65ae6e92ab
BUG=v8:3330 LOG=N R=arv@chromium.org, marja@chromium.org Review URL: https://codereview.chromium.org/480543002 git-svn-id: https://v8.googlecode.com/svn/branches/bleeding_edge@23157 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
663 lines
21 KiB
C++
663 lines
21 KiB
C++
// Copyright 2011 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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// Features shared by parsing and pre-parsing scanners.
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#ifndef V8_SCANNER_H_
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#define V8_SCANNER_H_
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#include "src/allocation.h"
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#include "src/base/logging.h"
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#include "src/char-predicates.h"
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#include "src/globals.h"
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#include "src/hashmap.h"
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#include "src/list.h"
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#include "src/token.h"
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#include "src/unicode-inl.h"
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#include "src/utils.h"
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namespace v8 {
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namespace internal {
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class AstRawString;
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class AstValueFactory;
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class ParserRecorder;
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// Returns the value (0 .. 15) of a hexadecimal character c.
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// If c is not a legal hexadecimal character, returns a value < 0.
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inline int HexValue(uc32 c) {
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c -= '0';
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if (static_cast<unsigned>(c) <= 9) return c;
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c = (c | 0x20) - ('a' - '0'); // detect 0x11..0x16 and 0x31..0x36.
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if (static_cast<unsigned>(c) <= 5) return c + 10;
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return -1;
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}
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// ---------------------------------------------------------------------
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// Buffered stream of UTF-16 code units, using an internal UTF-16 buffer.
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// A code unit is a 16 bit value representing either a 16 bit code point
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// or one part of a surrogate pair that make a single 21 bit code point.
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class Utf16CharacterStream {
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public:
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Utf16CharacterStream() : pos_(0) { }
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virtual ~Utf16CharacterStream() { }
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// Returns and advances past the next UTF-16 code unit in the input
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// stream. If there are no more code units, it returns a negative
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// value.
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inline uc32 Advance() {
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if (buffer_cursor_ < buffer_end_ || ReadBlock()) {
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pos_++;
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return static_cast<uc32>(*(buffer_cursor_++));
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}
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// Note: currently the following increment is necessary to avoid a
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// parser problem! The scanner treats the final kEndOfInput as
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// a code unit with a position, and does math relative to that
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// position.
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pos_++;
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return kEndOfInput;
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}
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// Return the current position in the code unit stream.
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// Starts at zero.
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inline unsigned pos() const { return pos_; }
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// Skips forward past the next code_unit_count UTF-16 code units
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// in the input, or until the end of input if that comes sooner.
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// Returns the number of code units actually skipped. If less
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// than code_unit_count,
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inline unsigned SeekForward(unsigned code_unit_count) {
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unsigned buffered_chars =
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static_cast<unsigned>(buffer_end_ - buffer_cursor_);
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if (code_unit_count <= buffered_chars) {
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buffer_cursor_ += code_unit_count;
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pos_ += code_unit_count;
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return code_unit_count;
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}
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return SlowSeekForward(code_unit_count);
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}
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// Pushes back the most recently read UTF-16 code unit (or negative
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// value if at end of input), i.e., the value returned by the most recent
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// call to Advance.
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// Must not be used right after calling SeekForward.
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virtual void PushBack(int32_t code_unit) = 0;
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protected:
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static const uc32 kEndOfInput = -1;
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// Ensures that the buffer_cursor_ points to the code_unit at
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// position pos_ of the input, if possible. If the position
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// is at or after the end of the input, return false. If there
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// are more code_units available, return true.
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virtual bool ReadBlock() = 0;
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virtual unsigned SlowSeekForward(unsigned code_unit_count) = 0;
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const uint16_t* buffer_cursor_;
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const uint16_t* buffer_end_;
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unsigned pos_;
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};
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// ---------------------------------------------------------------------
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// Caching predicates used by scanners.
