X-Git-Url: https://git.saurik.com/apple/javascriptcore.git/blobdiff_plain/1df5f87f1309a8daa30dabdee855f48ae40d14ab..6fe7ccc865dc7d7541b93c5bcaf6368d2c98a174:/wtf/DateMath.cpp diff --git a/wtf/DateMath.cpp b/wtf/DateMath.cpp deleted file mode 100644 index 70c0cf4..0000000 --- a/wtf/DateMath.cpp +++ /dev/null @@ -1,1170 +0,0 @@ -/* - * Copyright (C) 1999-2000 Harri Porten (porten@kde.org) - * Copyright (C) 2006, 2007 Apple Inc. All rights reserved. - * Copyright (C) 2009 Google Inc. All rights reserved. - * Copyright (C) 2007-2009 Torch Mobile, Inc. - * Copyright (C) 2010 &yet, LLC. (nate@andyet.net) - * - * The Original Code is Mozilla Communicator client code, released - * March 31, 1998. - * - * The Initial Developer of the Original Code is - * Netscape Communications Corporation. - * Portions created by the Initial Developer are Copyright (C) 1998 - * the Initial Developer. All Rights Reserved. - * - * This library is free software; you can redistribute it and/or - * modify it under the terms of the GNU Lesser General Public - * License as published by the Free Software Foundation; either - * version 2.1 of the License, or (at your option) any later version. - * - * This library is distributed in the hope that it will be useful, - * but WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU - * Lesser General Public License for more details. - * - * You should have received a copy of the GNU Lesser General Public - * License along with this library; if not, write to the Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA - * - * Alternatively, the contents of this file may be used under the terms - * of either the Mozilla Public License Version 1.1, found at - * http://www.mozilla.org/MPL/ (the "MPL") or the GNU General Public - * License Version 2.0, found at http://www.fsf.org/copyleft/gpl.html - * (the "GPL"), in which case the provisions of the MPL or the GPL are - * applicable instead of those above. If you wish to allow use of your - * version of this file only under the terms of one of those two - * licenses (the MPL or the GPL) and not to allow others to use your - * version of this file under the LGPL, indicate your decision by - * deletingthe provisions above and replace them with the notice and - * other provisions required by the MPL or the GPL, as the case may be. - * If you do not delete the provisions above, a recipient may use your - * version of this file under any of the LGPL, the MPL or the GPL. - - * Copyright 2006-2008 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. - */ - -#include "config.h" -#include "DateMath.h" - -#include "Assertions.h" -#include "ASCIICType.h" -#include "CurrentTime.h" -#if USE(JSC) -#include "JSObject.h" -#endif -#include "MathExtras.h" -#if USE(JSC) -#include "ScopeChain.h" -#endif -#include "StdLibExtras.h" -#include "StringExtras.h" - -#include -#include -#include -#include -#include - - -#if HAVE(ERRNO_H) -#include -#endif - -#if OS(WINCE) -extern "C" size_t strftime(char * const s, const size_t maxsize, const char * const format, const struct tm * const t); -extern "C" struct tm * localtime(const time_t *timer); -#endif - -#if HAVE(SYS_TIME_H) -#include -#endif - -#if HAVE(SYS_TIMEB_H) -#include -#endif - -#if USE(JSC) -#include "CallFrame.h" -#endif - -#define NaN std::numeric_limits::quiet_NaN() - -using namespace WTF; - -namespace WTF { - -/* Constants */ - -static const double minutesPerDay = 24.0 * 60.0; -static const double secondsPerDay = 24.0 * 60.0 * 60.0; -static const double secondsPerYear = 24.0 * 60.0 * 60.0 * 365.0; - -static const double usecPerSec = 1000000.0; - -static const double maxUnixTime = 2145859200.0; // 