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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: set ts=8 sts=4 et sw=4 tw=99:
* 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/. */
// JS lexical scanner.
#include "frontend/TokenStream.h"
#include "mozilla/IntegerTypeTraits.h"
#include "mozilla/PodOperations.h"
#include <ctype.h>
#include <stdarg.h>
#include <stdio.h>
#include <string.h>
#include "jsatom.h"
#include "jscntxt.h"
#include "jscompartment.h"
#include "jsexn.h"
#include "jsnum.h"
#include "frontend/BytecodeCompiler.h"
#include "js/CharacterEncoding.h"
#include "js/UniquePtr.h"
#include "vm/HelperThreads.h"
#include "vm/Keywords.h"
#include "vm/StringBuffer.h"
#include "vm/Unicode.h"
using namespace js;
using namespace js::frontend;
using mozilla::Maybe;
using mozilla::PodAssign;
using mozilla::PodCopy;
using mozilla::PodZero;
struct KeywordInfo {
const char* chars; // C string with keyword text
TokenKind tokentype;
};
static const KeywordInfo keywords[] = {
#define KEYWORD_INFO(keyword, name, type) \
{js_##keyword##_str, type},
FOR_EACH_JAVASCRIPT_KEYWORD(KEYWORD_INFO)
#undef KEYWORD_INFO
};
// Returns a KeywordInfo for the specified characters, or nullptr if the string
// is not a keyword.
template <typename CharT>
static const KeywordInfo*
FindKeyword(const CharT* s, size_t length)
{
MOZ_ASSERT(length != 0);
size_t i;
const KeywordInfo* kw;
const char* chars;
#define JSKW_LENGTH() length
#define JSKW_AT(column) s[column]
#define JSKW_GOT_MATCH(index) i = (index); goto got_match;
#define JSKW_TEST_GUESS(index) i = (index); goto test_guess;
#define JSKW_NO_MATCH() goto no_match;
#include "jsautokw.h"
#undef JSKW_NO_MATCH
#undef JSKW_TEST_GUESS
#undef JSKW_GOT_MATCH
#undef JSKW_AT
#undef JSKW_LENGTH
got_match:
return &keywords[i];
test_guess:
kw = &keywords[i];
chars = kw->chars;
do {
if (*s++ != (unsigned char)(*chars++))
goto no_match;
} while (--length != 0);
return kw;
no_match:
return nullptr;
}
static const KeywordInfo*
FindKeyword(JSLinearString* str)
{
JS::AutoCheckCannotGC nogc;
return str->hasLatin1Chars()
? FindKeyword(str->latin1Chars(nogc), str->length())
: FindKeyword(str->twoByteChars(nogc), str->length());
}
template <typename CharT>
static bool
IsIdentifier(const CharT* chars, size_t length)
{
if (length == 0)
return false;
if (!unicode::IsIdentifierStart(char16_t(*chars)))
return false;
const CharT* end = chars + length;
while (++chars != end) {
if (!unicode::IsIdentifierPart(char16_t(*chars)))
return false;
}
return true;
}
static uint32_t
GetSingleCodePoint(const char16_t** p, const char16_t* end)
{
uint32_t codePoint;
if (MOZ_UNLIKELY(unicode::IsLeadSurrogate(**p)) && *p + 1 < end) {
char16_t lead = **p;
char16_t maybeTrail = *(*p + 1);
if (unicode::IsTrailSurrogate(maybeTrail)) {
*p += 2;
return unicode::UTF16Decode(lead, maybeTrail);
}
}
codePoint = **p;
(*p)++;
return codePoint;
}
static bool
IsIdentifierMaybeNonBMP(const char16_t* chars, size_t length)
{
if (IsIdentifier(chars, length))
return true;
if (length == 0)
return false;
const char16_t* p = chars;
const char16_t* end = chars + length;
uint32_t codePoint;
codePoint = GetSingleCodePoint(&p, end);
if (!unicode::IsIdentifierStart(codePoint))
return false;
while (p < end) {
codePoint = GetSingleCodePoint(&p, end);
if (!unicode::IsIdentifierPart(codePoint))
return false;
}
return true;
}
bool
frontend::IsIdentifier(JSLinearString* str)
{
JS::AutoCheckCannotGC nogc;
return str->hasLatin1Chars()
? ::IsIdentifier(str->latin1Chars(nogc), str->length())
: ::IsIdentifierMaybeNonBMP(str->twoByteChars(nogc), str->length());
}
bool
frontend::IsIdentifier(const char* chars, size_t length)
{
return ::IsIdentifier(chars, length);
}
bool
frontend::IsIdentifier(const char16_t* chars, size_t length)
{
return ::IsIdentifier(chars, length);
}
bool
frontend::IsKeyword(JSLinearString* str)
{
return FindKeyword(str) != nullptr;
}
TokenStream::SourceCoords::SourceCoords(ExclusiveContext* cx, uint32_t ln)
: lineStartOffsets_(cx), initialLineNum_(ln), lastLineIndex_(0)
{
// This is actually necessary! Removing it causes compile errors on
// GCC and clang. You could try declaring this:
//
// const uint32_t TokenStream::SourceCoords::MAX_PTR;
//
// which fixes the GCC/clang error, but causes bustage on Windows. Sigh.
//
uint32_t maxPtr = MAX_PTR;
// The first line begins at buffer offset 0. MAX_PTR is the sentinel. The
// appends cannot fail because |lineStartOffsets_| has statically-allocated
// elements.
MOZ_ASSERT(lineStartOffsets_.capacity() >= 2);
MOZ_ALWAYS_TRUE(lineStartOffsets_.reserve(2));
lineStartOffsets_.infallibleAppend(0);
lineStartOffsets_.infallibleAppend(maxPtr);
}
MOZ_ALWAYS_INLINE bool
TokenStream::SourceCoords::add(uint32_t lineNum, uint32_t lineStartOffset)
{
uint32_t lineIndex = lineNumToIndex(lineNum);
uint32_t sentinelIndex = lineStartOffsets_.length() - 1;
MOZ_ASSERT(lineStartOffsets_[0] == 0 && lineStartOffsets_[sentinelIndex] == MAX_PTR);
if (lineIndex == sentinelIndex) {
// We haven't seen this newline before. Update lineStartOffsets_
// only if lineStartOffsets_.append succeeds, to keep sentinel.
// Otherwise return false to tell TokenStream about OOM.
uint32_t maxPtr = MAX_PTR;
if (!lineStartOffsets_.append(maxPtr))
return false;
lineStartOffsets_[lineIndex] = lineStartOffset;
} else {
// We have seen this newline before (and ungot it). Do nothing (other
// than checking it hasn't mysteriously changed).
// This path can be executed after hitting OOM, so check lineIndex.
MOZ_ASSERT_IF(lineIndex < sentinelIndex, lineStartOffsets_[lineIndex] == lineStartOffset);
}
return true;
}
MOZ_ALWAYS_INLINE bool
TokenStream::SourceCoords::fill(const TokenStream::SourceCoords& other)
{
MOZ_ASSERT(lineStartOffsets_.back() == MAX_PTR);
MOZ_ASSERT(other.lineStartOffsets_.back() == MAX_PTR);
if (lineStartOffsets_.length() >= other.lineStartOffsets_.length())
return true;
uint32_t sentinelIndex = lineStartOffsets_.length() - 1;
lineStartOffsets_[sentinelIndex] = other.lineStartOffsets_[sentinelIndex];
for (size_t i = sentinelIndex + 1; i < other.lineStartOffsets_.length(); i++) {
if (!lineStartOffsets_.append(other.lineStartOffsets_[i]))
return false;
}
return true;
}
MOZ_ALWAYS_INLINE uint32_t
TokenStream::SourceCoords::lineIndexOf(uint32_t offset) const
{
uint32_t iMin, iMax, iMid;
if (lineStartOffsets_[lastLineIndex_] <= offset) {
// If we reach here, offset is on a line the same as or higher than
// last time. Check first for the +0, +1, +2 cases, because they
// typically cover 85--98% of cases.
if (offset < lineStartOffsets_[lastLineIndex_ + 1])
return lastLineIndex_; // lineIndex is same as last time
// If we reach here, there must be at least one more entry (plus the
// sentinel). Try it.
lastLineIndex_++;
if (offset < lineStartOffsets_[lastLineIndex_ + 1])
return lastLineIndex_; // lineIndex is one higher than last time
// The same logic applies here.
lastLineIndex_++;
if (offset < lineStartOffsets_[lastLineIndex_ + 1]) {
return lastLineIndex_; // lineIndex is two higher than last time
}
// No luck. Oh well, we have a better-than-default starting point for
// the binary search.
iMin = lastLineIndex_ + 1;
MOZ_ASSERT(iMin < lineStartOffsets_.length() - 1); // -1 due to the sentinel
} else {
iMin = 0;
}
// This is a binary search with deferred detection of equality, which was
// marginally faster in this case than a standard binary search.
