':
addToString(c);
xmlIsAttribute = true;
break;
case ' ':
case '\t':
case '\r':
case '\n':
addToString(c);
break;
default:
addToString(c);
xmlIsAttribute = false;
break;
}
if (!xmlIsTagContent && xmlOpenTagsCount == 0) {
this.string = getStringFromBuffer();
return Token.XMLEND;
}
} else {
switch (c) {
case '<':
addToString(c);
c = peekChar();
switch (c) {
case '!':
c = getChar(); // Skip !
addToString(c);
c = peekChar();
switch (c) {
case '-':
c = getChar(); // Skip -
addToString(c);
c = getChar();
if (c == '-') {
addToString(c);
if (!readXmlComment()) return Token.ERROR;
} else {
// throw away the string in progress
stringBufferTop = 0;
this.string = null;
parser.addError("msg.XML.bad.form");
return Token.ERROR;
}
break;
case '[':
c = getChar(); // Skip [
addToString(c);
if (getChar() == 'C'
&& getChar() == 'D'
&& getChar() == 'A'
&& getChar() == 'T'
&& getChar() == 'A'
&& getChar() == '[') {
addToString('C');
addToString('D');
addToString('A');
addToString('T');
addToString('A');
addToString('[');
if (!readCDATA()) return Token.ERROR;
} else {
// throw away the string in progress
stringBufferTop = 0;
this.string = null;
parser.addError("msg.XML.bad.form");
return Token.ERROR;
}
break;
default:
if (!readEntity()) return Token.ERROR;
break;
}
break;
case '?':
c = getChar(); // Skip ?
addToString(c);
if (!readPI()) return Token.ERROR;
break;
case '/':
// End tag
c = getChar(); // Skip /
addToString(c);
if (xmlOpenTagsCount == 0) {
// throw away the string in progress
stringBufferTop = 0;
this.string = null;
parser.addError("msg.XML.bad.form");
return Token.ERROR;
}
xmlIsTagContent = true;
xmlOpenTagsCount--;
break;
default:
// Start tag
xmlIsTagContent = true;
xmlOpenTagsCount++;
break;
}
break;
case '{':
ungetChar(c);
this.string = getStringFromBuffer();
return Token.XML;
default:
addToString(c);
break;
}
}
}
tokenEnd = cursor;
stringBufferTop = 0; // throw away the string in progress
this.string = null;
parser.addError("msg.XML.bad.form");
return Token.ERROR;
}
/** */
private boolean readQuotedString(int quote) throws IOException {
for (int c = getChar(); c != EOF_CHAR; c = getChar()) {
addToString(c);
if (c == quote) return true;
}
stringBufferTop = 0; // throw away the string in progress
this.string = null;
parser.addError("msg.XML.bad.form");
return false;
}
/** */
private boolean readXmlComment() throws IOException {
for (int c = getChar(); c != EOF_CHAR; ) {
addToString(c);
if (c == '-' && peekChar() == '-') {
c = getChar();
addToString(c);
if (peekChar() == '>') {
c = getChar(); // Skip >
addToString(c);
return true;
}
continue;
}
c = getChar();
}
stringBufferTop = 0; // throw away the string in progress
this.string = null;
parser.addError("msg.XML.bad.form");
return false;
}
/** */
private boolean readCDATA() throws IOException {
for (int c = getChar(); c != EOF_CHAR; ) {
addToString(c);
if (c == ']' && peekChar() == ']') {
c = getChar();
addToString(c);
if (peekChar() == '>') {
c = getChar(); // Skip >
addToString(c);
return true;
}
continue;
}
c = getChar();
}
stringBufferTop = 0; // throw away the string in progress
this.string = null;
parser.addError("msg.XML.bad.form");
return false;
}
/** */
private boolean readEntity() throws IOException {
int declTags = 1;
for (int c = getChar(); c != EOF_CHAR; c = getChar()) {
addToString(c);
switch (c) {
case '<':
declTags++;
break;
case '>':
declTags--;
if (declTags == 0) return true;
break;
}
}
stringBufferTop = 0; // throw away the string in progress
this.string = null;