12/31/2037 -// ECMAScript asks not to support for a date of which total -// millisecond value is larger than the following value. -// See 15.9.1.14 of ECMA-262 5th edition. -static const double maxECMAScriptTime = 8.64E15; - -// Day of year for the first day of each month, where index 0 is January, and day 0 is January 1. -// First for non-leap years, then for leap years. -static const int firstDayOfMonth[2][12] = { - {0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334}, - {0, 31, 60, 91, 121, 152, 182, 213, 244, 274, 305, 335} -}; - -static inline bool isLeapYear(int year) -{ - if (year % 4 != 0) - return false; - if (year % 400 == 0) - return true; - if (year % 100 == 0) - return false; - return true; -} - -static inline int daysInYear(int year) -{ - return 365 + isLeapYear(year); -} - -static inline double daysFrom1970ToYear(int year) -{ - // The Gregorian Calendar rules for leap years: - // Every fourth year is a leap year. 2004, 2008, and 2012 are leap years. - // However, every hundredth year is not a leap year. 1900 and 2100 are not leap years. - // Every four hundred years, there's a leap year after all. 2000 and 2400 are leap years. - - static const int leapDaysBefore1971By4Rule = 1970 / 4; - static const int excludedLeapDaysBefore1971By100Rule = 1970 / 100; - static const int leapDaysBefore1971By400Rule = 1970 / 400; - - const double yearMinusOne = year - 1; - const double yearsToAddBy4Rule = floor(yearMinusOne / 4.0) - leapDaysBefore1971By4Rule; - const double yearsToExcludeBy100Rule = floor(yearMinusOne / 100.0) - excludedLeapDaysBefore1971By100Rule; - const double yearsToAddBy400Rule = floor(yearMinusOne / 400.0) - leapDaysBefore1971By400Rule; - - return 365.0 * (year - 1970) + yearsToAddBy4Rule - yearsToExcludeBy100Rule + yearsToAddBy400Rule; -} - -static inline double msToDays(double ms) -{ - return floor(ms / msPerDay); -} - -int msToYear(double ms) -{ - int approxYear = static_cast(floor(ms / (msPerDay * 365.2425)) + 1970); - double msFromApproxYearTo1970 = msPerDay * daysFrom1970ToYear(approxYear); - if (msFromApproxYearTo1970 > ms) - return approxYear - 1; - if (msFromApproxYearTo1970 + msPerDay * daysInYear(approxYear) <= ms) - return approxYear + 1; - return approxYear; -} - -int dayInYear(double ms, int year) -{ - return static_cast(msToDays(ms) - daysFrom1970ToYear(year)); -} - -static inline double msToMilliseconds(double ms) -{ - double result = fmod(ms, msPerDay); - if (result < 0) - result += msPerDay; - return result; -} - -// 0: Sunday, 1: Monday, etc. -static inline int msToWeekDay(double ms) -{ - int wd = (static_cast(msToDays(ms)) + 4) % 7; - if (wd < 0) - wd += 7; - return wd; -} - -static inline int msToSeconds(double ms) -{ - double result = fmod(floor(ms / msPerSecond), secondsPerMinute); - if (result < 0) - result += secondsPerMinute; - return static_cast(result); -} - -static inline int msToMinutes(double ms) -{ - double result = fmod(floor(ms / msPerMinute), minutesPerHour); - if (result < 0) - result += minutesPerHour; - return static_cast(result); -} - -static inline int msToHours(double ms) -{ - double result = fmod(floor(ms/msPerHour), hoursPerDay); - if (result < 0) - result += hoursPerDay; - return static_cast(result); -} - -int monthFromDayInYear(int dayInYear, bool leapYear) -{ - const int d = dayInYear; - int step; - - if (d < (step = 31)) - return 0; - step += (leapYear ? 