// The -2 is because |lineStartOffsets_.length() - 1| is the sentinel, and we
// want one before that.
iMax = lineStartOffsets_.length() - 2;
while (iMax > iMin) {
iMid = iMin + (iMax - iMin) / 2;
if (offset >= lineStartOffsets_[iMid + 1])
iMin = iMid + 1; // offset is above lineStartOffsets_[iMid]
else
iMax = iMid; // offset is below or within lineStartOffsets_[iMid]
}
MOZ_ASSERT(iMax == iMin);
MOZ_ASSERT(lineStartOffsets_[iMin] <= offset && offset < lineStartOffsets_[iMin + 1]);
lastLineIndex_ = iMin;
return iMin;
}
uint32_t
TokenStream::SourceCoords::lineNum(uint32_t offset) const
{
uint32_t lineIndex = lineIndexOf(offset);
return lineIndexToNum(lineIndex);
}
uint32_t
TokenStream::SourceCoords::columnIndex(uint32_t offset) const
{
uint32_t lineIndex = lineIndexOf(offset);
uint32_t lineStartOffset = lineStartOffsets_[lineIndex];
MOZ_ASSERT(offset >= lineStartOffset);
return offset - lineStartOffset;
}
void
TokenStream::SourceCoords::lineNumAndColumnIndex(uint32_t offset, uint32_t* lineNum,
uint32_t* columnIndex) const
{
uint32_t lineIndex = lineIndexOf(offset);
*lineNum = lineIndexToNum(lineIndex);
uint32_t lineStartOffset = lineStartOffsets_[lineIndex];
MOZ_ASSERT(offset >= lineStartOffset);
*columnIndex = offset - lineStartOffset;
}
#ifdef _MSC_VER
#pragma warning(push)
#pragma warning(disable:4351)
#endif
TokenStream::TokenStream(ExclusiveContext* cx, const ReadOnlyCompileOptions& options,
const char16_t* base, size_t length, StrictModeGetter* smg)
: srcCoords(cx, options.lineno),
options_(options),
tokens(),
cursor(),
lookahead(),
lineno(options.lineno),
flags(),
linebase(0),
prevLinebase(size_t(-1)),
userbuf(cx, base, length, options.column),
filename(options.filename()),
displayURL_(nullptr),
sourceMapURL_(nullptr),
tokenbuf(cx),
cx(cx),
mutedErrors(options.mutedErrors()),
strictModeGetter(smg)
{
// Nb: the following tables could be static, but initializing them here is
// much easier. Don't worry, the time to initialize them for each
// TokenStream is trivial. See bug 639420.
// See Parser::assignExpr() for an explanation of isExprEnding[].
memset(isExprEnding, 0, sizeof(isExprEnding));
isExprEnding[TOK_COMMA] = 1;
isExprEnding[TOK_SEMI] = 1;
isExprEnding[TOK_COLON] = 1;
isExprEnding[TOK_RP] = 1;
isExprEnding[TOK_RB] = 1;
isExprEnding[TOK_RC] = 1;
}
#ifdef _MSC_VER
#pragma warning(pop)
#endif
bool
TokenStream::checkOptions()
{
// Constrain starting columns to half of the range of a signed 32-bit value,
// to avoid overflow.
if (options().column >= mozilla::MaxValue<int32_t>::value / 2 + 1) {
reportErrorNoOffset(JSMSG_BAD_COLUMN_NUMBER);
return false;
}
return true;
}
TokenStream::~TokenStream()
{
}
// Use the fastest available getc.
#if defined(HAVE_GETC_UNLOCKED)
# define fast_getc getc_unlocked
#elif defined(HAVE__GETC_NOLOCK)
# define fast_getc _getc_nolock
#else
# define fast_getc getc
#endif
MOZ_ALWAYS_INLINE void
TokenStream::updateLineInfoForEOL()
{
prevLinebase = linebase;
linebase = userbuf.offset();
lineno++;
if (!srcCoords.add(lineno, linebase))
flags.hitOOM = true;
}
MOZ_ALWAYS_INLINE void
TokenStream::updateFlagsForEOL()
{
flags.isDirtyLine = false;
}
// This gets the next char, normalizing all EOL sequences to '\n' as it goes.
int32_t
TokenStream::getChar()
{
int32_t c;
if (MOZ_LIKELY(userbuf.hasRawChars())) {
c = userbuf.getRawChar();
// Normalize the char16_t if it was a newline.
if (MOZ_UNLIKELY(c == '\n'))
goto eol;
if (MOZ_UNLIKELY(c == '\r')) {
// If it's a \r\n sequence: treat as a single EOL, skip over the \n.
if (MOZ_LIKELY(userbuf.hasRawChars()))
userbuf.matchRawChar('\n');
goto eol;
}
if (MOZ_UNLIKELY(c == LINE_SEPARATOR || c == PARA_SEPARATOR))
goto eol;
return c;
}
flags.isEOF = true;
return EOF;
eol:
updateLineInfoForEOL();
return '\n';
}
// This gets the next char. It does nothing special with EOL sequences, not
// even updating the line counters. It can be used safely if (a) the
// resulting char is guaranteed to be ungotten (by ungetCharIgnoreEOL()) if
// it's an EOL, and (b) the line-related state (lineno, linebase) is not used
// before it's ungotten.
int32_t
TokenStream::getCharIgnoreEOL()
{
if (MOZ_LIKELY(userbuf.hasRawChars()))
return userbuf.getRawChar();
flags.isEOF = true;
return EOF;
}
void
TokenStream::ungetChar(int32_t c)
{
if (c == EOF)
return;
MOZ_ASSERT(!userbuf.atStart());
userbuf.ungetRawChar();
if (c == '\n') {
#ifdef DEBUG
int32_t c2 = userbuf.peekRawChar();
MOZ_ASSERT(TokenBuf::isRawEOLChar(c2));
#endif
// If it's a \r\n sequence, also unget the \r.
if (!userbuf.atStart())
userbuf.matchRawCharBackwards('\r');
MOZ_ASSERT(prevLinebase != size_t(-1)); // we should never get more than one EOL char
linebase = prevLinebase;
prevLinebase = size_t(-1);
lineno--;
} else {
MOZ_ASSERT(userbuf.peekRawChar() == c);
}
}
void
TokenStream::ungetCharIgnoreEOL(int32_t c)
{
if (c == EOF)
return;
MOZ_ASSERT(!userbuf.atStart());
userbuf.ungetRawChar();
}
// Return true iff |n| raw characters can be read from this without reading past
// EOF or a newline, and copy those characters into |cp| if so. The characters
// are not consumed: use skipChars(n) to do so after checking that the consumed
// characters had appropriate values.