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class UnicodeCache {
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public:
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UnicodeCache() {}
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typedef unibrow::Utf8Decoder<512> Utf8Decoder;
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StaticResource<Utf8Decoder>* utf8_decoder() {
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return &utf8_decoder_;
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}
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bool IsIdentifierStart(unibrow::uchar c) { return kIsIdentifierStart.get(c); }
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bool IsIdentifierPart(unibrow::uchar c) { return kIsIdentifierPart.get(c); }
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bool IsLineTerminator(unibrow::uchar c) { return kIsLineTerminator.get(c); }
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bool IsWhiteSpace(unibrow::uchar c) { return kIsWhiteSpace.get(c); }
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bool IsWhiteSpaceOrLineTerminator(unibrow::uchar c) {
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return kIsWhiteSpaceOrLineTerminator.get(c);
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}
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private:
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unibrow::Predicate<IdentifierStart, 128> kIsIdentifierStart;
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unibrow::Predicate<IdentifierPart, 128> kIsIdentifierPart;
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unibrow::Predicate<unibrow::LineTerminator, 128> kIsLineTerminator;
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unibrow::Predicate<WhiteSpace, 128> kIsWhiteSpace;
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unibrow::Predicate<WhiteSpaceOrLineTerminator, 128>
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kIsWhiteSpaceOrLineTerminator;
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StaticResource<Utf8Decoder> utf8_decoder_;
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DISALLOW_COPY_AND_ASSIGN(UnicodeCache);
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};
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// ---------------------------------------------------------------------
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// DuplicateFinder discovers duplicate symbols.
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class DuplicateFinder {
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public:
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explicit DuplicateFinder(UnicodeCache* constants)
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: unicode_constants_(constants),
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backing_store_(16),
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map_(&Match) { }
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int AddOneByteSymbol(Vector<const uint8_t> key, int value);
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int AddTwoByteSymbol(Vector<const uint16_t> key, int value);
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// Add a a number literal by converting it (if necessary)
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// to the string that ToString(ToNumber(literal)) would generate.
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// and then adding that string with AddAsciiSymbol.
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// This string is the actual value used as key in an object literal,
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// and the one that must be different from the other keys.
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int AddNumber(Vector<const uint8_t> key, int value);
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private:
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int AddSymbol(Vector<const uint8_t> key, bool is_one_byte, int value);
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// Backs up the key and its length in the backing store.
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// The backup is stored with a base 127 encoding of the
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// length (plus a bit saying whether the string is one byte),
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// followed by the bytes of the key.
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uint8_t* BackupKey(Vector<const uint8_t> key, bool is_one_byte);
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// Compare two encoded keys (both pointing into the backing store)
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// for having the same base-127 encoded lengths and ASCII-ness,
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// and then having the same 'length' bytes following.
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static bool Match(void* first, void* second);
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// Creates a hash from a sequence of bytes.
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static uint32_t Hash(Vector<const uint8_t> key, bool is_one_byte);
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// Checks whether a string containing a JS number is its canonical
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// form.
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static bool IsNumberCanonical(Vector<const uint8_t> key);
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// Size of buffer. Sufficient for using it to call DoubleToCString in
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// from conversions.h.
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static const int kBufferSize = 100;
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UnicodeCache* unicode_constants_;
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// Backing store used to store strings used as hashmap keys.
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SequenceCollector<unsigned char> backing_store_;
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HashMap map_;
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// Buffer used for string->number->canonical string conversions.
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char number_buffer_[kBufferSize];
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};
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// ----------------------------------------------------------------------------
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// LiteralBuffer - Collector of chars of literals.
