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/* -*- Mode: java; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
*
* The contents of this file are subject to the Netscape Public
* License Version 1.1 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.mozilla.org/NPL/
*
* Software distributed under the License is distributed on an "AS
* IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
* implied. See the License for the specific language governing
* rights and limitations under the License.
*
* The Original Code is Rhino code, released
* May 6, 1999.
*
* The Initial Developer of the Original Code is Netscape
* Communications Corporation. Portions created by Netscape are
* Copyright (C) 1997-1999 Netscape Communications Corporation. All
* Rights Reserved.
*
* Contributor(s):
* Roger Lawrence
* Mike McCabe
*
* Alternatively, the contents of this file may be used under the
* terms of the GNU Public License (the "GPL"), in which case the
* provisions of the GPL are applicable instead of those above.
* If you wish to allow use of your version of this file only
* under the terms of the GPL and not to allow others to use your
* version of this file under the NPL, indicate your decision by
* deleting the provisions above and replace them with the notice
* and other provisions required by the GPL. If you do not delete
* the provisions above, a recipient may use your version of this
* file under either the NPL or the GPL.
*/
// Modified by Google
package com.google.gwt.dev.js.rhino;
import java.io.*;
import java.util.HashMap;
import java.util.Map;
/**
* This class implements the JavaScript scanner.
*
* It is based on the C source files jsscan.c and jsscan.h
* in the jsref package.
*/
public class TokenStream {
private static final Map KEYWORDS = new HashMap();
/*
* JSTokenStream flags, mirroring those in jsscan.h. These are used
* by the parser to change/check the state of the scanner.
*/
final static int
TSF_NEWLINES = 1 << 0, // tokenize newlines
TSF_FUNCTION = 1 << 1, // scanning inside function body
TSF_RETURN_EXPR = 1 << 2, // function has 'return expr;'
TSF_RETURN_VOID = 1 << 3, // function has 'return;'
TSF_REGEXP = 1 << 4, // looking for a regular expression
TSF_DIRTYLINE = 1 << 5; // stuff other than whitespace since
// start of line
/*
* 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 final static int
EOF_CHAR = -1;
/**
* Token types. These values correspond to JSTokenType values in
* jsscan.c.
*/
public final static int
// start enum
ERROR = -1, // well-known as the only code < EOF
EOF = 0, // end of file token - (not EOF_CHAR)
EOL = 1, // end of line
// Beginning here are interpreter bytecodes. Their values
// must not exceed 127.
POPV = 2,
ENTERWITH = 3,
LEAVEWITH = 4,
RETURN = 5,
GOTO = 6,
IFEQ = 7,
IFNE = 8,
DUP = 9,
SETNAME = 10,
BITOR = 11,
BITXOR = 12,
BITAND = 13,
EQ = 14,
NE = 15,
LT = 16,
LE = 17,
GT = 18,
GE = 19,
LSH = 20,
RSH = 21,
URSH = 22,
ADD = 23,
SUB = 24,
MUL = 25,
DIV = 26,
MOD = 27,
BITNOT = 28,
NEG = 29,
NEW = 30,
DELPROP = 31,
TYPEOF = 32,
NAMEINC = 33,
PROPINC = 34,
ELEMINC = 35,
NAMEDEC = 36,
PROPDEC = 37,
ELEMDEC = 38,
GETPROP = 39,
SETPROP = 40,
GETELEM = 41,
SETELEM = 42,
CALL = 43,
NAME = 44,
NUMBER = 45,
STRING = 46,
ZERO = 47,
ONE = 48,
NULL = 49,
THIS = 50,
FALSE = 51,
TRUE = 52,
SHEQ = 53, // shallow equality (===)
SHNE = 54, // shallow inequality (!==)
CLOSURE = 55,
REGEXP = 56,
POP = 57,
POS = 58,
VARINC = 59,
VARDEC = 60,
BINDNAME = 61,
THROW = 62,
IN = 63,
INSTANCEOF = 64,
GOSUB = 65,
RETSUB = 66,
CALLSPECIAL = 67,
GETTHIS = 68,
NEWTEMP = 69,
USETEMP = 70,
GETBASE = 71,
GETVAR = 72,
SETVAR = 73,
UNDEFINED = 74,
TRY = 75,
ENDTRY = 76,
NEWSCOPE = 77,
TYPEOFNAME = 78,
ENUMINIT = 79,
ENUMNEXT = 80,
GETPROTO = 81,
GETPARENT = 82,
SETPROTO = 83,
SETPARENT = 84,
SCOPE = 85,
GETSCOPEPARENT = 86,
THISFN = 87,
JTHROW = 88,
// End of interpreter bytecodes
SEMI = 89, // semicolon
LB = 90, // left and right brackets
RB = 91,
LC = 92, // left and right curlies (braces)
RC = 93,
LP = 94, // left and right parentheses
GWT = 95,
COMMA = 96, // comma operator
ASSIGN = 97, // assignment ops (= += -= etc.)