bool
TokenStream::peekChars(int n, char16_t* cp)
{
int i, j;
int32_t c;
for (i = 0; i < n; i++) {
c = getCharIgnoreEOL();
if (c == EOF)
break;
if (c == '\n') {
ungetCharIgnoreEOL(c);
break;
}
cp[i] = char16_t(c);
}
for (j = i - 1; j >= 0; j--)
ungetCharIgnoreEOL(cp[j]);
return i == n;
}
size_t
TokenStream::TokenBuf::findEOLMax(size_t start, size_t max)
{
const char16_t* p = rawCharPtrAt(start);
size_t n = 0;
while (true) {
if (p >= limit_)
break;
if (n >= max)
break;
n++;
if (TokenBuf::isRawEOLChar(*p++))
break;
}
return start + n;
}
bool
TokenStream::advance(size_t position)
{
const char16_t* end = userbuf.rawCharPtrAt(position);
while (userbuf.addressOfNextRawChar() < end)
getChar();
Token* cur = &tokens[cursor];
cur->pos.begin = userbuf.offset();
MOZ_MAKE_MEM_UNDEFINED(&cur->type, sizeof(cur->type));
lookahead = 0;
if (flags.hitOOM)
return reportError(JSMSG_OUT_OF_MEMORY);
return true;
}
void
TokenStream::tell(Position* pos)
{
pos->buf = userbuf.addressOfNextRawChar(/* allowPoisoned = */ true);
pos->flags = flags;
pos->lineno = lineno;
pos->linebase = linebase;
pos->prevLinebase = prevLinebase;
pos->lookahead = lookahead;
pos->currentToken = currentToken();
for (unsigned i = 0; i < lookahead; i++)
pos->lookaheadTokens[i] = tokens[(cursor + 1 + i) & ntokensMask];
}
void
TokenStream::seek(const Position& pos)
{
userbuf.setAddressOfNextRawChar(pos.buf, /* allowPoisoned = */ true);
flags = pos.flags;
lineno = pos.lineno;
linebase = pos.linebase;
prevLinebase = pos.prevLinebase;
lookahead = pos.lookahead;
tokens[cursor] = pos.currentToken;
for (unsigned i = 0; i < lookahead; i++)
tokens[(cursor + 1 + i) & ntokensMask] = pos.lookaheadTokens[i];
}
bool
TokenStream::seek(const Position& pos, const TokenStream& other)
{
if (!srcCoords.fill(other.srcCoords))
return false;
seek(pos);
return true;
}
bool
TokenStream::reportStrictModeErrorNumberVA(uint32_t offset, bool strictMode, unsigned errorNumber,
va_list args)
{
// In strict mode code, this is an error, not merely a warning.
unsigned flags;
if (strictMode)
flags = JSREPORT_ERROR;
else if (options().extraWarningsOption)
flags = JSREPORT_WARNING | JSREPORT_STRICT;
else
return true;
return reportCompileErrorNumberVA(offset, flags, errorNumber, args);
}
void
CompileError::throwError(JSContext* cx)
{
if (JSREPORT_IS_WARNING(flags)) {
CallWarningReporter(cx, this);
return;
}
// If there's a runtime exception type associated with this error
// number, set that as the pending exception. For errors occuring at
// compile time, this is very likely to be a JSEXN_SYNTAXERR.
//
// If an exception is thrown but not caught, the JSREPORT_EXCEPTION
// flag will be set in report.flags. Proper behavior for an error
// reporter is to ignore a report with this flag for all but top-level
// compilation errors. The exception will remain pending, and so long
// as the non-top-level "load", "eval", or "compile" native function
// returns false, the top-level reporter will eventually receive the
// uncaught exception report.
ErrorToException(cx, this, nullptr, nullptr);
}
bool
TokenStream::reportCompileErrorNumberVA(uint32_t offset, unsigned flags, unsigned errorNumber,
va_list args)
{
bool warning = JSREPORT_IS_WARNING(flags);
if (warning && options().werrorOption) {
flags &= ~JSREPORT_WARNING;
warning = false;
}
// On the main thread, report the error immediately. When compiling off
// thread, save the error so that the main thread can report it later.
CompileError tempErr;
CompileError* tempErrPtr = &tempErr;
if (!cx->isJSContext() && !cx->addPendingCompileError(&tempErrPtr))
return false;
CompileError& err = *tempErrPtr;
err.flags = flags;
err.errorNumber = errorNumber;
err.filename = filename;
err.isMuted = mutedErrors;
if (offset == NoOffset) {
err.lineno = 0;
err.column = 0;
} else {
err.lineno = srcCoords.lineNum(offset);
err.column = srcCoords.columnIndex(offset);
}
// If we have no location information, try to get one from the caller.
bool callerFilename = false;
if (offset != NoOffset && !err.filename && cx->isJSContext()) {
NonBuiltinFrameIter iter(cx->asJSContext(),
FrameIter::FOLLOW_DEBUGGER_EVAL_PREV_LINK,
cx->compartment()->principals());
if (!iter.done() && iter.filename()) {
callerFilename = true;
err.filename = iter.filename();
err.lineno = iter.computeLine(&err.column);
}
}
if (!ExpandErrorArgumentsVA(cx, GetErrorMessage, nullptr, errorNumber,
nullptr, ArgumentsAreLatin1, &err, args))
{
return false;
}
// Given a token, T, that we want to complain about: if T's (starting)
// lineno doesn't match TokenStream's lineno, that means we've scanned past
// the line that T starts on, which makes it hard to print some or all of
// T's (starting) line for context.
//
// So we don't even try, leaving report.linebuf and friends zeroed. This
// means that any error involving a multi-line token (e.g. an unterminated
// multi-line string literal) won't have a context printed.
if (offset != NoOffset && err.lineno == lineno && !callerFilename) {
// We show only a portion (a "window") of the line around the erroneous
// token -- the first char in the token, plus |windowRadius| chars
// before it and |windowRadius - 1| chars after it. This is because
// lines can be very long and printing the whole line is (a) not that
// helpful, and (b) can waste a lot of memory. See bug 634444.
static const size_t windowRadius = 60;
// The window must start within the current line, no earlier than
// windowRadius characters before offset.
size_t windowStart = (offset - linebase > windowRadius) ?
offset - windowRadius :
linebase;
// The window must start within the portion of the current line
// that we actually have in our buffer.
if (windowStart < userbuf.startOffset())
windowStart = userbuf.startOffset();
// The window must end within the current line, no later than
// windowRadius after offset.
size_t windowEnd = userbuf.findEOLMax(offset, windowRadius);
size_t windowLength = windowEnd - windowStart;
MOZ_ASSERT(windowLength <= windowRadius * 2);
// Create the windowed strings.
StringBuffer windowBuf(cx);
if (!windowBuf.append(userbuf.rawCharPtrAt(windowStart), windowLength) ||
!windowBuf.append('\0'))
{
return false;
}
// The window into the offending source line, without final \n.
UniqueTwoByteChars linebuf(windowBuf.stealChars());
if (!linebuf)
return false;
err.initOwnedLinebuf(linebuf.release(), windowLength, offset - windowStart);
}
if (cx->isJSContext())
err.throwError(cx->asJSContext());
return warning;
}
bool
TokenStream::reportStrictModeError(unsigned errorNumber, ...)
{
va_list args;
va_start(args, errorNumber);
bool result = reportStrictModeErrorNumberVA(currentToken().pos.begin, strictMode(),
errorNumber, args);
va_end(args);
return result;
}
bool
TokenStream::reportError(unsigned errorNumber, ...)
{
va_list args;
va_start(args, errorNumber);
bool result = reportCompileErrorNumberVA(currentToken().pos.begin, JSREPORT_ERROR, errorNumber,
args);
va_end(args);
return result;
}
bool
TokenStream::reportErrorNoOffset(unsigned errorNumber, ...)
{
va_list args;
va_start(args, errorNumber);
bool result = reportCompileErrorNumberVA(NoOffset, JSREPORT_ERROR, errorNumber,
args);
va_end(args);
return result;
}
bool
TokenStream::reportWarning(unsigned errorNumber, ...)