29 : 28); - if (d < step) - return 1; - if (d < (step += 31)) - return 2; - if (d < (step += 30)) - return 3; - if (d < (step += 31)) - return 4; - if (d < (step += 30)) - return 5; - if (d < (step += 31)) - return 6; - if (d < (step += 31)) - return 7; - if (d < (step += 30)) - return 8; - if (d < (step += 31)) - return 9; - if (d < (step += 30)) - return 10; - return 11; -} - -static inline bool checkMonth(int dayInYear, int& startDayOfThisMonth, int& startDayOfNextMonth, int daysInThisMonth) -{ - startDayOfThisMonth = startDayOfNextMonth; - startDayOfNextMonth += daysInThisMonth; - return (dayInYear <= startDayOfNextMonth); -} - -int dayInMonthFromDayInYear(int dayInYear, bool leapYear) -{ - const int d = dayInYear; - int step; - int next = 30; - - if (d <= next) - return d + 1; - const int daysInFeb = (leapYear ? 29 : 28); - if (checkMonth(d, step, next, daysInFeb)) - return d - step; - if (checkMonth(d, step, next, 31)) - return d - step; - if (checkMonth(d, step, next, 30)) - return d - step; - if (checkMonth(d, step, next, 31)) - return d - step; - if (checkMonth(d, step, next, 30)) - return d - step; - if (checkMonth(d, step, next, 31)) - return d - step; - if (checkMonth(d, step, next, 31)) - return d - step; - if (checkMonth(d, step, next, 30)) - return d - step; - if (checkMonth(d, step, next, 31)) - return d - step; - if (checkMonth(d, step, next, 30)) - return d - step; - step = next; - return d - step; -} - -static inline int monthToDayInYear(int month, bool isLeapYear) -{ - return firstDayOfMonth[isLeapYear][month]; -} - -static inline double timeToMS(double hour, double min, double sec, double ms) -{ - return (((hour * minutesPerHour + min) * secondsPerMinute + sec) * msPerSecond + ms); -} - -double dateToDaysFrom1970(int year, int month, int day) -{ - year += month / 12; - - month %= 12; - if (month < 0) { - month += 12; - --year; - } - - double yearday = floor(daysFrom1970ToYear(year)); - ASSERT((year >= 1970 && yearday >= 0) || (year < 1970 && yearday < 0)); - int monthday = monthToDayInYear(month, isLeapYear(year)); - - return yearday + monthday + day - 1; -} - -// There is a hard limit at 2038 that we currently do not have a workaround -// for (rdar://problem/5052975). -static inline int maximumYearForDST() -{ - return 2037; -} - -static inline int minimumYearForDST() -{ - // Because of the 2038 issue (see maximumYearForDST) if the current year is - // greater than the max year minus 27 (2010), we want to use the max year - // minus 27 instead, to ensure there is a range of 28 years that all years - // can map to. - return std::min(msToYear(jsCurrentTime()), maximumYearForDST() - 27) ; -} - -/* - * Find an equivalent year for the one given, where equivalence is deterined by - * the two years having the same leapness and the first day of the year, falling - * on the same day of the week. - * - * This function returns a year between this current year and 2037, however this - * function will potentially return incorrect results if the current year is after - * 2010, (rdar://problem/5052975), if the year passed in is before 1900 or after - * 2100, (rdar://problem/5055038). - */ -int equivalentYearForDST(int year) -{ - // It is ok if the cached year is not the current year as long as the rules - // for DST did not change between the two years; if they did the app would need - // to be restarted. - static int minYear = minimumYearForDST(); - int maxYear = maximumYearForDST(); - - int difference; - if (year > maxYear) - difference = minYear - year; - else if (year < minYear) - difference = maxYear - year; - else - return year; - - int quotient = difference / 28; - int product = (quotient) * 28; - - year += product; - ASSERT((year >= minYear && year <= maxYear) || (product - year == static_cast(NaN))); - return year; -} - -int32_t calculateUTCOffset() -{ -#if PLATFORM(BREWMP) - time_t localTime = static_cast(currentTime()); -#else - time_t