HOOK = 98, // conditional (?:)
COLON = 99,
OR = 100, // logical or (||)
AND = 101, // logical and (&&)
EQOP = 102, // equality ops (== !=)
RELOP = 103, // relational ops (< <= > >=)
SHOP = 104, // shift ops (<< >> >>>)
UNARYOP = 105, // unary prefix operator
INC = 106, // increment/decrement (++ --)
DEC = 107,
DOT = 108, // member operator (.)
PRIMARY = 109, // true, false, null, this
FUNCTION = 110, // function keyword
EXPORT = 111, // export keyword
IMPORT = 112, // import keyword
IF = 113, // if keyword
ELSE = 114, // else keyword
SWITCH = 115, // switch keyword
CASE = 116, // case keyword
DEFAULT = 117, // default keyword
WHILE = 118, // while keyword
DO = 119, // do keyword
FOR = 120, // for keyword
BREAK = 121, // break keyword
CONTINUE = 122, // continue keyword
VAR = 123, // var keyword
WITH = 124, // with keyword
CATCH = 125, // catch keyword
FINALLY = 126, // finally keyword
/** Added by Mike - these are JSOPs in the jsref, but I
* don't have them yet in the java implementation...
* so they go here. Also whatever I needed.
* Most of these go in the 'op' field when returning
* more general token types, eg. 'DIV' as the op of 'ASSIGN'.
*/
NOP = 128, // NOP
NOT = 129, // etc.
PRE = 130, // for INC, DEC nodes.
POST = 131,
/**
* For JSOPs associated with keywords...
* eg. op = THIS; token = PRIMARY
*/
VOID = 132,
/* types used for the parse tree - these never get returned
* by the scanner.
*/
BLOCK = 133, // statement block
ARRAYLIT = 134, // array literal
OBJLIT = 135, // object literal
LABEL = 136, // label
TARGET = 137,
LOOP = 138,
ENUMDONE = 139,
EXPRSTMT = 140,
PARENT = 141,
CONVERT = 142,
JSR = 143,
NEWLOCAL = 144,
USELOCAL = 145,
DEBUGGER = 146,
SCRIPT = 147, // top-level node for entire script
LAST_TOKEN = 147,
NUMBER_INT = 148,
GENERATOR = 149,
YIELD = 150,
// This value is only used as a return value for getTokenHelper,
// which is only called from getToken and exists to avoid an excessive
// recursion problem if a number of lines in a row are comments.
RETRY_TOKEN = 65535;
// end enum
public static String tokenToName(int token) {
if (Context.printTrees || Context.printICode) {
switch (token) {
case ERROR: return "error";
case EOF: return "eof";
case EOL: return "eol";
case POPV: return "popv";
case ENTERWITH: return "enterwith";
case LEAVEWITH: return "leavewith";
case RETURN: return "return";
case GOTO: return "goto";
case IFEQ: return "ifeq";
case IFNE: return "ifne";
case DUP: return "dup";
case SETNAME: return "setname";
case BITOR: return "bitor";
case BITXOR: return "bitxor";
case BITAND: return "bitand";
case EQ: return "eq";
case NE: return "ne";
case LT: return "lt";
case LE: return "le";
case GT: return "gt";
case GE: return "ge";
case LSH: return "lsh";
case RSH: return "rsh";
case URSH: return "ursh";
case ADD: return "add";
case SUB: return "sub";
case MUL: return "mul";
case DIV: return "div";
case MOD: return "mod";
case BITNOT: return "bitnot";
case NEG: return "neg";
case NEW: return "new";
case DELPROP: return "delprop";
case TYPEOF: return "typeof";
case NAMEINC: return "nameinc";
case PROPINC: return "propinc";
case ELEMINC: return "eleminc";
case NAMEDEC: return "namedec";
case PROPDEC: return "propdec";
case ELEMDEC: return "elemdec";