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class LiteralBuffer {
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public:
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LiteralBuffer() : is_one_byte_(true), position_(0), backing_store_() { }
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~LiteralBuffer() {
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if (backing_store_.length() > 0) {
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backing_store_.Dispose();
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}
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}
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INLINE(void AddChar(uint32_t code_unit)) {
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if (position_ >= backing_store_.length()) ExpandBuffer();
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if (is_one_byte_) {
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if (code_unit <= unibrow::Latin1::kMaxChar) {
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backing_store_[position_] = static_cast<byte>(code_unit);
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position_ += kOneByteSize;
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return;
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}
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ConvertToTwoByte();
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}
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DCHECK(code_unit < 0x10000u);
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*reinterpret_cast<uint16_t*>(&backing_store_[position_]) = code_unit;
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position_ += kUC16Size;
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}
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bool is_one_byte() const { return is_one_byte_; }
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bool is_contextual_keyword(Vector<const char> keyword) const {
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return is_one_byte() && keyword.length() == position_ &&
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(memcmp(keyword.start(), backing_store_.start(), position_) == 0);
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}
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Vector<const uint16_t> two_byte_literal() const {
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DCHECK(!is_one_byte_);
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DCHECK((position_ & 0x1) == 0);
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return Vector<const uint16_t>(
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reinterpret_cast<const uint16_t*>(backing_store_.start()),
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position_ >> 1);
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}
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Vector<const uint8_t> one_byte_literal() const {
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DCHECK(is_one_byte_);
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return Vector<const uint8_t>(
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reinterpret_cast<const uint8_t*>(backing_store_.start()),
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position_);
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}
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int length() const {
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return is_one_byte_ ? position_ : (position_ >> 1);
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}
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void Reset() {
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position_ = 0;
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is_one_byte_ = true;
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}
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Handle<String> Internalize(Isolate* isolate) const;
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private:
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static const int kInitialCapacity = 16;
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static const int kGrowthFactory = 4;
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static const int kMinConversionSlack = 256;
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static const int kMaxGrowth = 1 * MB;
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inline int NewCapacity(int min_capacity) {
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int capacity = Max(min_capacity, backing_store_.length());
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int new_capacity = Min(capacity * kGrowthFactory, capacity + kMaxGrowth);
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return new_capacity;
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}
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void ExpandBuffer() {
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Vector<byte> new_store = Vector<byte>::New(NewCapacity(kInitialCapacity));
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MemCopy(new_store.start(), backing_store_.start(), position_);
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backing_store_.Dispose();
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backing_store_ = new_store;
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}
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void ConvertToTwoByte() {
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DCHECK(is_one_byte_);
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Vector<byte> new_store;
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int new_content_size = position_ * kUC16Size;
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if (new_content_size >= backing_store_.length()) {
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// Ensure room for all currently read code units as UC16 as well
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// as the code unit about to be stored.
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new_store = Vector<byte>::New(NewCapacity(new_content_size));
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} else {
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new_store = backing_store_;
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}
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uint8_t* src = backing_store_.start();
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uint16_t* dst = reinterpret_cast<uint16_t*>(new_store.start());
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for (int i = position_ - 1; i >= 0; i--) {
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dst[i] = src[i];
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}
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if (new_store.start() != backing_store_.start()) {
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backing_store_.Dispose();
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backing_store_ = new_store;
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}
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position_ = new_content_size;
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is_one_byte_ = false;
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}
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bool is_one_byte_;
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int position_;
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Vector<byte> backing_store_;
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DISALLOW_COPY_AND_ASSIGN(LiteralBuffer);
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};
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// ----------------------------------------------------------------------------
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// JavaScript Scanner.
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class Scanner {
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public:
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// Scoped helper for literal recording. Automatically drops the literal
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// if aborting the scanning before it's complete.
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class LiteralScope {
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public:
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explicit LiteralScope(Scanner* self)
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: scanner_(self), complete_(false) {
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scanner_->StartLiteral();
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}
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~LiteralScope() {
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if (!complete_) scanner_->DropLiteral();
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}
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void Complete() {
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scanner_->TerminateLiteral();
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complete_ = true;
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}
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private:
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Scanner* scanner_;
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bool complete_;
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};
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// Representation of an interval of source positions.
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struct Location {
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Location(int b, int e) : beg_pos(b), end_pos(e) { }
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Location() : beg_pos(0), end_pos(0) { }
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bool IsValid() const {
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return beg_pos >= 0 && end_pos >= beg_pos;
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}
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static Location invalid() { return Location(-1, -1); }
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int beg_pos;
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int end_pos;
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};
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// -1 is outside of the range of any real source code.