{
va_list args;
va_start(args, errorNumber);
bool result = reportCompileErrorNumberVA(currentToken().pos.begin, JSREPORT_WARNING,
errorNumber, args);
va_end(args);
return result;
}
bool
TokenStream::reportExtraWarningErrorNumberVA(uint32_t offset, unsigned errorNumber, va_list args)
{
if (!options().extraWarningsOption)
return true;
return reportCompileErrorNumberVA(offset, JSREPORT_STRICT|JSREPORT_WARNING, errorNumber, args);
}
void
TokenStream::reportAsmJSError(uint32_t offset, unsigned errorNumber, ...)
{
va_list args;
va_start(args, errorNumber);
unsigned flags = options().throwOnAsmJSValidationFailureOption
? JSREPORT_ERROR
: JSREPORT_WARNING;
reportCompileErrorNumberVA(offset, flags, errorNumber, args);
va_end(args);
}
// We have encountered a '\': check for a Unicode escape sequence after it.
// Return the length of the escape sequence and the character code point (by
// value) if we found a Unicode escape sequence. Otherwise, return 0. In both
// cases, do not advance along the buffer.
uint32_t
TokenStream::peekUnicodeEscape(uint32_t* codePoint)
{
int32_t c = getCharIgnoreEOL();
if (c != 'u') {
ungetCharIgnoreEOL(c);
return 0;
}
char16_t cp[3];
uint32_t length;
c = getCharIgnoreEOL();
if (JS7_ISHEX(c) && peekChars(3, cp) &&
JS7_ISHEX(cp[0]) && JS7_ISHEX(cp[1]) && JS7_ISHEX(cp[2]))
{
*codePoint = (JS7_UNHEX(c) << 12) |
(JS7_UNHEX(cp[0]) << 8) |
(JS7_UNHEX(cp[1]) << 4) |
JS7_UNHEX(cp[2]);
length = 5;
} else if (c == '{') {
length = peekExtendedUnicodeEscape(codePoint);
} else {
length = 0;
}
ungetCharIgnoreEOL(c);
ungetCharIgnoreEOL('u');
return length;
}
uint32_t
TokenStream::peekExtendedUnicodeEscape(uint32_t* codePoint)
{
// The opening brace character was already read.
int32_t c = getCharIgnoreEOL();
// Skip leading zeros.
uint32_t leadingZeros = 0;
while (c == '0') {
leadingZeros++;
c = getCharIgnoreEOL();
}
char16_t cp[6];
size_t i = 0;
uint32_t code = 0;
while (JS7_ISHEX(c) && i < 6) {
cp[i++] = c;
code = code << 4 | JS7_UNHEX(c);
c = getCharIgnoreEOL();
}
uint32_t length;
if (c == '}' && (leadingZeros > 0 || i > 0) && code <= unicode::NonBMPMax) {
*codePoint = code;
length = leadingZeros + i + 3;
} else {
length = 0;
}
ungetCharIgnoreEOL(c);
while (i--)
ungetCharIgnoreEOL(cp[i]);
while (leadingZeros--)
ungetCharIgnoreEOL('0');
return length;
}
uint32_t
TokenStream::matchUnicodeEscapeIdStart(uint32_t* codePoint)
{
uint32_t length = peekUnicodeEscape(codePoint);
if (length > 0 && unicode::IsIdentifierStart(*codePoint)) {
skipChars(length);
return length;
}
return 0;
}
bool
TokenStream::matchUnicodeEscapeIdent(uint32_t* codePoint)
{
uint32_t length = peekUnicodeEscape(codePoint);
if (length > 0 && unicode::IsIdentifierPart(*codePoint)) {
skipChars(length);
return true;
}
return false;
}
// Helper function which returns true if the first length(q) characters in p are
// the same as the characters in q.
static bool
CharsMatch(const char16_t* p, const char* q) {
while (*q) {
if (*p++ != *q++)
return false;
}
return true;
}
bool
TokenStream::getDirectives(bool isMultiline, bool shouldWarnDeprecated)
{
// Match directive comments used in debugging, such as "//# sourceURL" and
// "//# sourceMappingURL". Use of "//@" instead of "//#" is deprecated.
//
// To avoid a crashing bug in IE, several JavaScript transpilers wrap single
// line comments containing a source mapping URL inside a multiline
// comment. To avoid potentially expensive lookahead and backtracking, we
// only check for this case if we encounter a '#' character.
if (!getDisplayURL(isMultiline, shouldWarnDeprecated))
return false;
if (!getSourceMappingURL(isMultiline, shouldWarnDeprecated))
return false;
return true;
}
bool
TokenStream::getDirective(bool isMultiline, bool shouldWarnDeprecated,
const char* directive, int directiveLength,
const char* errorMsgPragma,
UniqueTwoByteChars* destination)
{
MOZ_ASSERT(directiveLength <= 18);
char16_t peeked[18];
int32_t c;
if (peekChars(directiveLength, peeked) && CharsMatch(peeked, directive)) {
if (shouldWarnDeprecated &&
!reportWarning(JSMSG_DEPRECATED_PRAGMA, errorMsgPragma))
return false;
skipChars(directiveLength);
tokenbuf.clear();
while ((c = peekChar()) && c != EOF && !unicode::IsSpaceOrBOM2(c)) {
getChar();
// Debugging directives can occur in both single- and multi-line
// comments. If we're currently inside a multi-line comment, we also
// need to recognize multi-line comment terminators.
if (isMultiline && c == '*' && peekChar() == '/') {
ungetChar('*');
break;
}
if (!tokenbuf.append(c))
return false;
}
if (tokenbuf.empty()) {
// The directive's URL was missing, but this is not quite an
// exception that we should stop and drop everything for.
return true;
}
size_t length = tokenbuf.length();
*destination = cx->make_pod_array<char16_t>(length + 1);
if (!*destination)
return false;
PodCopy(destination->get(), tokenbuf.begin(), length);
(*destination)[length] = '\0';
}
return true;
}
bool
TokenStream::getDisplayURL(bool isMultiline, bool shouldWarnDeprecated)
{
// Match comments of the form "//# sourceURL=<url>" or
// "/\* //# sourceURL=<url> *\/"
//
// Note that while these are labeled "sourceURL" in the source text,
// internally we refer to it as a "displayURL" to distinguish what the
// developer would like to refer to the source as from the source's actual
// URL.
return getDirective(isMultiline, shouldWarnDeprecated, " sourceURL=", 11,
"sourceURL", &displayURL_);
}
bool
TokenStream::getSourceMappingURL(bool isMultiline, bool shouldWarnDeprecated)
{
// Match comments of the form "//# sourceMappingURL=<url>" or
// "/\* //# sourceMappingURL=<url> *\/"
return getDirective(isMultiline, shouldWarnDeprecated, " sourceMappingURL=", 18,
"sourceMappingURL", &sourceMapURL_);
}
MOZ_ALWAYS_INLINE Token*
TokenStream::newToken(ptrdiff_t adjust)
{
cursor = (cursor + 1) & ntokensMask;
Token* tp = &tokens[cursor];
tp->pos.begin = userbuf.offset() + adjust;
// NOTE: tp->pos.end is not set until the very end of getTokenInternal().