case GETPROP: return "getprop";
case SETPROP: return "setprop";
case GETELEM: return "getelem";
case SETELEM: return "setelem";
case CALL: return "call";
case NAME: return "name";
case NUMBER_INT: return "integer";
case NUMBER: return "double";
case STRING: return "string";
case ZERO: return "zero";
case ONE: return "one";
case NULL: return "null";
case THIS: return "this";
case FALSE: return "false";
case TRUE: return "true";
case SHEQ: return "sheq";
case SHNE: return "shne";
case CLOSURE: return "closure";
case REGEXP: return "object";
case POP: return "pop";
case POS: return "pos";
case VARINC: return "varinc";
case VARDEC: return "vardec";
case BINDNAME: return "bindname";
case THROW: return "throw";
case IN: return "in";
case INSTANCEOF: return "instanceof";
case GOSUB: return "gosub";
case RETSUB: return "retsub";
case CALLSPECIAL: return "callspecial";
case GETTHIS: return "getthis";
case NEWTEMP: return "newtemp";
case USETEMP: return "usetemp";
case GETBASE: return "getbase";
case GETVAR: return "getvar";
case SETVAR: return "setvar";
case UNDEFINED: return "undefined";
case TRY: return "try";
case ENDTRY: return "endtry";
case NEWSCOPE: return "newscope";
case TYPEOFNAME: return "typeofname";
case ENUMINIT: return "enuminit";
case ENUMNEXT: return "enumnext";
case GETPROTO: return "getproto";
case GETPARENT: return "getparent";
case SETPROTO: return "setproto";
case SETPARENT: return "setparent";
case SCOPE: return "scope";
case GETSCOPEPARENT: return "getscopeparent";
case THISFN: return "thisfn";
case JTHROW: return "jthrow";
case SEMI: return "semi";
case LB: return "lb";
case RB: return "rb";
case LC: return "lc";
case RC: return "rc";
case LP: return "lp";
case GWT: return "gwt";
case COMMA: return "comma";
case ASSIGN: return "assign";
case HOOK: return "hook";
case COLON: return "colon";
case OR: return "or";
case AND: return "and";
case EQOP: return "eqop";
case RELOP: return "relop";
case SHOP: return "shop";
case UNARYOP: return "unaryop";
case INC: return "inc";
case DEC: return "dec";
case DOT: return "dot";
case PRIMARY: return "primary";
case FUNCTION: return "function";
case EXPORT: return "export";
case IMPORT: return "import";
case IF: return "if";
case ELSE: return "else";
case SWITCH: return "switch";
case CASE: return "case";
case DEFAULT: return "default";
case WHILE: return "while";
case DO: return "do";
case FOR: return "for";
case BREAK: return "break";
case CONTINUE: return "continue";
case YIELD: return "yield";
case VAR: return "var";
case WITH: return "with";
case CATCH: return "catch";
case FINALLY: return "finally";
case NOP: return "nop";
case NOT: return "not";
case PRE: return "pre";
case POST: return "post";
case VOID: return "void";
case BLOCK: return "block";
case ARRAYLIT: return "arraylit";
case OBJLIT: return "objlit";
case LABEL: return "label";
case TARGET: return "target";
case LOOP: return "loop";
case ENUMDONE: return "enumdone";
case EXPRSTMT: return "exprstmt";
case PARENT: return "parent";
case CONVERT: return "convert";
case JSR: return "jsr";
case NEWLOCAL: return "newlocal";
case USELOCAL: return "uselocal";
case SCRIPT: return "script";
}
return "";
}
return "";
}
/* 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.
