// Copyright 2008 the V8 project authors. All rights reserved. // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following // disclaimer in the documentation and/or other materials provided // with the distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #ifndef V8_DATEPARSER_H_ #define V8_DATEPARSER_H_ #include "scanner.h" namespace v8 { namespace internal { class DateParser : public AllStatic { public: // Parse the string as a date. If parsing succeeds, return true after // filling out the output array as follows (all integers are Smis): // [0]: year // [1]: month (0 = Jan, 1 = Feb, ...) // [2]: day // [3]: hour // [4]: minute // [5]: second // [6]: millisecond // [7]: UTC offset in seconds, or null value if no timezone specified // If parsing fails, return false (content of output array is not defined). template static bool Parse(Vector str, FixedArray* output); enum { YEAR, MONTH, DAY, HOUR, MINUTE, SECOND, MILLISECOND, UTC_OFFSET, OUTPUT_SIZE }; private: // Range testing static inline bool Between(int x, int lo, int hi) { return static_cast(x - lo) <= static_cast(hi - lo); } // Indicates a missing value. static const int kNone = kMaxInt; // InputReader provides basic string parsing and character classification. template class InputReader BASE_EMBEDDED { public: explicit InputReader(Vector s) : index_(0), buffer_(s), has_read_number_(false) { Next(); } // Advance to the next character of the string. void Next() { ch_ = (index_ < buffer_.length()) ? buffer_[index_++] : 0; } // Read a string of digits as an unsigned number (cap just below kMaxInt). int ReadUnsignedNumber() { has_read_number_ = true; int n; for (n = 0; IsAsciiDigit() && n < kMaxInt / 10 - 1; Next()) { n = n * 10 + ch_ - '0'; } return n; } // Read a word (sequence of chars. >= 'A'), fill the given buffer with a // lower-case prefix, and pad any remainder of the buffer with zeroes. // Return word length. int ReadWord(uint32_t* prefix, int prefix_size) { int len; for (len = 0; IsAsciiAlphaOrAbove(); Next(), len++) { if (len < prefix_size) prefix[len] = GetAsciiAlphaLower(); } for (int i = len; i < prefix_size; i++) prefix[i] = 0; return len; } // The skip methods return whether they actually skipped something. bool Skip(uint32_t c) { return ch_ == c ? (Next(), true) : false; } bool SkipWhiteSpace() { return Scanner::kIsWhiteSpace.get(ch_) ? (Next(), true) : false; } bool SkipParentheses() { if (ch_ != '(') return false; int balance = 0; do { if (ch_ == ')') --balance; else if (ch_ == '(') ++balance; Next(); } while (balance > 0 && ch_); return true; } // Character testing/classification. Non-ASCII digits are not supported. bool Is(uint32_t c) const { return ch_ == c; } bool IsEnd() const { return ch_ == 0; } bool IsAsciiDigit() const { return IsDecimalDigit(ch_); } bool IsAsciiAlphaOrAbove() const { return ch_ >= 'A'; } bool IsAsciiSign() const { return ch_ == '+' || ch_ == '-'; } // Return 1 for '+' and -1 for '-'. int GetAsciiSignValue() const { return 44 - static_cast(ch_); } // Indicates whether any (possibly empty!) numbers have been read. bool HasReadNumber() const { return has_read_number_; } private: // If current character is in 'A'-'Z' or 'a'-'z', return its lower-case. // Else, return something outside of 'A'-'Z' and 'a'-'z'. uint32_t GetAsciiAlphaLower() const { return ch_ | 32; } int index_; Vector buffer_; bool has_read_number_; uint32_t ch_; }; enum KeywordType { INVALID, MONTH_NAME, TIME_ZONE_NAME, AM_PM }; // KeywordTable maps names of months, time zones, am/pm to numbers. class KeywordTable : public AllStatic { public: // Look up a word in the keyword table and return an index. // 'pre' contains a prefix of the word, zero-padded to size kPrefixLength // and 'len' is the word length. static int Lookup(const uint32_t* pre, int len); // Get the type of the keyword at index i. static KeywordType GetType(int i) { return static_cast(array[i][kTypeOffset]); } // Get the value of the keyword at index i. static int GetValue(int i) { return array[i][kValueOffset]; } static const int kPrefixLength = 3; static const int kTypeOffset = kPrefixLength; static const int kValueOffset = kTypeOffset + 1; static const int kEntrySize = kValueOffset + 1; static const int8_t array[][kEntrySize]; }; class TimeZoneComposer BASE_EMBEDDED { public: TimeZoneComposer() : sign_(kNone), hour_(kNone), minute_(kNone) {} void Set(int offset_in_hours) { sign_ = offset_in_hours < 0 ? -1 : 1; hour_ = offset_in_hours * sign_; minute_ = 0; } void SetSign(int sign) { sign_ = sign < 0 ? -1 : 1; } void SetAbsoluteHour(int hour) { hour_ = hour; } void SetAbsoluteMinute(int minute) { minute_ = minute; } bool IsExpecting(int n) const { return hour_ != kNone && minute_ == kNone && TimeComposer::IsMinute(n); } bool IsUTC() const { return hour_ == 0 && minute_ == 0; } bool Write(FixedArray* output); private: int sign_; int hour_; int minute_; }; class TimeComposer BASE_EMBEDDED { public: TimeComposer() : index_(0), hour_offset_(kNone) {} bool IsEmpty() const { return index_ == 0; } bool IsExpecting(int n) const { return (index_ == 1 && IsMinute(n)) || (index_ == 2 && IsSecond(n)) || (index_ == 3 && IsMillisecond(n)); } bool Add(int n) { return index_ < kSize ? (comp_[index_++] = n, true) : false; } bool AddFinal(int n) { if (!Add(n)) return false; while (index_ < kSize) comp_[index_++] = 0; return true; } void SetHourOffset(int n) { hour_offset_ = n; } bool Write(FixedArray* output); static bool IsMinute(int x) { return Between(x, 0, 59); } private: static bool IsHour(int x) { return Between(x, 0, 23); } static bool IsHour12(int x) { return Between(x, 0, 12); } static bool IsSecond(int x) { return Between(x, 0, 59); } static bool IsMillisecond(int x) { return Between(x, 0, 999); } static const int kSize = 4; int comp_[kSize]; int index_; int hour_offset_; }; class DayComposer BASE_EMBEDDED { public: DayComposer() : index_(0), named_month_(kNone) {} bool IsEmpty() const { return index_ == 0; } bool Add(int n) { return index_ < kSize ? (comp_[index_++] = n, true) : false; } void SetNamedMonth(int n) { named_month_ = n; } bool Write(FixedArray* output); private: static bool IsMonth(int x) { return Between(x, 1, 12); } static bool IsDay(int x) { return Between(x, 1, 31); } static const int kSize = 3; int comp_[kSize]; int index_; int named_month_; }; }; } } // namespace v8::internal #endif // V8_DATEPARSER_H_