localTime = time(0); -#endif - tm localt; - getLocalTime(&localTime, &localt); - - // Get the difference between this time zone and UTC on the 1st of January of this year. - localt.tm_sec = 0; - localt.tm_min = 0; - localt.tm_hour = 0; - localt.tm_mday = 1; - localt.tm_mon = 0; - // Not setting localt.tm_year! - localt.tm_wday = 0; - localt.tm_yday = 0; - localt.tm_isdst = 0; -#if HAVE(TM_GMTOFF) - localt.tm_gmtoff = 0; -#endif -#if HAVE(TM_ZONE) - localt.tm_zone = 0; -#endif - -#if HAVE(TIMEGM) - time_t utcOffset = timegm(&localt) - mktime(&localt); -#else - // Using a canned date of 01/01/2009 on platforms with weaker date-handling foo. - localt.tm_year = 109; - time_t utcOffset = 1230768000 - mktime(&localt); -#endif - - return static_cast(utcOffset * 1000); -} - -/* - * Get the DST offset for the time passed in. - */ -static double calculateDSTOffsetSimple(double localTimeSeconds, double utcOffset) -{ - if (localTimeSeconds > maxUnixTime) - localTimeSeconds = maxUnixTime; - else if (localTimeSeconds < 0) // Go ahead a day to make localtime work (does not work with 0) - localTimeSeconds += secondsPerDay; - - //input is UTC so we have to shift back to local time to determine DST thus the + getUTCOffset() - double offsetTime = (localTimeSeconds * msPerSecond) + utcOffset; - - // Offset from UTC but doesn't include DST obviously - int offsetHour = msToHours(offsetTime); - int offsetMinute = msToMinutes(offsetTime); - - // FIXME: time_t has a potential problem in 2038 - time_t localTime = static_cast(localTimeSeconds); - - tm localTM; - getLocalTime(&localTime, &localTM); - - double diff = ((localTM.tm_hour - offsetHour) * secondsPerHour) + ((localTM.tm_min - offsetMinute) * 60); - - if (diff < 0) - diff += secondsPerDay; - - return (diff * msPerSecond); -} - -// Get the DST offset, given a time in UTC -double calculateDSTOffset(double ms, double utcOffset) -{ - // On Mac OS X, the call to localtime (see calculateDSTOffsetSimple) will return historically accurate - // DST information (e.g. New Zealand did not have DST from 1946 to 1974) however the JavaScript - // standard explicitly dictates that historical information should not be considered when - // determining DST. For this reason we shift away from years that localtime can handle but would - // return historically accurate information. - int year = msToYear(ms); - int equivalentYear = equivalentYearForDST(year); - if (year != equivalentYear) { - bool leapYear = isLeapYear(year); - int dayInYearLocal = dayInYear(ms, year); - int dayInMonth = dayInMonthFromDayInYear(dayInYearLocal, leapYear); - int month = monthFromDayInYear(dayInYearLocal, leapYear); - double day = dateToDaysFrom1970(equivalentYear, month, dayInMonth); - ms = (day * msPerDay) + msToMilliseconds(ms); - } - - return calculateDSTOffsetSimple(ms / msPerSecond, utcOffset); -} - -void initializeDates() -{ -#ifndef NDEBUG - static bool alreadyInitialized; - ASSERT(!alreadyInitialized); - alreadyInitialized = true; -#endif - - equivalentYearForDST(2000); // Need to call once to initialize a static used in this function. -} - -static inline double ymdhmsToSeconds(long year, int mon, int day, int hour, int minute, double second) -{ - double days = (day - 32075) - + floor(1461 * (year + 4800.0 + (mon - 14) / 12) / 4) - + 367 * (mon - 2 - (mon - 14) / 12 * 12) / 12 - - floor(3 * ((year + 4900.0 + (mon - 14) / 12) / 100) / 4) - - 2440588; - return ((days * hoursPerDay + hour) * minutesPerHour + minute) * secondsPerMinute + second; -} - -// We follow the recommendation of RFC 2822 to consider all -// obsolete time zones not listed here equivalent to "-0000". -static const struct