MOZ_MAKE_MEM_UNDEFINED(&tp->pos.end, sizeof(tp->pos.end));
return tp;
}
MOZ_ALWAYS_INLINE JSAtom*
TokenStream::atomize(ExclusiveContext* cx, CharBuffer& cb)
{
return AtomizeChars(cx, cb.begin(), cb.length());
}
#ifdef DEBUG
static bool
IsTokenSane(Token* tp)
{
// Nb: TOK_EOL should never be used in an actual Token; it should only be
// returned as a TokenKind from peekTokenSameLine().
if (tp->type < 0 || tp->type >= TOK_LIMIT || tp->type == TOK_EOL)
return false;
if (tp->pos.end < tp->pos.begin)
return false;
return true;
}
#endif
bool
TokenStream::matchTrailForLeadSurrogate(char16_t lead, char16_t* trail, uint32_t* codePoint)
{
int32_t maybeTrail = getCharIgnoreEOL();
if (!unicode::IsTrailSurrogate(maybeTrail)) {
ungetCharIgnoreEOL(maybeTrail);
return false;
}
if (trail)
*trail = maybeTrail;
*codePoint = unicode::UTF16Decode(lead, maybeTrail);
return true;
}
bool
TokenStream::putIdentInTokenbuf(const char16_t* identStart)
{
int32_t c;
uint32_t qc;
const char16_t* tmp = userbuf.addressOfNextRawChar();
userbuf.setAddressOfNextRawChar(identStart);
tokenbuf.clear();
for (;;) {
c = getCharIgnoreEOL();
if (MOZ_UNLIKELY(unicode::IsLeadSurrogate(c))) {
char16_t trail;
uint32_t codePoint;
if (matchTrailForLeadSurrogate(c, &trail, &codePoint)) {
if (!unicode::IsIdentifierPart(codePoint))
break;
if (!tokenbuf.append(c) || !tokenbuf.append(trail)) {
userbuf.setAddressOfNextRawChar(tmp);
return false;
}
continue;
}
}
if (!unicode::IsIdentifierPart(char16_t(c))) {
if (c != '\\' || !matchUnicodeEscapeIdent(&qc))
break;
if (MOZ_UNLIKELY(unicode::IsSupplementary(qc))) {
char16_t lead, trail;
unicode::UTF16Encode(qc, &lead, &trail);
if (!tokenbuf.append(lead) || !tokenbuf.append(trail)) {
userbuf.setAddressOfNextRawChar(tmp);
return false;
}
continue;
}
c = qc;
}
if (!tokenbuf.append(c)) {
userbuf.setAddressOfNextRawChar(tmp);
return false;
}
}
userbuf.setAddressOfNextRawChar(tmp);
return true;
}
bool
TokenStream::checkForKeyword(const KeywordInfo* kw, TokenKind* ttp)
{
if (!awaitIsKeyword && kw->tokentype == TOK_AWAIT) {
if (ttp)
*ttp = TOK_NAME;
return true;
}
if (kw->tokentype == TOK_RESERVED)
return reportError(JSMSG_RESERVED_ID, kw->chars);
if (kw->tokentype == TOK_STRICT_RESERVED)
return reportStrictModeError(JSMSG_RESERVED_ID, kw->chars);
// Working keyword.
*ttp = kw->tokentype;
return true;
}
bool
TokenStream::checkForKeyword(JSAtom* atom, TokenKind* ttp)
{
const KeywordInfo* kw = FindKeyword(atom);
if (!kw)
return true;
return checkForKeyword(kw, ttp);
}
enum FirstCharKind {
// A char16_t has the 'OneChar' kind if it, by itself, constitutes a valid
// token that cannot also be a prefix of a longer token. E.g. ';' has the
// OneChar kind, but '+' does not, because '++' and '+=' are valid longer tokens
// that begin with '+'.
//
// The few token kinds satisfying these properties cover roughly 35--45%
// of the tokens seen in practice.
//
// We represent the 'OneChar' kind with any positive value less than
// TOK_LIMIT. This representation lets us associate each one-char token
// char16_t with a TokenKind and thus avoid a subsequent char16_t-to-TokenKind
// conversion.
OneChar_Min = 0,
OneChar_Max = TOK_LIMIT - 1,
Space = TOK_LIMIT,
Ident,
Dec,
String,
EOL,
BasePrefix,
Other,
LastCharKind = Other
};
// OneChar: 40, 41, 44, 58, 59, 63, 91, 93, 123, 125, 126:
// '(', ')', ',', ':', ';', '?', '[', ']', '{', '}', '~'
// Ident: 36, 65..90, 95, 97..122: '$', 'A'..'Z', '_', 'a'..'z'
// Dot: 46: '.'
// Equals: 61: '='
// String: 34, 39: '"', '\''
// Dec: 49..57: '1'..'9'
// Plus: 43: '+'
// BasePrefix: 48: '0'
// Space: 9, 11, 12, 32: '\t', '\v', '\f', ' '
// EOL: 10, 13: '\n', '\r'
//
#define T_COMMA TOK_COMMA
#define T_COLON TOK_COLON
#define T_BITNOT TOK_BITNOT
#define Templat String
#define _______ Other
static const uint8_t firstCharKinds[] = {
/* 0 1 2 3 4 5 6 7 8 9 */
/* 0+ */ _______, _______, _______, _______, _______, _______, _______, _______, _______, Space,
/* 10+ */ EOL, Space, Space, EOL, _______, _______, _______, _______, _______, _______,
/* 20+ */ _______, _______, _______, _______, _______, _______, _______, _______, _______, _______,
/* 30+ */ _______, _______, Space, _______, String, _______, Ident, _______, _______, String,
/* 40+ */ TOK_LP, TOK_RP, _______, _______, T_COMMA,_______, _______, _______,BasePrefix, Dec,
/* 50+ */ Dec, Dec, Dec, Dec, Dec, Dec, Dec, Dec, T_COLON,TOK_SEMI,
/* 60+ */ _______, _______, _______,TOK_HOOK, _______, Ident, Ident, Ident, Ident, Ident,
/* 70+ */ Ident, Ident, Ident, Ident, Ident, Ident, Ident, Ident, Ident, Ident,
/* 80+ */ Ident, Ident, Ident, Ident, Ident, Ident, Ident, Ident, Ident, Ident,
/* 90+ */ Ident, TOK_LB, _______, TOK_RB, _______, Ident, Templat, Ident, Ident, Ident,
/* 100+ */ Ident, Ident, Ident, Ident, Ident, Ident, Ident, Ident, Ident, Ident,
/* 110+ */ Ident, Ident, Ident, Ident, Ident, Ident, Ident, Ident, Ident, Ident,
/* 120+ */ Ident, Ident, Ident, TOK_LC, _______, TOK_RC,T_BITNOT, _______
};
#undef T_COMMA
#undef T_COLON
#undef T_BITNOT
#undef Templat
#undef _______
static_assert(LastCharKind < (1 << (sizeof(firstCharKinds[0]) * 8)),
"Elements of firstCharKinds[] are too small");
bool
TokenStream::getTokenInternal(TokenKind* ttp, Modifier modifier)
{
int c;
uint32_t qc;
Token* tp;
FirstCharKind c1kind;
const char16_t* numStart;
bool hasExp;
DecimalPoint decimalPoint;
const char16_t* identStart;
bool hadUnicodeEscape;
// Check if in the middle of a template string. Have to get this out of
// the way first.
if (MOZ_UNLIKELY(modifier == TemplateTail)) {
if (!getStringOrTemplateToken('`', &tp))
goto error;
goto out;
}
retry:
if (MOZ_UNLIKELY(!userbuf.hasRawChars())) {
tp = newToken(0);
tp->type = TOK_EOF;
flags.isEOF = true;
goto out;
}
c = userbuf.getRawChar();
MOZ_ASSERT(c != EOF);
// Chars not in the range 0..127 are rare. Getting them out of the way
// early allows subsequent checking to be faster.
if (MOZ_UNLIKELY(c >= 128)) {
if (unicode::IsSpaceOrBOM2(c)) {
if (c == LINE_SEPARATOR || c == PARA_SEPARATOR) {
updateLineInfoForEOL();
updateFlagsForEOL();
}
goto retry;
}
tp = newToken(-1);
static_assert('$' < 128,
"IdentifierStart contains '$', but as !IsUnicodeIDStart('$'), "
"ensure that '$' is never handled here");
static_assert('_' < 128,
"IdentifierStart contains '_', but as !IsUnicodeIDStart('_'), "
"ensure that '_' is never handled here");
if (unicode::IsUnicodeIDStart(char16_t(c))) {
identStart = userbuf.addressOfNextRawChar() - 1;
hadUnicodeEscape = false;
goto identifier;
}
if (MOZ_UNLIKELY(unicode::IsLeadSurrogate(c))) {
uint32_t codePoint;
if (matchTrailForLeadSurrogate(c, nullptr, &codePoint) &&
unicode::IsUnicodeIDStart(codePoint))
{
identStart = userbuf.addressOfNextRawChar() - 2;
hadUnicodeEscape = false;
goto identifier;
}
}
goto badchar;
}
// Get the token kind, based on the first char. The ordering of c1kind
// comparison is based on the frequency of tokens in real code -- Parsemark
// (which represents typical JS code on the web) and the Unreal demo (which
// represents asm.js code).