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static const int kNoOctalLocation = -1;
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explicit Scanner(UnicodeCache* scanner_contants);
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void Initialize(Utf16CharacterStream* source);
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// Returns the next token and advances input.
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Token::Value Next();
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// Returns the current token again.
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Token::Value current_token() { return current_.token; }
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// Returns the location information for the current token
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// (the token last returned by Next()).
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Location location() const { return current_.location; }
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// Similar functions for the upcoming token.
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// One token look-ahead (past the token returned by Next()).
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Token::Value peek() const { return next_.token; }
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Location peek_location() const { return next_.location; }
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bool literal_contains_escapes() const {
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Location location = current_.location;
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int source_length = (location.end_pos - location.beg_pos);
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if (current_.token == Token::STRING) {
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// Subtract delimiters.
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source_length -= 2;
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}
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return current_.literal_chars->length() != source_length;
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}
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bool is_literal_contextual_keyword(Vector<const char> keyword) {
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DCHECK_NOT_NULL(current_.literal_chars);
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return current_.literal_chars->is_contextual_keyword(keyword);
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}
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bool is_next_contextual_keyword(Vector<const char> keyword) {
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DCHECK_NOT_NULL(next_.literal_chars);
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return next_.literal_chars->is_contextual_keyword(keyword);
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}
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const AstRawString* CurrentSymbol(AstValueFactory* ast_value_factory);
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const AstRawString* NextSymbol(AstValueFactory* ast_value_factory);
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double DoubleValue();
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bool UnescapedLiteralMatches(const char* data, int length) {
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if (is_literal_one_byte() &&
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literal_length() == length &&
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!literal_contains_escapes()) {
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const char* token =
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reinterpret_cast<const char*>(literal_one_byte_string().start());
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return !strncmp(token, data, length);
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}
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return false;
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}
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void IsGetOrSet(bool* is_get, bool* is_set) {
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if (is_literal_one_byte() &&
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literal_length() == 3 &&
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!literal_contains_escapes()) {
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const char* token =
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reinterpret_cast<const char*>(literal_one_byte_string().start());
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*is_get = strncmp(token, "get", 3) == 0;
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*is_set = !*is_get && strncmp(token, "set", 3) == 0;
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}
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}
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int FindNumber(DuplicateFinder* finder, int value);
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int FindSymbol(DuplicateFinder* finder, int value);
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UnicodeCache* unicode_cache() { return unicode_cache_; }
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// Returns the location of the last seen octal literal.
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Location octal_position() const { return octal_pos_; }
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void clear_octal_position() { octal_pos_ = Location::invalid(); }
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// Seek forward to the given position. This operation does not
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// work in general, for instance when there are pushed back
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// characters, but works for seeking forward until simple delimiter
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// tokens, which is what it is used for.
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void SeekForward(int pos);
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bool HarmonyScoping() const {
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return harmony_scoping_;
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}
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void SetHarmonyScoping(bool scoping) {
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harmony_scoping_ = scoping;
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}
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bool HarmonyModules() const {
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return harmony_modules_;
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}
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void SetHarmonyModules(bool modules) {
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harmony_modules_ = modules;
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}
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bool HarmonyNumericLiterals() const {
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return harmony_numeric_literals_;
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}
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void SetHarmonyNumericLiterals(bool numeric_literals) {
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harmony_numeric_literals_ = numeric_literals;
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}
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bool HarmonyClasses() const {
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return harmony_classes_;
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}
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void SetHarmonyClasses(bool classes) {
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harmony_classes_ = classes;
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}
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// Returns true if there was a line terminator before the peek'ed token,
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// possibly inside a multi-line comment.
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bool HasAnyLineTerminatorBeforeNext() const {
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return has_line_terminator_before_next_ ||
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has_multiline_comment_before_next_;
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}
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// Scans the input as a regular expression pattern, previous
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// character(s) must be /(=). Returns true if a pattern is scanned.
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bool ScanRegExpPattern(bool seen_equal);
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// Returns true if regexp flags are scanned (always since flags can
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// be empty).