KnownZone { -#if !OS(WINDOWS) - const -#endif - char tzName[4]; - int tzOffset; -} known_zones[] = { - { "UT", 0 }, - { "GMT", 0 }, - { "EST", -300 }, - { "EDT", -240 }, - { "CST", -360 }, - { "CDT", -300 }, - { "MST", -420 }, - { "MDT", -360 }, - { "PST", -480 }, - { "PDT", -420 } -}; - -inline static void skipSpacesAndComments(const char*& s) -{ - int nesting = 0; - char ch; - while ((ch = *s)) { - if (!isASCIISpace(ch)) { - if (ch == '(') - nesting++; - else if (ch == ')' && nesting > 0) - nesting--; - else if (nesting == 0) - break; - } - s++; - } -} - -// returns 0-11 (Jan-Dec); -1 on failure -static int findMonth(const char* monthStr) -{ - ASSERT(monthStr); - char needle[4]; - for (int i = 0; i < 3; ++i) { - if (!*monthStr) - return -1; - needle[i] = static_cast(toASCIILower(*monthStr++)); - } - needle[3] = '\0'; - const char *haystack = "janfebmaraprmayjunjulaugsepoctnovdec"; - const char *str = strstr(haystack, needle); - if (str) { - int position = static_cast(str - haystack); - if (position % 3 == 0) - return position / 3; - } - return -1; -} - -static bool parseLong(const char* string, char** stopPosition, int base, long* result) -{ - *result = strtol(string, stopPosition, base); - // Avoid the use of errno as it is not available on Windows CE - if (string == *stopPosition || *result == LONG_MIN || *result == LONG_MAX) - return false; - return true; -} - -double parseES5DateFromNullTerminatedCharacters(const char* dateString) -{ - // This parses a date of the form defined in ECMA-262-5, section 15.9.1.15 - // (similar to RFC 3339 / ISO 8601: YYYY-MM-DDTHH:mm:ss[.sss]Z). - // In most cases it is intentionally strict (e.g. correct field widths, no stray whitespace). - - static const long daysPerMonth[12] = { 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }; - - const char* currentPosition = dateString; - char* postParsePosition; - - // This is a bit more lenient on the year string than ES5 specifies: - // instead of restricting to 4 digits (or 6 digits with mandatory +/-), - // it accepts any integer value. Consider this an implementation fallback. - long year; - if (!parseLong(currentPosition, &postParsePosition, 10, &year)) - return NaN; - if (*postParsePosition != '-') - return NaN; - currentPosition = postParsePosition + 1; - - long month; - if (!isASCIIDigit(*currentPosition)) - return NaN; - if (!parseLong(currentPosition, &postParsePosition, 10, &month)) - return NaN; - if (*postParsePosition != '-' || (postParsePosition - currentPosition) != 2) - return NaN; - currentPosition = postParsePosition + 1; - - long day; - if (!isASCIIDigit(*currentPosition)) - return NaN; - if (!parseLong(currentPosition, &postParsePosition, 10, &day)) - return NaN; - if (*postParsePosition != 'T' || (postParsePosition - currentPosition) != 2) - return NaN; - currentPosition = postParsePosition + 1; - - long hours; - if (!isASCIIDigit(*currentPosition)) - return NaN; - if (!parseLong(currentPosition, &postParsePosition, 10, &hours)) - return NaN; - if (*postParsePosition != ':' || (postParsePosition - currentPosition) != 2) - return NaN; - currentPosition = postParsePosition + 1; - - long minutes; - if (!isASCIIDigit(*currentPosition)) - return NaN; - if (!parseLong(currentPosition, &postParsePosition, 10, &minutes)) - return NaN; - if (*postParsePosition != ':' || (postParsePosition - currentPosition) != 2) - return NaN; - currentPosition = postParsePosition + 1; - - long intSeconds; - if (!isASCIIDigit(*currentPosition)) - return NaN; - if (!parseLong(currentPosition, &postParsePosition, 10, &intSeconds)) - return NaN; - if ((postParsePosition - currentPosition) != 2) - return NaN; - - double