uc32 3922 src/api.cc i::uc32 c = write_input_buffer.GetNext();
uc32 3934 src/api.cc i::uc32 c = write_input_buffer.GetNext();
uc32 40 src/char-predicates-inl.h inline int AsciiAlphaToLower(uc32 c) {
uc32 45 src/char-predicates-inl.h inline bool IsCarriageReturn(uc32 c) {
uc32 50 src/char-predicates-inl.h inline bool IsLineFeed(uc32 c) {
uc32 62 src/char-predicates-inl.h inline bool IsDecimalDigit(uc32 c) {
uc32 68 src/char-predicates-inl.h inline bool IsHexDigit(uc32 c) {
uc32 39 src/char-predicates.h inline bool IsCarriageReturn(uc32 c);
uc32 40 src/char-predicates.h inline bool IsLineFeed(uc32 c);
uc32 41 src/char-predicates.h inline bool IsDecimalDigit(uc32 c);
uc32 42 src/char-predicates.h inline bool IsHexDigit(uc32 c);
uc32 43 src/char-predicates.h inline bool IsRegExpWord(uc32 c);
uc32 44 src/char-predicates.h inline bool IsRegExpNewline(uc32 c);
uc32 47 src/char-predicates.h static inline bool Is(uc32 c) {
uc32 57 src/char-predicates.h static inline bool Is(uc32 c) {
uc32 277 src/globals.h const uc32 kMaxAsciiCharCode = 0x7f;
uc32 83 src/json-parser.h inline uc32 AdvanceGetChar() {
uc32 90 src/json-parser.h inline bool MatchSkipWhiteSpace(uc32 c) {
uc32 163 src/json-parser.h uc32 c0_;
uc32 423 src/json-parser.h inline void SeqStringSet(Handle<StringType> seq_str, int i, uc32 c);
uc32 426 src/json-parser.h inline void SeqStringSet(Handle<SeqTwoByteString> seq_str, int i, uc32 c) {
uc32 431 src/json-parser.h inline void SeqStringSet(Handle<SeqAsciiString> seq_str, int i, uc32 c) {
uc32 510 src/json-parser.h uc32 value = 0;
uc32 5192 src/jsregexp.cc uc32 chr = chars[i];
uc32 5230 src/jsregexp.cc uc32 c = range[i];
uc32 268 src/log-utils.cc uc32 c = str->Get(i);
uc32 410 src/objects-inl.h uc32 FlatStringReader::Get(int index) {
uc32 6982 src/objects.cc uc32 ch = buffer->GetNext();
uc32 10800 src/objects.cc hasher.AddCharacter(static_cast<uc32>(string_[i]));
uc32 10807 src/objects.cc hasher.AddCharacterNoIndex(static_cast<uc32>(string_[i]));
uc32 10868 src/objects.cc hasher.AddCharacter(static_cast<uc32>(
uc32 10876 src/objects.cc hasher.AddCharacterNoIndex(static_cast<uc32>(
uc32 6929 src/objects.h void AddSurrogatePair(uc32 c);
uc32 6930 src/objects.h void AddSurrogatePairNoIndex(uc32 c);
uc32 7788 src/objects.h inline uc32 Get(int index);
uc32 5105 src/parser.cc uc32 RegExpParser::Next() {
uc32 5336 src/parser.cc uc32 c = Next();
uc32 5361 src/parser.cc uc32 first_digit = Next();
uc32 5372 src/parser.cc uc32 octal = ParseOctalLiteral();
uc32 5400 src/parser.cc uc32 controlLetter = Next();
uc32 5403 src/parser.cc uc32 letter = controlLetter & ~('a' ^ 'A');
uc32 5418 src/parser.cc uc32 value;
uc32 5428 src/parser.cc uc32 value;
uc32 5569 src/parser.cc uc32 c = current();
uc32 5664 src/parser.cc uc32 RegExpParser::ParseOctalLiteral() {
uc32 5668 src/parser.cc uc32 value = current() - '0';
uc32 5684 src/parser.cc uc32 val = 0;
uc32 5687 src/parser.cc uc32 c = current();
uc32 5704 src/parser.cc uc32 RegExpParser::ParseClassCharacterEscape() {