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bool ScanRegExpFlags();
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const LiteralBuffer* source_url() const { return &source_url_; }
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const LiteralBuffer* source_mapping_url() const {
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return &source_mapping_url_;
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}
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bool IdentifierIsFutureStrictReserved(const AstRawString* string) const;
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private:
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// The current and look-ahead token.
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struct TokenDesc {
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Token::Value token;
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Location location;
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LiteralBuffer* literal_chars;
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};
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static const int kCharacterLookaheadBufferSize = 1;
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// Scans octal escape sequence. Also accepts "\0" decimal escape sequence.
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uc32 ScanOctalEscape(uc32 c, int length);
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// Call this after setting source_ to the input.
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void Init() {
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// Set c0_ (one character ahead)
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STATIC_ASSERT(kCharacterLookaheadBufferSize == 1);
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Advance();
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// Initialize current_ to not refer to a literal.
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current_.literal_chars = NULL;
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}
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// Literal buffer support
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inline void StartLiteral() {
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LiteralBuffer* free_buffer = (current_.literal_chars == &literal_buffer1_) ?
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&literal_buffer2_ : &literal_buffer1_;
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free_buffer->Reset();
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next_.literal_chars = free_buffer;
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}
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INLINE(void AddLiteralChar(uc32 c)) {
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DCHECK_NOT_NULL(next_.literal_chars);
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next_.literal_chars->AddChar(c);
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}
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// Complete scanning of a literal.
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inline void TerminateLiteral() {
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// Does nothing in the current implementation.
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}
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// Stops scanning of a literal and drop the collected characters,
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// e.g., due to an encountered error.
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|
inline void DropLiteral() {
|
|
next_.literal_chars = NULL;
|
|
}
|
|
|
|
inline void AddLiteralCharAdvance() {
|
|
AddLiteralChar(c0_);
|
|
Advance();
|
|
}
|
|
|
|
// Low-level scanning support.
|
|
void Advance() { c0_ = source_->Advance(); }
|
|
void PushBack(uc32 ch) {
|
|
source_->PushBack(c0_);
|
|
c0_ = ch;
|
|
}
|
|
|
|
inline Token::Value Select(Token::Value tok) {
|
|
Advance();
|
|
return tok;
|
|
}
|
|
|
|
inline Token::Value Select(uc32 next, Token::Value then, Token::Value else_) {
|
|
Advance();
|
|
if (c0_ == next) {
|
|
Advance();
|
|
return then;
|
|
} else {
|
|
return else_;
|
|
}
|
|
}
|
|
|
|
// Returns the literal string, if any, for the current token (the
|
|
// token last returned by Next()). The string is 0-terminated.
|
|
// Literal strings are collected for identifiers, strings, and
|
|
// numbers.
|
|
// These functions only give the correct result if the literal
|
|
// was scanned between calls to StartLiteral() and TerminateLiteral().
|
|
Vector<const uint8_t> literal_one_byte_string() {
|
|
DCHECK_NOT_NULL(current_.literal_chars);
|
|
return current_.literal_chars->one_byte_literal();
|
|
}
|
|
Vector<const uint16_t> literal_two_byte_string() {
|
|
DCHECK_NOT_NULL(current_.literal_chars);
|
|
return current_.literal_chars->two_byte_literal();
|
|
}
|
|
bool is_literal_one_byte() {
|
|
DCHECK_NOT_NULL(current_.literal_chars);
|
|
return current_.literal_chars->is_one_byte();
|
|
}
|
|
int literal_length() const {
|
|
DCHECK_NOT_NULL(current_.literal_chars);
|
|
return current_.literal_chars->length();
|
|
}
|
|
// Returns the literal string for the next token (the token that
|
|
// would be returned if Next() were called).