seconds = intSeconds; - if (*postParsePosition == '.') { - currentPosition = postParsePosition + 1; - - // In ECMA-262-5 it's a bit unclear if '.' can be present without milliseconds, but - // a reasonable interpretation guided by the given examples and RFC 3339 says "no". - // We check the next character to avoid reading +/- timezone hours after an invalid decimal. - if (!isASCIIDigit(*currentPosition)) - return NaN; - - // We are more lenient than ES5 by accepting more or less than 3 fraction digits. - long fracSeconds; - if (!parseLong(currentPosition, &postParsePosition, 10, &fracSeconds)) - return NaN; - - long numFracDigits = postParsePosition - currentPosition; - seconds += fracSeconds * pow(10.0, static_cast(-numFracDigits)); - } - currentPosition = postParsePosition; - - // A few of these checks could be done inline above, but since many of them are interrelated - // we would be sacrificing readability to "optimize" the (presumably less common) failure path. - if (month < 1 || month > 12) - return NaN; - if (day < 1 || day > daysPerMonth[month - 1]) - return NaN; - if (month == 2 && day > 28 && !isLeapYear(year)) - return NaN; - if (hours < 0 || hours > 24) - return NaN; - if (hours == 24 && (minutes || seconds)) - return NaN; - if (minutes < 0 || minutes > 59) - return NaN; - if (seconds < 0 || seconds >= 61) - return NaN; - if (seconds > 60) { - // Discard leap seconds by clamping to the end of a minute. - seconds = 60; - } - - long timeZoneSeconds = 0; - if (*currentPosition != 'Z') { - bool tzNegative; - if (*currentPosition == '-') - tzNegative = true; - else if (*currentPosition == '+') - tzNegative = false; - else - return NaN; - currentPosition += 1; - - long tzHours; - long tzHoursAbs; - long tzMinutes; - - if (!isASCIIDigit(*currentPosition)) - return NaN; - if (!parseLong(currentPosition, &postParsePosition, 10, &tzHours)) - return NaN; - if (*postParsePosition != ':' || (postParsePosition - currentPosition) != 2) - return NaN; - tzHoursAbs = abs(tzHours); - currentPosition = postParsePosition + 1; - - if (!isASCIIDigit(*currentPosition)) - return NaN; - if (!parseLong(currentPosition, &postParsePosition, 10, &tzMinutes)) - return NaN; - if ((postParsePosition - currentPosition) != 2) - return NaN; - currentPosition = postParsePosition; - - if (tzHoursAbs > 24) - return NaN; - if (tzMinutes < 0 || tzMinutes > 59) - return NaN; - - timeZoneSeconds = 60 * (tzMinutes + (60 * tzHoursAbs)); - if (tzNegative) - timeZoneSeconds = -timeZoneSeconds; - } else { - currentPosition += 1; - } - if (*currentPosition) - return NaN; - - double dateSeconds = ymdhmsToSeconds(year, month, day, hours, minutes, seconds) - timeZoneSeconds; - return dateSeconds * msPerSecond; -} - -// Odd case where 'exec' is allowed to be 0, to accomodate a caller in WebCore. -static double parseDateFromNullTerminatedCharacters(const char* dateString, bool& haveTZ, int& offset) -{ - haveTZ = false; - offset = 0; - - // This parses a date in the form: - // Tuesday, 09-Nov-99 23:12:40 GMT - // or - // Sat, 01-Jan-2000 08:00:00 GMT - // or - // Sat, 01 Jan 2000 08:00:00 GMT - // or - // 01 Jan 99 22:00 +0100 (exceptions in rfc822/rfc2822) - // ### non RFC formats, added for Javascript: - // [Wednesday] January 09 1999 23:12:40 GMT - // [Wednesday] January 09 23:12:40 GMT 1999 - // - // We ignore the weekday. - - // Skip leading space - skipSpacesAndComments(dateString); - - long month = -1; - const char *wordStart = dateString; - // Check contents of first words if not number - while (*dateString && !isASCIIDigit(*dateString)) { - if (isASCIISpace(*dateString) || *dateString == '(') { - if (dateString - wordStart >= 3) - month = findMonth(wordStart); - skipSpacesAndComments(dateString); - wordStart = dateString; - } else - dateString++; - } - - // Missing delimiter between month and day (like "January29")? - if (month == -1 && wordStart != dateString) - month = findMonth(wordStart); - - skipSpacesAndComments(dateString); - - if (!