uc32 5730 src/parser.cc uc32 controlLetter = Next();
uc32 5731 src/parser.cc uc32 letter = controlLetter & ~('A' ^ 'a');
uc32 5754 src/parser.cc uc32 value;
uc32 5764 src/parser.cc uc32 value;
uc32 5776 src/parser.cc uc32 result = current();
uc32 5787 src/parser.cc uc32 first = current();
uc32 5798 src/parser.cc uc32 c = ParseClassCharacterEscape(CHECK_FAILED);
uc32 322 src/parser.h uc32 ParseClassCharacterEscape();
uc32 326 src/parser.h bool ParseHexEscape(int length, uc32* value);
uc32 328 src/parser.h uc32 ParseOctalLiteral();
uc32 352 src/parser.h static const uc32 kEndMarker = (1 << 21);
uc32 399 src/parser.h uc32 current() { return current_; }
uc32 402 src/parser.h uc32 Next();
uc32 411 src/parser.h uc32 current_;
uc32 6190 src/runtime.cc uc32 current = buffer->GetNext();
uc32 6193 src/runtime.cc uc32 next = has_next ? buffer->GetNext() : 0;
uc32 6201 src/runtime.cc ASSERT(static_cast<uc32>(chars[0]) != current);
uc32 44 src/scanner-character-streams.h virtual void PushBack(uc32 character);
uc32 108 src/scanner-character-streams.h virtual void PushBack(uc32 character) {
uc32 61 src/scanner.cc uc32 Scanner::ScanHexNumber(int expected_length) {
uc32 64 src/scanner.cc uc32 digits[4] = { 0, 0, 0, 0 };
uc32 65 src/scanner.cc uc32 x = 0;
uc32 317 src/scanner.cc uc32 ch = c0_;
uc32 615 src/scanner.cc uc32 c = c0_;
uc32 667 src/scanner.cc uc32 Scanner::ScanOctalEscape(uc32 c, int length) {
uc32 668 src/scanner.cc uc32 x = c - '0';
uc32 691 src/scanner.cc uc32 quote = c0_;
uc32 697 src/scanner.cc uc32 c = c0_;
uc32 804 src/scanner.cc uc32 Scanner::ScanIdentifierUnicodeEscape() {
uc32 808 src/scanner.cc uc32 result = ScanHexNumber(4);
uc32 929 src/scanner.cc uc32 c = ScanIdentifierUnicodeEscape();
uc32 940 src/scanner.cc uc32 first_char = c0_;
uc32 947 src/scanner.cc uc32 next_char = c0_;
uc32 974 src/scanner.cc uc32 c = ScanIdentifierUnicodeEscape();
uc32 1042 src/scanner.cc uc32 chars_read[6] = {'\\', 'u', 0, 0, 0, 0};
uc32 66 src/scanner.h inline int HexValue(uc32 c) {
uc32 88 src/scanner.h inline uc32 Advance() {
uc32 91 src/scanner.h return static_cast<uc32>(*(buffer_cursor_++));
uc32 128 src/scanner.h static const uc32 kEndOfInput = -1;
uc32 395 src/scanner.h uc32 ScanOctalEscape(uc32 c, int length);
uc32 464 src/scanner.h INLINE(void AddLiteralChar(uc32 c)) {
uc32 487 src/scanner.h void PushBack(uc32 ch) {
uc32 497 src/scanner.h inline Token::Value Select(uc32 next, Token::Value then, Token::Value else_) {
uc32 507 src/scanner.h uc32 ScanHexNumber(int expected_length);
uc32 531 src/scanner.h uc32 ScanIdentifierUnicodeEscape();
uc32 559 src/scanner.h uc32 c0_;
uc32 1461 test/cctest/test-regexp.cc static uc32 canonicalize(uc32 c) {
uc32 1484 test/cctest/test-regexp.cc for (uc32 c = 128; c < (1 << 21); c++)
uc32 1488 test/cctest/test-regexp.cc for (uc32 c = 0; c < (1 << 16); c++) {
uc32 1495 test/cctest/test-regexp.cc uc32 u = upper[0];
uc32 1503 test/cctest/test-regexp.cc static uc32 CanonRangeEnd(uc32 c) {
uc32 1522 test/cctest/test-regexp.cc uc32 block_end = CanonRangeEnd(block_start);