*/
public String tokenToString(int token) {
if (Context.printTrees) {
String name = tokenToName(token);
switch (token) {
case UNARYOP:
case ASSIGN:
case PRIMARY:
case EQOP:
case SHOP:
case RELOP:
return name + " " + tokenToName(this.op);
case STRING:
case REGEXP:
case NAME:
return name + " `" + this.string + "'";
case NUMBER_INT:
return "NUMBER_INT " + (int) this.number;
case NUMBER:
return "NUMBER " + this.number;
}
return name;
}
return "";
}
static {
KEYWORDS.put("break", BREAK);
KEYWORDS.put("case", CASE);
KEYWORDS.put("continue", CONTINUE);
KEYWORDS.put("yield", YIELD);
KEYWORDS.put("default", DEFAULT);
KEYWORDS.put("delete", DELPROP);
KEYWORDS.put("do", DO);
KEYWORDS.put("else", ELSE);
KEYWORDS.put("export", EXPORT);
KEYWORDS.put("false", PRIMARY | (FALSE << 8));
KEYWORDS.put("for", FOR);
KEYWORDS.put("function", FUNCTION);
KEYWORDS.put("if", IF);
KEYWORDS.put("in", RELOP | (IN << 8));
KEYWORDS.put("new", NEW);
KEYWORDS.put("null", PRIMARY | (NULL << 8));
KEYWORDS.put("return", RETURN);
KEYWORDS.put("switch", SWITCH);
KEYWORDS.put("this", PRIMARY | (THIS << 8));
KEYWORDS.put("true", PRIMARY | (TRUE << 8));
KEYWORDS.put("typeof", UNARYOP | (TYPEOF << 8));
KEYWORDS.put("var", VAR);
KEYWORDS.put("void", UNARYOP | (VOID << 8));
KEYWORDS.put("while", WHILE);
KEYWORDS.put("with", WITH);
KEYWORDS.put("catch", CATCH);
KEYWORDS.put("debugger", DEBUGGER);
KEYWORDS.put("finally", FINALLY);
KEYWORDS.put("import", IMPORT);
KEYWORDS.put("instanceof", RELOP | (INSTANCEOF << 8));
KEYWORDS.put("throw", THROW);
KEYWORDS.put("try", TRY);
}
private int stringToKeyword(String name) {
Integer id = KEYWORDS.get(name);
if (id == null) return EOF;
this.op = id >> 8;
return id & 0xff;
}
public TokenStream(Reader in,
String sourceName, CodePosition position)
{
this.in = new LineBuffer(in, position);
this.pushbackToken = EOF;
this.sourceName = sourceName;
flags = 0;
secondToLastPosition = position;
lastPosition = position;
tokenPosition = position;
lastTokenPosition = position;
}
/* return and pop the token from the stream if it matches...
* otherwise return null
*/
public boolean matchToken(int toMatch) throws IOException {
int token = getToken();
if (token == toMatch)
return true;
// didn't match, push back token
ungetToken(token);
return false;
}
public void ungetToken(int tt) {
if (this.pushbackToken != EOF && tt != ERROR) {
String message = Context.getMessage2("msg.token.replaces.pushback",
tokenToString(tt), tokenToString(this.pushbackToken));
throw new RuntimeException(message);
}
this.pushbackToken = tt;
lastPosition = secondToLastPosition;
lastTokenPosition = tokenPosition;
tokenno--;
}
public int peekToken() throws IOException {
return peekTokenHelper(getToken());
}
private int peekTokenHelper(int token) throws IOException {
this.pushbackToken = token;
lastPosition = secondToLastPosition;
lastTokenPosition = tokenPosition;
tokenno--;
return token;
}
public int peekTokenSameLine() throws IOException {
int result;
flags |= TSF_NEWLINES; // SCAN_NEWLINES from jsscan.h
result = peekToken();
flags &= ~TSF_NEWLINES; // HIDE_NEWLINES from jsscan.h
if (this.pushbackToken == EOL)
this.pushbackToken = EOF;
return result;
}
private static boolean isAlpha(int c) {
return ((c >= 'a' && c <= 'z')
|| (c >= 'A' && c <= 'Z'));
}
static boolean isDigit(int c) {
return (c >= '0' && c <= '9');
}
static int xDigitToInt(int c) {
if ('0' <= c && c <= '9') { return c - '0'; }
if ('a' <= c && c <= 'f') { return c - ('a' - 10); }
if ('A' <= c && c <= 'F') { return c - ('A' - 10); }
return -1;
}
/* As defined in ECMA. jsscan.c uses C isspace() (which allows
* \v, I think.) note that code in in.read() implicitly accepts
* '\r' == \u000D as well.
*/
public static boolean isJSSpace(int c) {
return (c == '\u0020' || c == '\u0009'
|| c == '\u000C' || c == '\u000B'
|| c == '\u00A0'
|| Character.getType((char)c) == Character.SPACE_SEPARATOR);
}
private void skipLine() throws IOException {
// skip to end of line
int c;
while ((c = in.read()) != EOF_CHAR && c != '\n') { }
in.unread();
}
public void collectCommentsAfter() throws IOException {
ungetToken(getToken());
}
public int getToken() throws IOException {
lastTokenPosition = tokenPosition;
int c;
do {
c = getTokenHelper();
} while (c == RETRY_TOKEN);
updatePosition();
return c;
}
private int getTokenHelper() throws IOException {
int c;
tokenno++;
// Check for pushed-back token
if (this.pushbackToken != EOF) {
int result = this.pushbackToken;
this.pushbackToken = EOF;
return result;
}
// Eat whitespace, possibly sensitive to newlines.
do {
c = in.read();
if (c == '\n') {
flags &= ~TSF_DIRTYLINE;
if ((flags & TSF_NEWLINES) != 0)
break;
}
} while (isJSSpace(c) || c == '\n');
tokenPosition = new CodePosition(in.getLineno(), in.getColumnno() - 1);
if (c == EOF_CHAR)
return EOF;
if (c != '-' && c != '\n')
flags |= TSF_DIRTYLINE;
// identifier/keyword/instanceof?