parser.addError("msg.XML.bad.form");
return false;
}
/** */
private boolean readPI() throws IOException {
for (int c = getChar(); c != EOF_CHAR; c = getChar()) {
addToString(c);
if (c == '?' && peekChar() == '>') {
c = getChar(); // Skip >
addToString(c);
return true;
}
}
stringBufferTop = 0; // throw away the string in progress
this.string = null;
parser.addError("msg.XML.bad.form");
return false;
}
private String getStringFromBuffer() {
tokenEnd = cursor;
return new String(stringBuffer, 0, stringBufferTop);
}
private void addToString(int c) {
int N = stringBufferTop;
if (N == stringBuffer.length) {
char[] tmp = new char[stringBuffer.length * 2];
System.arraycopy(stringBuffer, 0, tmp, 0, N);
stringBuffer = tmp;
}
stringBuffer[N] = (char) c;
stringBufferTop = N + 1;
}
private boolean canUngetChar() {
return ungetCursor == 0 || ungetBuffer[ungetCursor - 1] != '\n';
}
private void ungetChar(int c) {
// can not unread past across line boundary
if (ungetCursor != 0 && ungetBuffer[ungetCursor - 1] == '\n') Kit.codeBug();
ungetBuffer[ungetCursor++] = c;
cursor--;
}
private boolean matchChar(int test) throws IOException {
int c = getCharIgnoreLineEnd();
if (c == test) {
tokenEnd = cursor;
return true;
}
ungetCharIgnoreLineEnd(c);
return false;
}
private int peekChar() throws IOException {
int c = getChar();
ungetChar(c);
return c;
}
private int getChar() throws IOException {
return getChar(true, false);
}
private int getChar(boolean skipFormattingChars) throws IOException {
return getChar(skipFormattingChars, false);
}
private int getChar(boolean skipFormattingChars, boolean ignoreLineEnd) throws IOException {
if (ungetCursor != 0) {
cursor++;
return ungetBuffer[--ungetCursor];
}
for (; ; ) {
int c;
if (sourceString != null) {
if (sourceCursor == sourceEnd) {
hitEOF = true;
return EOF_CHAR;
}
cursor++;
c = sourceString.charAt(sourceCursor++);
} else {
if (sourceCursor == sourceEnd) {
if (!fillSourceBuffer()) {
hitEOF = true;
return EOF_CHAR;
}
}
cursor++;
c = sourceBuffer[sourceCursor++];
}
if (!ignoreLineEnd && lineEndChar >= 0) {
if (lineEndChar == '\r' && c == '\n') {
lineEndChar = '\n';
continue;
}
lineEndChar = -1;
lineStart = sourceCursor - 1;
lineno++;
}
if (c <= 127) {
if (c == '\n' || c == '\r') {
lineEndChar = c;
c = '\n';
}
} else {
if (c == BYTE_ORDER_MARK) return c; // BOM is considered whitespace
if (skipFormattingChars && isJSFormatChar(c)) {
continue;
}
if (ScriptRuntime.isJSLineTerminator(c)) {
lineEndChar = c;
c = '\n';
}
}
return c;
}
}
private int getCharIgnoreLineEnd() throws IOException {
return getChar(true, true);
}
private int getCharIgnoreLineEnd(boolean skipFormattingChars) throws IOException {
return getChar(skipFormattingChars, true);
}
private void ungetCharIgnoreLineEnd(int c) {
ungetBuffer[ungetCursor++] = c;
cursor--;
}
private void skipLine() throws IOException {
// skip to end of line
int c;
while ((c = getChar()) != EOF_CHAR && c != '\n') {}
ungetChar(c);
tokenEnd = cursor;
}
/** Returns the offset into the current line. */
final int getOffset() {
int n = sourceCursor - lineStart;
if (lineEndChar >= 0) {
--n;
}
return n;
}
private final int charAt(int index) {
if (index < 0) {
return EOF_CHAR;
}
if (sourceString != null) {
if (index >= sourceEnd) {
return EOF_CHAR;
}
return sourceString.charAt(index);
}
if (index >= sourceEnd) {
int oldSourceCursor = sourceCursor;
try {
if (!fillSourceBuffer()) {
return EOF_CHAR;
}
} catch (IOException ioe) {
// ignore it, we're already displaying an error...