//
// Parsemark Unreal
// OneChar 32.9% 39.7%
// Space 25.0% 0.6%
// Ident 19.2% 36.4%
// Dec 7.2% 5.1%
// String 7.9% 0.0%
// EOL 1.7% 0.0%
// BasePrefix 0.4% 4.9%
// Other 5.7% 13.3%
//
// The ordering is based mostly only Parsemark frequencies, with Unreal
// frequencies used to break close categories (e.g. |Dec| and |String|).
// |Other| is biggish, but no other token kind is common enough for it to
// be worth adding extra values to FirstCharKind.
//
c1kind = FirstCharKind(firstCharKinds[c]);
// Look for an unambiguous single-char token.
//
if (c1kind <= OneChar_Max) {
tp = newToken(-1);
tp->type = TokenKind(c1kind);
goto out;
}
// Skip over non-EOL whitespace chars.
//
if (c1kind == Space)
goto retry;
// Look for an identifier.
//
if (c1kind == Ident) {
tp = newToken(-1);
identStart = userbuf.addressOfNextRawChar() - 1;
hadUnicodeEscape = false;
identifier:
for (;;) {
c = getCharIgnoreEOL();
if (c == EOF)
break;
if (MOZ_UNLIKELY(unicode::IsLeadSurrogate(c))) {
uint32_t codePoint;
if (matchTrailForLeadSurrogate(c, nullptr, &codePoint)) {
if (!unicode::IsIdentifierPart(codePoint))
break;
continue;
}
}
if (!unicode::IsIdentifierPart(char16_t(c))) {
if (c != '\\' || !matchUnicodeEscapeIdent(&qc))
break;
hadUnicodeEscape = true;
}
}
ungetCharIgnoreEOL(c);
// Identifiers containing no Unicode escapes can be processed directly
// from userbuf. The rest must use the escapes converted via tokenbuf
// before atomizing.
const char16_t* chars;
size_t length;
if (hadUnicodeEscape) {
if (!putIdentInTokenbuf(identStart))
goto error;
chars = tokenbuf.begin();
length = tokenbuf.length();
} else {
chars = identStart;
length = userbuf.addressOfNextRawChar() - identStart;
}
// Represent keywords as keyword tokens unless told otherwise.
if (modifier != KeywordIsName) {
if (const KeywordInfo* kw = FindKeyword(chars, length)) {
// That said, keywords can't contain escapes. (Contexts where
// keywords are treated as names, that also sometimes treat
// keywords as keywords, must manually check this requirement.)
// There are two exceptions
// 1) StrictReservedWords: These keywords need to be treated as
// names in non-strict mode.
// 2) yield is also treated as a name if it contains an escape
// sequence. The parser must handle this case separately.
if (hadUnicodeEscape && !(
(kw->tokentype == TOK_STRICT_RESERVED && !strictMode()) ||
kw->tokentype == TOK_YIELD))
{
reportError(JSMSG_ESCAPED_KEYWORD);
goto error;
}
tp->type = TOK_NAME;
if (!checkForKeyword(kw, &tp->type))
goto error;
if (tp->type != TOK_NAME && !hadUnicodeEscape)
goto out;
}
}
JSAtom* atom = AtomizeChars(cx, chars, length);
if (!atom)
goto error;
tp->type = TOK_NAME;
tp->setName(atom->asPropertyName());
goto out;
}
// Look for a decimal number.
//
if (c1kind == Dec) {
tp = newToken(-1);
numStart = userbuf.addressOfNextRawChar() - 1;
decimal:
decimalPoint = NoDecimal;
hasExp = false;
while (JS7_ISDEC(c))
c = getCharIgnoreEOL();
if (c == '.') {
decimalPoint = HasDecimal;
decimal_dot:
do {
c = getCharIgnoreEOL();
} while (JS7_ISDEC(c));
}
if (c == 'e' || c == 'E') {
hasExp = true;
c = getCharIgnoreEOL();
if (c == '+' || c == '-')
c = getCharIgnoreEOL();
if (!JS7_ISDEC(c)) {
ungetCharIgnoreEOL(c);
reportError(JSMSG_MISSING_EXPONENT);
goto error;
}
do {
c = getCharIgnoreEOL();
} while (JS7_ISDEC(c));
}
ungetCharIgnoreEOL(c);
if (c != EOF) {
if (unicode::IsIdentifierStart(char16_t(c))) {
reportError(JSMSG_IDSTART_AFTER_NUMBER);
goto error;
}
if (MOZ_UNLIKELY(unicode::IsLeadSurrogate(c))) {
uint32_t codePoint;
if (matchTrailForLeadSurrogate(c, nullptr, &codePoint) &&
unicode::IsIdentifierStart(codePoint))
{
reportError(JSMSG_IDSTART_AFTER_NUMBER);
goto error;
}
}
}
// Unlike identifiers and strings, numbers cannot contain escaped
// chars, so we don't need to use tokenbuf. Instead we can just
// convert the char16_t characters in userbuf to the numeric value.
double dval;
if (!((decimalPoint == HasDecimal) || hasExp)) {
if (!GetDecimalInteger(cx, numStart, userbuf.addressOfNextRawChar(), &dval))
goto error;
} else {
const char16_t* dummy;
if (!js_strtod(cx, numStart, userbuf.addressOfNextRawChar(), &dummy, &dval))
goto error;
}
tp->type = TOK_NUMBER;
tp->setNumber(dval, decimalPoint);
goto out;
}
// Look for a string or a template string.
//
if (c1kind == String) {
if (!getStringOrTemplateToken(c, &tp))
goto error;
goto out;
}
// Skip over EOL chars, updating line state along the way.
//
if (c1kind == EOL) {
// If it's a \r\n sequence: treat as a single EOL, skip over the \n.
if (c == '\r' && userbuf.hasRawChars())
userbuf.matchRawChar('\n');
updateLineInfoForEOL();
updateFlagsForEOL();
goto retry;
}
// Look for a hexadecimal, octal, or binary number.
//
if (c1kind == BasePrefix) {
tp = newToken(-1);
int radix;
c = getCharIgnoreEOL();
if (c == 'x' || c == 'X') {
radix = 16;
c = getCharIgnoreEOL();
if (!JS7_ISHEX(c)) {
ungetCharIgnoreEOL(c);
reportError(JSMSG_MISSING_HEXDIGITS);
goto error;
}
numStart = userbuf.addressOfNextRawChar() - 1; // one past the '0x'
while (JS7_ISHEX(c))
c = getCharIgnoreEOL();
} else if (c == 'b' || c == 'B') {
radix = 2;
c = getCharIgnoreEOL();
if (c != '0' && c != '1') {
ungetCharIgnoreEOL(c);
reportError(JSMSG_MISSING_BINARY_DIGITS);
goto error;
}
numStart = userbuf.addressOfNextRawChar() - 1; // one past the '0b'
while (c == '0' || c == '1')
c = getCharIgnoreEOL();
} else if (c == 'o' || c == 'O') {
radix = 8;
c = getCharIgnoreEOL();
if (c < '0' || c > '7') {
ungetCharIgnoreEOL(c);
reportError(JSMSG_MISSING_OCTAL_DIGITS);
goto error;
}
numStart = userbuf.addressOfNextRawChar() - 1; // one past the '0o'
while ('0' <= c && c <= '7')
c = getCharIgnoreEOL();
} else if (JS7_ISDEC(c)) {
radix = 8;
numStart = userbuf.addressOfNextRawChar() - 1; // one past the '0'
while (JS7_ISDEC(c)) {
// Octal integer literals are not permitted in strict mode code.