// watch out for starting with a
boolean identifierStart;
boolean isUnicodeEscapeStart = false;
if (c == '\\') {
c = in.read();
if (c == 'u') {
identifierStart = true;
isUnicodeEscapeStart = true;
stringBufferTop = 0;
} else {
identifierStart = false;
c = '\\';
in.unread();
}
} else {
identifierStart = Character.isJavaIdentifierStart((char)c);
if (identifierStart) {
stringBufferTop = 0;
addToString(c);
}
// bruce: special handling of JSNI signatures
// - it would be nice to handle Unicode escapes in the future
//
if (c == '@') {
stringBufferTop = 0;
addToString(c);
return jsniMatchReference();
}
}
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 = in.read();
escapeVal = (escapeVal << 4) | xDigitToInt(c);
// Next check takes care about c < 0 and bad escape
if (escapeVal < 0) { break; }
}
if (escapeVal < 0) {
reportTokenError("msg.invalid.escape", null);
return ERROR;
}
addToString(escapeVal);
isUnicodeEscapeStart = false;
} else {
c = in.read();
if (c == '\\') {
c = in.read();
if (c == 'u') {
isUnicodeEscapeStart = true;
containsEscape = true;
} else {
reportTokenError("msg.illegal.character", null);
return ERROR;
}
} else {
if (!Character.isJavaIdentifierPart((char)c)) {
break;
}
addToString(c);
}
}
}
in.unread();
String str = getStringFromBuffer();
if (!containsEscape && !treatKeywordAsIdentifier) {
// 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);
if (result != EOF) {
return result;
}
}
this.string = str;
return NAME;
}
// is it a number?
if (isDigit(c) || (c == '.' && isDigit(in.peek()))) {
stringBufferTop = 0;
int base = 10;
if (c == '0') {
c = in.read();
if (c == 'x' || c == 'X') {
base = 16;
c = in.read();
} else if (isDigit(c)) {
base = 8;
} else {
addToString('0');
}
}
if (base == 16) {
while (0 <= xDigitToInt(c)) {
addToString(c);
c = in.read();
}
} else {
while ('0' <= c && c <= '9') {
/*
* 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.
*/
if (base == 8 && c >= '8') {
Object[] errArgs = { c == '8' ? "8" : "9" };
reportTokenWarning("msg.bad.octal.literal", errArgs);
base = 10;
}
addToString(c);
c = in.read();
}
}
boolean isInteger = true;
if (base == 10 && (c == '.' || c == 'e' || c == 'E')) {
isInteger = false;
if (c == '.') {
do {
addToString(c);
c = in.read();
} while (isDigit(c));
}
if (c == 'e' || c == 'E') {
addToString(c);
c = in.read();
if (c == '+' || c == '-') {
addToString(c);
c = in.read();
}
if (!isDigit(c)) {
reportTokenError("msg.missing.exponent", null);
return ERROR;
}
do {
addToString(c);
c = in.read();
} while (isDigit(c));
}
}
in.unread();
String numString = getStringFromBuffer();
double dval;
if (base == 10 && !isInteger) {
try {
// Use Java conversion to number from string...
dval = (Double.valueOf(numString)).doubleValue();
}
catch (NumberFormatException ex) {
Object[] errArgs = { ex.getMessage() };
reportTokenError("msg.caught.nfe", errArgs);
return ERROR;
}
} else {
dval = ScriptRuntime.stringToNumber(numString, 0, base);
}
this.number = dval;
if (isInteger) {
return NUMBER_INT;
}
return 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.