|
|
Vector<const uint8_t> next_literal_one_byte_string() {
|
|
DCHECK_NOT_NULL(next_.literal_chars);
|
|
return next_.literal_chars->one_byte_literal();
|
|
}
|
|
Vector<const uint16_t> next_literal_two_byte_string() {
|
|
DCHECK_NOT_NULL(next_.literal_chars);
|
|
return next_.literal_chars->two_byte_literal();
|
|
}
|
|
bool is_next_literal_one_byte() {
|
|
DCHECK_NOT_NULL(next_.literal_chars);
|
|
return next_.literal_chars->is_one_byte();
|
|
}
|
|
int next_literal_length() const {
|
|
DCHECK_NOT_NULL(next_.literal_chars);
|
|
return next_.literal_chars->length();
|
|
}
|
|
|
|
uc32 ScanHexNumber(int expected_length);
|
|
|
|
// Scans a single JavaScript token.
|
|
void Scan();
|
|
|
|
bool SkipWhiteSpace();
|
|
Token::Value SkipSingleLineComment();
|
|
Token::Value SkipSourceURLComment();
|
|
void TryToParseSourceURLComment();
|
|
Token::Value SkipMultiLineComment();
|
|
// Scans a possible HTML comment -- begins with '<!'.
|
|
Token::Value ScanHtmlComment();
|
|
|
|
void ScanDecimalDigits();
|
|
Token::Value ScanNumber(bool seen_period);
|
|
Token::Value ScanIdentifierOrKeyword();
|
|
Token::Value ScanIdentifierSuffix(LiteralScope* literal);
|
|
|
|
Token::Value ScanString();
|
|
|
|
// Scans an escape-sequence which is part of a string and adds the
|
|
// decoded character to the current literal. Returns true if a pattern
|
|
// is scanned.
|
|
bool ScanEscape();
|
|
// Decodes a Unicode escape-sequence which is part of an identifier.
|
|
// If the escape sequence cannot be decoded the result is kBadChar.
|
|
uc32 ScanIdentifierUnicodeEscape();
|
|
// Scans a Unicode escape-sequence and adds its characters,
|
|
// uninterpreted, to the current literal. Used for parsing RegExp
|
|
// flags.
|
|
bool ScanLiteralUnicodeEscape();
|
|
|
|
// Return the current source position.
|
|
int source_pos() {
|
|
return source_->pos() - kCharacterLookaheadBufferSize;
|
|
}
|
|
|
|
UnicodeCache* unicode_cache_;
|
|
|
|
// Buffers collecting literal strings, numbers, etc.
|
|
LiteralBuffer literal_buffer1_;
|
|
LiteralBuffer literal_buffer2_;
|
|
|
|
// Values parsed from magic comments.
|
|
LiteralBuffer source_url_;
|
|
LiteralBuffer source_mapping_url_;
|
|
|
|
TokenDesc current_; // desc for current token (as returned by Next())
|
|
TokenDesc next_; // desc for next token (one token look-ahead)
|
|
|
|
// Input stream. Must be initialized to an Utf16CharacterStream.
|
|
Utf16CharacterStream* source_;
|
|
|
|
|
|
// Start position of the octal literal last scanned.
|
|
Location octal_pos_;
|
|
|
|
// One Unicode character look-ahead; c0_ < 0 at the end of the input.
|
|
uc32 c0_;
|
|
|
|
// Whether there is a line terminator whitespace character after
|
|
// the current token, and before the next. Does not count newlines
|
|
// inside multiline comments.
|
|
bool has_line_terminator_before_next_;
|
|
// Whether there is a multi-line comment that contains a
|
|
// line-terminator after the current token, and before the next.
|
|
bool has_multiline_comment_before_next_;
|
|
// Whether we scan 'let' as a keyword for harmony block-scoped let bindings.
|
|
bool harmony_scoping_;
|
|
// Whether we scan 'module', 'import', 'export' as keywords.
|
|
bool harmony_modules_;
|
|
// Whether we scan 0o777 and 0b111 as numbers.
|
|
bool harmony_numeric_literals_;
|
|
// Whether we scan 'super' as keyword.
|
|
bool harmony_classes_;
|
|
};
|
|
|
|
} } // namespace v8::internal
|
|
|
|
#endif // V8_SCANNER_H_
|