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Rhino is an open-source implementation of JavaScript written entirely in Java. It is typically embedded into Java applications to provide scripting to end users.

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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; switch (name) { 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; switch (name) { 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; } private static boolean isValidIdentifierName(String str) { int i = 0; for (int c : str.codePoints().toArray()) { if (i++ == 0) { if (c != '$' && c != '_' && !Character.isUnicodeIdentifierStart(c)) { return false; } } else { if (c != '$' && c != '\u200c' && c != '\u200d' && !Character.isUnicodeIdentifierPart(c)) { return false; } } } return true; } 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.isUnicodeIdentifierStart(c) || c == '$' || c == '_'; if (identifierStart) { stringBufferTop = 0; addToString(c); } } if (identifierStart) { boolean containsEscape = isUnicodeEscapeStart; for (; ; ) { if (isUnicodeEscapeStart) { // strictly speaking we should probably push-back // all the bad characters if the uXXXX // sequence is malformed. But since there isn't a // correct context(is there?) for a bad Unicode // escape sequence in an identifier, we can report // an error here. int escapeVal = 0; if (matchTemplateLiteralChar('{')) { for (; ; ) { c = getTemplateLiteralChar(); if (c == '}') { break; } escapeVal = Kit.xDigitToInt(c, escapeVal); if (escapeVal < 0) { break; } } if (escapeVal < 0 || escapeVal > 0x10FFFF) { parser.reportError("msg.invalid.escape"); break; } } else { for (int i = 0; i != 4; ++i) { c = getChar(); escapeVal = Kit.xDigitToInt(c, escapeVal); // Next check takes care about c < 0 and bad escape if (escapeVal < 0) { parser.reportError("msg.invalid.escape"); break; } } } if (escapeVal < 0) { parser.addError("msg.invalid.escape"); return Token.ERROR; } addToString(escapeVal); isUnicodeEscapeStart = false; } else { c = getChar(); if (c == '\\') { c = getChar(); if (c == 'u') { isUnicodeEscapeStart = true; containsEscape = true; } else { parser.addError("msg.illegal.character", c); return Token.ERROR; } } else { if (c == EOF_CHAR || c == BYTE_ORDER_MARK || !(Character.isUnicodeIdentifierPart(c) || c == '$')) { break; } addToString(c); } } } ungetChar(c); String str = getStringFromBuffer(); if (!containsEscape || parser.compilerEnv.getLanguageVersion() >= Context.VERSION_ES6) { // 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); } if (containsEscape && parser.compilerEnv.getLanguageVersion() >= Context.VERSION_ES6 && !isValidIdentifierName(str)) { parser.reportError("msg.invalid.escape"); return Token.ERROR; } 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; if (matchChar('{')) { for (; ; ) { c = getChar(); if (c == '}') { addToString(c); break; } escapeVal = Kit.xDigitToInt(c, escapeVal); if (escapeVal < 0) { break; } addToString(c); } if (escapeVal < 0 || escapeVal > 0x10FFFF) { parser.reportError("msg.invalid.escape"); continue strLoop; } } else { for (int i = 0; i != 4; ++i) { c = getChar(); escapeVal = Kit.xDigitToInt(c, escapeVal); if (escapeVal < 0) { if (parser.compilerEnv.getLanguageVersion() >= Context.VERSION_ES6) { parser.reportError("msg.invalid.escape"); } 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; } if (c == '#' && cursor == 1 && peekChar() == '!' && !this.parser.calledByCompileFunction) { // #! hashbang: only on the first line of a Script, no leading whitespace skipLine(); return Token.COMMENT; } 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('.')) { if (parser.compilerEnv.getLanguageVersion() >= Context.VERSION_1_8 && matchChar('.')) { return Token.DOTDOTDOT; } 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('s')) addToString('s'); else if (matchChar('y')) addToString('y'); else break; } tokenEnd = start + stringBufferTop + 2; // include slashes if (isAlpha(peekChar())) { parser.reportError( "msg.invalid.re.flag", String.valueOf(Character.toChars(peekChar()))); } 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 == EOF_CHAR) { parser.reportError("msg.syntax"); return Token.ERROR; } 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; int codePointLen = Character.charCount(c); if (N + codePointLen >= stringBuffer.length) { char[] tmp = new char[stringBuffer.length * 2]; System.arraycopy(stringBuffer, 0, tmp, 0, N); stringBuffer = tmp; } if (codePointLen == 1) { stringBuffer[N] = (char) c; } else { stringBuffer[N] = Character.highSurrogate(c); stringBuffer[N + 1] = Character.lowSurrogate(c); } stringBufferTop = N + codePointLen; } 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.codePointAt(sourceCursor); sourceCursor += Character.charCount(c); } 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