int quoteChar = c;
int val = 0;
stringBufferTop = 0;
c = in.read();
strLoop: while (c != quoteChar) {
if (c == '\n' || c == EOF_CHAR) {
in.unread();
reportTokenError("msg.unterminated.string.lit", null);
return ERROR;
}
if (c == '\\') {
// We've hit an escaped character
c = in.read();
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');
int escapeVal = 0;
for (int i = 0; i != 4; ++i) {
c = in.read();
escapeVal = (escapeVal << 4) | xDigitToInt(c);
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 = in.read();
int escapeVal = xDigitToInt(c);
if (escapeVal < 0) {
addToString('x');
continue strLoop;
} else {
int c1 = c;
c = in.read();
escapeVal = (escapeVal << 4) | xDigitToInt(c);
if (escapeVal < 0) {
addToString('x');
addToString(c1);
continue strLoop;
} else {
// got 2 hex digits
c = escapeVal;
}
}
} break;
case '\n':
// Remove line terminator
c = in.read();
continue strLoop;
default: if ('0' <= c && c < '8') {
val = c - '0';
c = in.read();
if ('0' <= c && c < '8') {
val = 8 * val + c - '0';
c = in.read();
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 = in.read();
}
}
in.unread();
c = val;
}
}
}
addToString(c);
c = in.read();
}
this.string = getStringFromBuffer();
return STRING;
}
switch (c)
{
case '\n': return EOL;
case ';': return SEMI;
case '[': return LB;
case ']': return RB;
case '{': return LC;
case '}': return RC;
case '(': return LP;
case ')': return GWT;
case ',': return COMMA;
case '?': return HOOK;
case ':': return COLON;
case '.': return DOT;
case '|':
if (in.match('|')) {
return OR;
} else if (in.match('=')) {
this.op = BITOR;
return ASSIGN;
} else {
return BITOR;
}
case '^':
if (in.match('=')) {
this.op = BITXOR;
return ASSIGN;
} else {
return BITXOR;
}
case '&':
if (in.match('&')) {
return AND;
} else if (in.match('=')) {
this.op = BITAND;
return ASSIGN;
} else {
return BITAND;
}
case '=':
if (in.match('=')) {
if (in.match('='))
this.op = SHEQ;
else
this.op = EQ;
return EQOP;
} else {
this.op = NOP;
return ASSIGN;
}
case '!':
if (in.match('=')) {
if (in.match('='))
this.op = SHNE;
else
this.op = NE;
return EQOP;
} else {
this.op = NOT;
return UNARYOP;
}
case '<':
/* NB:treat HTML begin-comment as comment-till-eol */
if (in.match('!')) {
if (in.match('-')) {
if (in.match('-')) {
skipLine();
return RETRY_TOKEN; // in place of 'goto retry'
}
in.unread();
}
in.unread();
}
if (in.match('<')) {
if (in.match('=')) {
this.op = LSH;
return ASSIGN;
} else {
this.op = LSH;
return SHOP;
}
} else {
if (in.match('=')) {
this.op = LE;
return RELOP;
} else {
this.op = LT;
return RELOP;
}
}
case '>':
if (in.match('>')) {
if (in.match('>')) {
if (in.match('=')) {
this.op = URSH;
return ASSIGN;
} else {
this.op = URSH;
return SHOP;
}
} else {
if (in.match('=')) {
this.op = RSH;
return ASSIGN;
} else {
this.op = RSH;
return SHOP;
}
}
} else {
if (in.match('=')) {
this.op = GE;
return RELOP;
} else {
this.op = GT;
return RELOP;
}
}
case '*':
if (in.match('=')) {
this.op = MUL;
return ASSIGN;
} else {
return MUL;
}
case '/':
// is it a // comment?
if (in.match('/')) {
stringBufferTop = 0;
while ((c = in.read()) != -1 && c != '\n') {
addToString(c);
}
addCommentToQueue(new Comment(getStringFromBuffer(), false));
return RETRY_TOKEN;
}
if (in.match('*')) {
stringBufferTop = 0;
while ((c = in.read()) != -1 &&
!(c == '*' && in.match('/'))) {
addToString(c);
}
if (c == EOF_CHAR) {
reportTokenError("msg.unterminated.comment", null);
return ERROR;
}
addCommentToQueue(new Comment(getStringFromBuffer(), true));
return RETRY_TOKEN; // `goto retry'
}
// is it a regexp?