if (!reportStrictModeError(JSMSG_DEPRECATED_OCTAL))
goto error;
// Outside strict mode, we permit 08 and 09 as decimal numbers,
// which makes our behaviour a superset of the ECMA numeric
// grammar. We might not always be so permissive, so we warn
// about it.
if (c >= '8') {
if (!reportWarning(JSMSG_BAD_OCTAL, c == '8' ? "08" : "09")) {
goto error;
}
goto decimal; // use the decimal scanner for the rest of the number
}
c = getCharIgnoreEOL();
}
} else {
// '0' not followed by 'x', 'X' or a digit; scan as a decimal number.
numStart = userbuf.addressOfNextRawChar() - 1;
goto decimal;
}
ungetCharIgnoreEOL(c);
if (c != EOF) {
if (unicode::IsIdentifierStart(char16_t(c))) {
reportError(JSMSG_IDSTART_AFTER_NUMBER);
goto error;
}
if (MOZ_UNLIKELY(unicode::IsLeadSurrogate(c))) {
uint32_t codePoint;
if (matchTrailForLeadSurrogate(c, nullptr, &codePoint) &&
unicode::IsIdentifierStart(codePoint))
{
reportError(JSMSG_IDSTART_AFTER_NUMBER);
goto error;
}
}
}
double dval;
const char16_t* dummy;
if (!GetPrefixInteger(cx, numStart, userbuf.addressOfNextRawChar(), radix, &dummy, &dval))
goto error;
tp->type = TOK_NUMBER;
tp->setNumber(dval, NoDecimal);
goto out;
}
// This handles everything else.
//
MOZ_ASSERT(c1kind == Other);
tp = newToken(-1);
switch (c) {
case '.':
c = getCharIgnoreEOL();
if (JS7_ISDEC(c)) {
numStart = userbuf.addressOfNextRawChar() - 2;
decimalPoint = HasDecimal;
hasExp = false;
goto decimal_dot;
}
if (c == '.') {
if (matchChar('.')) {
tp->type = TOK_TRIPLEDOT;
goto out;
}
}
ungetCharIgnoreEOL(c);
tp->type = TOK_DOT;
goto out;
case '=':
if (matchChar('='))
tp->type = matchChar('=') ? TOK_STRICTEQ : TOK_EQ;
else if (matchChar('>'))
tp->type = TOK_ARROW;
else
tp->type = TOK_ASSIGN;
goto out;
case '+':
if (matchChar('+'))
tp->type = TOK_INC;
else
tp->type = matchChar('=') ? TOK_ADDASSIGN : TOK_ADD;
goto out;
case '\\': {
uint32_t escapeLength = matchUnicodeEscapeIdStart(&qc);
if (escapeLength > 0) {
identStart = userbuf.addressOfNextRawChar() - escapeLength - 1;
hadUnicodeEscape = true;
goto identifier;
}
goto badchar;
}
case '|':
if (matchChar('|'))
tp->type = TOK_OR;
else
tp->type = matchChar('=') ? TOK_BITORASSIGN : TOK_BITOR;
goto out;
case '^':
tp->type = matchChar('=') ? TOK_BITXORASSIGN : TOK_BITXOR;
goto out;
case '&':
if (matchChar('&'))
tp->type = TOK_AND;
else
tp->type = matchChar('=') ? TOK_BITANDASSIGN : TOK_BITAND;
goto out;
case '!':
if (matchChar('='))
tp->type = matchChar('=') ? TOK_STRICTNE : TOK_NE;
else
tp->type = TOK_NOT;
goto out;
case '<':
// NB: treat HTML begin-comment as comment-till-end-of-line.
if (matchChar('!')) {
if (matchChar('-')) {
if (matchChar('-'))
goto skipline;
ungetChar('-');
}
ungetChar('!');
}
if (matchChar('<')) {
tp->type = matchChar('=') ? TOK_LSHASSIGN : TOK_LSH;
} else {
tp->type = matchChar('=') ? TOK_LE : TOK_LT;
}
goto out;
case '>':
if (matchChar('>')) {
if (matchChar('>'))
tp->type = matchChar('=') ? TOK_URSHASSIGN : TOK_URSH;
else
tp->type = matchChar('=') ? TOK_RSHASSIGN : TOK_RSH;
} else {
tp->type = matchChar('=') ? TOK_GE : TOK_GT;
}
goto out;
case '*':
if (matchChar('*'))
tp->type = matchChar('=') ? TOK_POWASSIGN : TOK_POW;
else
tp->type = matchChar('=') ? TOK_MULASSIGN : TOK_MUL;
goto out;
case '/':
// Look for a single-line comment.
if (matchChar('/')) {
c = peekChar();
if (c == '@' || c == '#') {
bool shouldWarn = getChar() == '@';
if (!getDirectives(false, shouldWarn))
goto error;
}
skipline:
while ((c = getChar()) != EOF && c != '\n')
continue;
ungetChar(c);
cursor = (cursor - 1) & ntokensMask;
goto retry;
}
// Look for a multi-line comment.
if (matchChar('*')) {
unsigned linenoBefore = lineno;
while ((c = getChar()) != EOF &&
!(c == '*' && matchChar('/'))) {
if (c == '@' || c == '#') {
bool shouldWarn = c == '@';
if (!getDirectives(true, shouldWarn))
goto error;
}
}
if (c == EOF) {
reportError(JSMSG_UNTERMINATED_COMMENT);
goto error;
}
if (linenoBefore != lineno)
updateFlagsForEOL();
cursor = (cursor - 1) & ntokensMask;
goto retry;
}
// Look for a regexp.
if (modifier == Operand) {
tokenbuf.clear();
bool inCharClass = false;
for (;;) {
c = getChar();
if (c == '\\') {
if (!tokenbuf.append(c))
goto error;
c = getChar();
} else if (c == '[') {
inCharClass = true;
} else if (c == ']') {
inCharClass = false;
} else if (c == '/' && !inCharClass) {
// For compat with IE, allow unescaped / in char classes.
break;
}
if (c == '\n' || c == EOF) {
ungetChar(c);
reportError(JSMSG_UNTERMINATED_REGEXP);
goto error;
}
if (!tokenbuf.append(c))
goto error;
}
RegExpFlag reflags = NoFlags;
unsigned length = tokenbuf.length() + 1;
while (true) {
c = peekChar();
if (c == 'g' && !(reflags & GlobalFlag))
reflags = RegExpFlag(reflags | GlobalFlag);
else if (c == 'i' && !(reflags & IgnoreCaseFlag))
reflags = RegExpFlag(reflags | IgnoreCaseFlag);
else if (c == 'm' && !(reflags & MultilineFlag))
reflags = RegExpFlag(reflags | MultilineFlag);
else if (c == 'y' && !(reflags & StickyFlag))
reflags = RegExpFlag(reflags | StickyFlag);
else if (c == 'u' && !(reflags & UnicodeFlag))
reflags = RegExpFlag(reflags | UnicodeFlag);
else
break;
getChar();
length++;
}
c = peekChar();
if (JS7_ISLET(c)) {
char buf[2] = { '\0', '\0' };
tp->pos.begin += length + 1;
buf[0] = char(c);
reportError(JSMSG_BAD_REGEXP_FLAG, buf);
(void) getChar();
goto error;
}
tp->type = TOK_REGEXP;
tp->setRegExpFlags(reflags);
goto out;
}
tp->type = matchChar('=') ? TOK_DIVASSIGN : TOK_DIV;
goto out;
case '%':
tp->type = matchChar('=') ? TOK_MODASSIGN : TOK_MOD;
goto out;
case '-':
if (matchChar('-')) {
if (peekChar() == '>' && !flags.isDirtyLine)
goto skipline;
tp->type = TOK_DEC;
} else {
tp->type = matchChar('=') ? TOK_SUBASSIGN : TOK_SUB;
}
goto out;
badchar:
default:
reportError(JSMSG_ILLEGAL_CHARACTER);
goto error;
}
MOZ_CRASH("should have jumped to |out| or |error|");
out:
if (flags.hitOOM)
return reportError(JSMSG_OUT_OF_MEMORY);
flags.isDirtyLine = true;
tp->pos.end = userbuf.offset();
#ifdef DEBUG
// Save the modifier used to get this token, so that if an ungetToken()
// occurs and then the token is re-gotten (or peeked, etc.), we can assert
// that both gets have used the same modifiers.