return EOF_CHAR;
}
// index recalculuation as fillSourceBuffer can move saved
// line buffer and change sourceCursor
index -= (oldSourceCursor - sourceCursor);
}
return sourceBuffer[index];
}
private final String substring(int beginIndex, int endIndex) {
if (sourceString != null) {
return sourceString.substring(beginIndex, endIndex);
}
int count = endIndex - beginIndex;
return new String(sourceBuffer, beginIndex, count);
}
final String getLine() {
int lineEnd = sourceCursor;
if (lineEndChar >= 0) {
// move cursor before newline sequence
lineEnd -= 1;
if (lineEndChar == '\n' && charAt(lineEnd - 1) == '\r') {
lineEnd -= 1;
}
} else {
// Read until the end of line
int lineLength = lineEnd - lineStart;
for (; ; ++lineLength) {
int c = charAt(lineStart + lineLength);
if (c == EOF_CHAR || ScriptRuntime.isJSLineTerminator(c)) {
break;
}
}
lineEnd = lineStart + lineLength;
}
return substring(lineStart, lineEnd);
}
final String getLine(int position, int[] linep) {
assert position >= 0 && position <= cursor;
assert linep.length == 2;
int delta = (cursor + ungetCursor) - position;
int cur = sourceCursor;
if (delta > cur) {
// requested line outside of source buffer
return null;
}
// read back until position
int end = 0, lines = 0;
for (; delta > 0; --delta, --cur) {
assert cur > 0;
int c = charAt(cur - 1);
if (ScriptRuntime.isJSLineTerminator(c)) {
if (c == '\n' && charAt(cur - 2) == '\r') {
// \r\n sequence
delta -= 1;
cur -= 1;
}
lines += 1;
end = cur - 1;
}
}
// read back until line start
int start = 0, offset = 0;
for (; cur > 0; --cur, ++offset) {
int c = charAt(cur - 1);
if (ScriptRuntime.isJSLineTerminator(c)) {
start = cur;
break;
}
}
linep[0] = lineno - lines + (lineEndChar >= 0 ? 1 : 0);
linep[1] = offset;
if (lines == 0) {
return getLine();
}
return substring(start, end);
}
private boolean fillSourceBuffer() throws IOException {
if (sourceString != null) Kit.codeBug();
if (sourceEnd == sourceBuffer.length) {
if (lineStart != 0 && !isMarkingComment()) {
System.arraycopy(sourceBuffer, lineStart, sourceBuffer, 0, sourceEnd - lineStart);
sourceEnd -= lineStart;
sourceCursor -= lineStart;
lineStart = 0;
} else {
char[] tmp = new char[sourceBuffer.length * 2];
System.arraycopy(sourceBuffer, 0, tmp, 0, sourceEnd);
sourceBuffer = tmp;
}
}
int n = sourceReader.read(sourceBuffer, sourceEnd, sourceBuffer.length - sourceEnd);
if (n < 0) {
return false;
}
sourceEnd += n;
return true;
}
/** Return the current position of the scanner cursor. */
public int getCursor() {
return cursor;
}
/** Return the absolute source offset of the last scanned token. */
public int getTokenBeg() {
return tokenBeg;
}
/** Return the absolute source end-offset of the last scanned token. */
public int getTokenEnd() {
return tokenEnd;
}
/** Return tokenEnd - tokenBeg */
public int getTokenLength() {
return tokenEnd - tokenBeg;
}
/**
* Return the type of the last scanned comment.
*
* @return type of last scanned comment, or 0 if none have been scanned.
*/
public Token.CommentType getCommentType() {
return commentType;
}
private void markCommentStart() {
markCommentStart("");
}
private void markCommentStart(String prefix) {
if (parser.compilerEnv.isRecordingComments() && sourceReader != null) {
commentPrefix = prefix;
commentCursor = sourceCursor - 1;
}
}
private boolean isMarkingComment() {
return commentCursor != -1;
}
final String getAndResetCurrentComment() {
if (sourceString != null) {
if (isMarkingComment()) Kit.codeBug();
return sourceString.substring(tokenBeg, tokenEnd);
}
if (!isMarkingComment()) Kit.codeBug();
StringBuilder comment = new StringBuilder(commentPrefix);
comment.append(sourceBuffer, commentCursor, getTokenLength() - commentPrefix.length());
commentCursor = -1;
return comment.toString();
}
private static String convertLastCharToHex(String str) {
int lastIndex = str.length() - 1;
StringBuilder buf = new StringBuilder(str.substring(0, lastIndex));
buf.append("\\u");
String hexCode = Integer.toHexString(str.charAt(lastIndex));
for (int i = 0; i < 4 - hexCode.length(); ++i) {
buf.append('0');
}
buf.append(hexCode);
return buf.toString();
}
// stuff other than whitespace since start of line
private boolean dirtyLine;
String regExpFlags;
// Set this to an initial non-null value so that the Parser has
// something to retrieve even if an error has occurred and no
// string is found. Fosters one class of error, but saves lots of
// code.
private String string = "";
private double number;
private BigInteger bigInt;
private boolean isBinary;
private boolean isOldOctal;
private boolean isOctal;
private boolean isHex;
// delimiter for last string literal scanned
private int quoteChar;
private char[] stringBuffer = new char[128];
private int stringBufferTop;
private ObjToIntMap allStrings = new ObjToIntMap(50);
// Room to backtrace from to < on failed match of the last - in