if ((flags & TSF_REGEXP) != 0) {
stringBufferTop = 0;
while ((c = in.read()) != '/') {
if (c == '\n' || c == EOF_CHAR) {
in.unread();
reportTokenError("msg.unterminated.re.lit", null);
return ERROR;
}
if (c == '\\') {
addToString(c);
c = in.read();
}
addToString(c);
}
int reEnd = stringBufferTop;
while (true) {
if (in.match('g'))
addToString('g');
else if (in.match('i'))
addToString('i');
else if (in.match('m'))
addToString('m');
else
break;
}
if (isAlpha(in.peek())) {
reportTokenError("msg.invalid.re.flag", null);
return ERROR;
}
this.string = new String(stringBuffer, 0, reEnd);
this.regExpFlags = new String(stringBuffer, reEnd,
stringBufferTop - reEnd);
return REGEXP;
}
if (in.match('=')) {
this.op = DIV;
return ASSIGN;
} else {
return DIV;
}
case '%':
this.op = MOD;
if (in.match('=')) {
return ASSIGN;
} else {
return MOD;
}
case '~':
this.op = BITNOT;
return UNARYOP;
case '+':
if (in.match('=')) {
this.op = ADD;
return ASSIGN;
} else if (in.match('+')) {
return INC;
} else {
return ADD;
}
case '-':
if (in.match('=')) {
this.op = SUB;
c = ASSIGN;
} else if (in.match('-')) {
if (0 == (flags & TSF_DIRTYLINE)) {
// treat HTML end-comment after possible whitespace
// after line start as comment-utill-eol
if (in.match('>')) {
skipLine();
return RETRY_TOKEN;
}
}
c = DEC;
} else {
c = SUB;
}
flags |= TSF_DIRTYLINE;
return c;
default:
reportTokenError("msg.illegal.character", null);
return ERROR;
}
}
private void skipWhitespace() throws IOException {
int tmp;
do {
tmp = in.read();
} while (isJSSpace(tmp) || tmp == '\n');
// Reposition back to first non whitespace char.
in.unread();
}
private int jsniMatchReference() throws IOException {
// First, read the type name whose member is being accessed.
if (!jsniMatchQualifiedTypeName('.', ':')) {
return ERROR;
}
// Now we must the second colon.
//
int c = in.read();
if (c != ':') {
in.unread();
reportTokenError("msg.jsni.expected.char", new String[] {":"});
return ERROR;
}
addToString(c);
// Skip whitespace starting after ::.
skipWhitespace();
// Finish by reading the field or method signature.
if (!jsniMatchMethodSignatureOrFieldName()) {
return ERROR;
}
this.string = new String(stringBuffer, 0, stringBufferTop);
return NAME;
}
private boolean jsniMatchParamListSignature() throws IOException {
// Assume the opening '(' has already been read.
// Read param type signatures until we see a closing ')'.
skipWhitespace();
// First check for the special case of * as the parameter list, indicating
// a wildcard
if (in.peek() == '*') {
addToString(in.read());
if (in.peek() != ')') {
reportTokenError("msg.jsni.expected.char", new String[] {")"});
}
addToString(in.read());
return true;
}
// Otherwise, loop through reading one param type at a time
do {
// Skip whitespace between parameters.
skipWhitespace();
int c = in.read();
if (c == ')') {
// Finished successfully.
//
addToString(c);
return true;
}
in.unread();
} while (jsniMatchParamTypeSignature());
// If we made it here, we can assume that there was an invalid type
// signature that was already reported and that the offending char
// was already unread.
//
return false;
}
private boolean jsniMatchParamTypeSignature() throws IOException {
int c = in.read();
switch (c) {
case 'Z':
case 'B':
case 'C':
case 'S':
case 'I':
case 'J':
case 'F':
case 'D':
// Primitive type id.
addToString(c);
return true;
case 'L':
// Class/Interface type prefix.
addToString(c);
return jsniMatchQualifiedTypeName('/', ';');
case '[':
// Array type prefix.
addToString(c);
return jsniMatchParamArrayTypeSignature();
default:
in.unread();
reportTokenError("msg.jsni.expected.param.type", null);
return false;
}
}
private boolean jsniMatchParamArrayTypeSignature() throws IOException {
// Assume the leading '[' has already been read.
// What follows must be another param type signature.
//
return jsniMatchParamTypeSignature();
}
private boolean jsniMatchMethodSignatureOrFieldName() throws IOException {
int c = in.read();
// We must see an ident start here.
//
if (!Character.isJavaIdentifierStart((char)c)) {
in.unread();
reportTokenError("msg.jsni.expected.identifier", null);
return false;
}
addToString(c);
for (;;) {
c = in.read();
if (Character.isJavaIdentifierPart((char)c)) {
addToString(c);
}
else if (c == '(') {
// This means we're starting a JSNI method signature.
//
addToString(c);
if (jsniMatchParamListSignature()) {
// Finished a method signature with success.
// Assume the callee unread the last char.
//
return true;
}
else {
// Assume the callee reported the error and unread the last char.
//
return false;
}
}
else {
// We don't know this char, so it finishes the token.