tp->modifier = modifier;
tp->modifierException = NoException;
#endif
MOZ_ASSERT(IsTokenSane(tp));
*ttp = tp->type;
return true;
error:
if (flags.hitOOM)
return reportError(JSMSG_OUT_OF_MEMORY);
flags.isDirtyLine = true;
tp->pos.end = userbuf.offset();
MOZ_MAKE_MEM_UNDEFINED(&tp->type, sizeof(tp->type));
flags.hadError = true;
#ifdef DEBUG
// Poisoning userbuf on error establishes an invariant: once an erroneous
// token has been seen, userbuf will not be consulted again. This is true
// because the parser will deal with the illegal token by aborting parsing
// immediately.
userbuf.poison();
#endif
MOZ_MAKE_MEM_UNDEFINED(ttp, sizeof(*ttp));
return false;
}
bool
TokenStream::getBracedUnicode(uint32_t* cp)
{
consumeKnownChar('{');
bool first = true;
int32_t c;
uint32_t code = 0;
while (true) {
c = getCharIgnoreEOL();
if (c == EOF)
return false;
if (c == '}') {
if (first)
return false;
break;
}
if (!JS7_ISHEX(c))
return false;
code = (code << 4) | JS7_UNHEX(c);
if (code > unicode::NonBMPMax)
return false;
first = false;
}
*cp = code;
return true;
}
bool
TokenStream::getStringOrTemplateToken(int untilChar, Token** tp)
{
int c;
int nc = -1;
bool parsingTemplate = (untilChar == '`');
*tp = newToken(-1);
tokenbuf.clear();
// We need to detect any of these chars: " or ', \n (or its
// equivalents), \\, EOF. Because we detect EOL sequences here and
// put them back immediately, we can use getCharIgnoreEOL().
while ((c = getCharIgnoreEOL()) != untilChar) {
if (c == EOF) {
ungetCharIgnoreEOL(c);
reportError(JSMSG_UNTERMINATED_STRING);
return false;
}
if (c == '\\') {
switch (c = getChar()) {
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 = '\v'; break;
case '\n':
// ES5 7.8.4: an escaped line terminator represents
// no character.
continue;
// Unicode character specification.
case 'u': {
if (peekChar() == '{') {
uint32_t code;
if (!getBracedUnicode(&code)) {
reportError(JSMSG_MALFORMED_ESCAPE, "Unicode");
return false;
}
MOZ_ASSERT(code <= unicode::NonBMPMax);
if (code < unicode::NonBMPMin) {
c = code;
} else {
if (!tokenbuf.append(unicode::LeadSurrogate(code)))
return false;
c = unicode::TrailSurrogate(code);
}
break;
}
char16_t cp[4];
if (peekChars(4, cp) &&
JS7_ISHEX(cp[0]) && JS7_ISHEX(cp[1]) && JS7_ISHEX(cp[2]) && JS7_ISHEX(cp[3]))
{
c = JS7_UNHEX(cp[0]);
c = (c << 4) + JS7_UNHEX(cp[1]);
c = (c << 4) + JS7_UNHEX(cp[2]);
c = (c << 4) + JS7_UNHEX(cp[3]);
skipChars(4);
} else {
reportError(JSMSG_MALFORMED_ESCAPE, "Unicode");
return false;
}
break;
}
// Hexadecimal character specification.
case 'x': {
char16_t cp[2];
if (peekChars(2, cp) && JS7_ISHEX(cp[0]) && JS7_ISHEX(cp[1])) {
c = (JS7_UNHEX(cp[0]) << 4) + JS7_UNHEX(cp[1]);
skipChars(2);
} else {
reportError(JSMSG_MALFORMED_ESCAPE, "hexadecimal");
return false;
}
break;
}
default:
// Octal character specification.
if (JS7_ISOCT(c)) {
int32_t val = JS7_UNOCT(c);
c = peekChar();
// Strict mode code allows only \0, then a non-digit.
if (val != 0 || JS7_ISDEC(c)) {
if (parsingTemplate) {
reportError(JSMSG_DEPRECATED_OCTAL);
return false;
}
if (!reportStrictModeError(JSMSG_DEPRECATED_OCTAL))
return false;
flags.sawOctalEscape = true;
}
if (JS7_ISOCT(c)) {
val = 8 * val + JS7_UNOCT(c);
getChar();
c = peekChar();
if (JS7_ISOCT(c)) {
int32_t save = val;
val = 8 * val + JS7_UNOCT(c);
if (val <= 0xFF)
getChar();
else
val = save;
}
}
c = char16_t(val);
}
break;
}
} else if (TokenBuf::isRawEOLChar(c)) {
if (!parsingTemplate) {
ungetCharIgnoreEOL(c);
reportError(JSMSG_UNTERMINATED_STRING);
return false;
}
if (c == '\r') {
c = '\n';
if (userbuf.peekRawChar() == '\n')
skipCharsIgnoreEOL(1);
}
updateLineInfoForEOL();
updateFlagsForEOL();
} else if (parsingTemplate && c == '$') {
if ((nc = getCharIgnoreEOL()) == '{')
break;
ungetCharIgnoreEOL(nc);
}
if (!tokenbuf.append(c)) {
ReportOutOfMemory(cx);
return false;
}
}
JSAtom* atom = atomize(cx, tokenbuf);
if (!atom)
return false;
if (!parsingTemplate) {
(*tp)->type = TOK_STRING;
} else {
if (c == '$' && nc == '{')
(*tp)->type = TOK_TEMPLATE_HEAD;
else
(*tp)->type = TOK_NO_SUBS_TEMPLATE;
}
(*tp)->setAtom(atom);
return true;
}
JS_FRIEND_API(int)
js_fgets(char* buf, int size, FILE* file)
{
int n, i, c;
bool crflag;
n = size - 1;
if (n < 0)
return -1;
crflag = false;
for (i = 0; i < n && (c = fast_getc(file)) != EOF; i++) {
buf[i] = c;
if (c == '\n') { // any \n ends a line
i++; // keep the \n; we know there is room for \0
break;
}
if (crflag) { // \r not followed by \n ends line at the \r
ungetc(c, file);
break; // and overwrite c in buf with \0
}
crflag = (c == '\r');
}
buf[i] = '\0';
return i;
}
const char*
frontend::TokenKindToDesc(TokenKind tt)
{
switch (tt) {
#define EMIT_CASE(name, desc) case TOK_##name: return desc;
FOR_EACH_TOKEN_KIND(EMIT_CASE)
#undef EMIT_CASE
case TOK_LIMIT:
MOZ_ASSERT_UNREACHABLE("TOK_LIMIT should not be passed.");
break;
}
return "<bad TokenKind>";
}
#ifdef DEBUG
const char*
TokenKindToString(TokenKind tt)
{
switch (tt) {
#define EMIT_CASE(name, desc) case TOK_##name: return "TOK_" #name;
FOR_EACH_TOKEN_KIND(EMIT_CASE)
#undef EMIT_CASE
case TOK_LIMIT: break;
}
return "<bad TokenKind>";
}
#endif
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