//
in.unread();
return true;
}
}
}
/**
* This method is called to match the fully-qualified type name that
* should appear after the '@' in a JSNI reference.
* @param sepChar the character that will separate the Java idents
* (either a '.' or '/')
* @param endChar the character that indicates the end of the
*/
private boolean jsniMatchQualifiedTypeName(char sepChar, char endChar)
throws IOException {
int c = in.read();
// Whether nested or not, we must see an ident start here.
//
if (!Character.isJavaIdentifierStart((char)c)) {
in.unread();
reportTokenError("msg.jsni.expected.identifier", null);
return false;
}
// Now actually add the first ident char.
//
addToString(c);
// And append any other ident chars.
//
for (;;) {
c = in.read();
if (Character.isJavaIdentifierPart((char)c)) {
addToString(c);
}
else {
break;
}
}
// Arrray-type reference
while (c == '[') {
if (']' == in.peek()) {
addToString('[');
addToString(in.read());
c = in.read();
} else {
break;
}
}
// We have a non-ident char to classify.
//
if (c == sepChar) {
addToString(c);
if (jsniMatchQualifiedTypeName(sepChar, endChar)) {
// We consumed up to the endChar, so we finished with total success.
//
return true;
} else {
// Assume that the nested call reported the syntax error and
// unread the last character.
//
return false;
}
} else if (c == endChar) {
// Matched everything up to the specified end char.
//
addToString(c);
return true;
} else {
// This is an unknown char that finishes the token.
//
in.unread();
return true;
}
}
private String getStringFromBuffer() {
return new String(stringBuffer, 0, stringBufferTop);
}
private void addToString(int c) {
if (stringBufferTop == stringBuffer.length) {
char[] tmp = new char[stringBuffer.length * 2];
System.arraycopy(stringBuffer, 0, tmp, 0, stringBufferTop);
stringBuffer = tmp;
}
stringBuffer[stringBufferTop++] = (char)c;
}
/**
* Positions hold offset of an corresponding token's end.
* So lastPosition holds an offset of char that is next to last token.
*
* Use secondToLastPosition for error reporting outside of TokenStream, because
* usually we want to report beginning of erroneous token,
* which is end of second to last read token.
*/
public void reportSyntaxError(String messageProperty, Object[] args) {
String message = Context.getMessage(messageProperty, args);
Context.reportError(message, secondToLastPosition, lastPosition);
}
/**
* Token errors are reported before tokes is read,
* so use lastPosition for reporting.
* @see #reportSyntaxError
*/
private void reportTokenError(String messageProperty, Object[] args) {
String message = Context.getMessage(messageProperty, args);
Context.reportError(message, lastPosition, new CodePosition(getLineno(), getOffset()));
}
private void reportTokenWarning(String messageProperty, Object[] args) {
String message = Context.getMessage(messageProperty, args);
Context.reportWarning(message, lastPosition, new CodePosition(getLineno(), getOffset()));
}
/**
* Updates last two known positions (for error reporting).
*/
private void updatePosition() {
CodePosition currentPosition = new CodePosition(getLineno(), getOffset());
if (currentPosition.compareTo(lastPosition) > 0) {
secondToLastPosition = lastPosition;
lastPosition = currentPosition;
}
}
private void addCommentToQueue(Comment comment) {
if (headComment == null) {
headComment = comment;
lastComment = comment;
}
else {
lastComment.setNext(comment);
lastComment = comment;
}
}
public String getSourceName() { return sourceName; }
public int getLineno() { return in.getLineno(); }
public int getOp() { return op; }
public String getString() { return string; }
public double getNumber() { return number; }
public String getLine() { return in.getLine(); }
public int getOffset() { return in.getOffset(); }
public int getTokenno() { return tokenno; }
public boolean eof() { return in.eof(); }
public Comment getHeadComment() {
return headComment;
}
public void releaseComments() {
headComment = null;
lastComment = null;
}
// instance variables
private LineBuffer in;
/* for TSF_REGEXP, etc.
* should this be manipulated by gettor/settor functions?
* should it be passed to getToken();
*/
int flags;
String regExpFlags;
private String sourceName;
private int pushbackToken;
private int tokenno;
CodePosition secondToLastPosition;
CodePosition lastPosition;
CodePosition tokenPosition;
CodePosition lastTokenPosition;
private Comment headComment;
private Comment lastComment;
private int op;
public boolean treatKeywordAsIdentifier;
// 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 char[] stringBuffer = new char[128];
private int stringBufferTop;
}