*dateString) - return NaN; - - // ' 09-Nov-99 23:12:40 GMT' - char* newPosStr; - long day; - if (!parseLong(dateString, &newPosStr, 10, &day)) - return NaN; - dateString = newPosStr; - - if (!*dateString) - return NaN; - - if (day < 0) - return NaN; - - long year = 0; - if (day > 31) { - // ### where is the boundary and what happens below? - if (*dateString != '/') - return NaN; - // looks like a YYYY/MM/DD date - if (!*++dateString) - return NaN; - year = day; - if (!parseLong(dateString, &newPosStr, 10, &month)) - return NaN; - month -= 1; - dateString = newPosStr; - if (*dateString++ != '/' || !*dateString) - return NaN; - if (!parseLong(dateString, &newPosStr, 10, &day)) - return NaN; - dateString = newPosStr; - } else if (*dateString == '/' && month == -1) { - dateString++; - // This looks like a MM/DD/YYYY date, not an RFC date. - month = day - 1; // 0-based - if (!parseLong(dateString, &newPosStr, 10, &day)) - return NaN; - if (day < 1 || day > 31) - return NaN; - dateString = newPosStr; - if (*dateString == '/') - dateString++; - if (!*dateString) - return NaN; - } else { - if (*dateString == '-') - dateString++; - - skipSpacesAndComments(dateString); - - if (*dateString == ',') - dateString++; - - if (month == -1) { // not found yet - month = findMonth(dateString); - if (month == -1) - return NaN; - - while (*dateString && *dateString != '-' && *dateString != ',' && !isASCIISpace(*dateString)) - dateString++; - - if (!*dateString) - return NaN; - - // '-99 23:12:40 GMT' - if (*dateString != '-' && *dateString != '/' && *dateString != ',' && !isASCIISpace(*dateString)) - return NaN; - dateString++; - } - } - - if (month < 0 || month > 11) - return NaN; - - // '99 23:12:40 GMT' - if (year <= 0 && *dateString) { - if (!parseLong(dateString, &newPosStr, 10, &year)) - return NaN; - } - - // Don't fail if the time is missing. - long hour = 0; - long minute = 0; - long second = 0; - if (!*newPosStr) - dateString = newPosStr; - else { - // ' 23:12:40 GMT' - if (!(isASCIISpace(*newPosStr) || *newPosStr == ',')) { - if (*newPosStr != ':') - return NaN; - // There was no year; the number was the hour. - year = -1; - } else { - // in the normal case (we parsed the year), advance to the next number - dateString = ++newPosStr; - skipSpacesAndComments(dateString); - } - - parseLong(dateString, &newPosStr, 10, &hour); - // Do not check for errno here since we want to continue - // even if errno was set becasue we are still looking - // for the timezone! - - // Read a number? If not, this might be a timezone name. - if (newPosStr != dateString) { - dateString = newPosStr; - - if (hour < 0 || hour > 23) - return NaN; - - if (!*dateString) - return NaN; - - // ':12:40 GMT' - if (*dateString++ != ':') - return NaN; - - if (!parseLong(dateString, &newPosStr, 10, &minute)) - return NaN; - dateString = newPosStr; - - if (minute < 0 || minute > 59) - return NaN; - - // ':40 GMT' - if (*dateString && *dateString != ':' && !isASCIISpace(*dateString)) - return NaN; - - // seconds are optional in rfc822 + rfc2822 - if (*dateString ==':') { - dateString++; - - if (!parseLong(dateString, &newPosStr, 10, &second)) - return NaN; - dateString = newPosStr; - - if (second < 0 || second > 59) - return NaN; - } - - skipSpacesAndComments(dateString); - - if (strncasecmp(dateString, "AM", 2) == 0) { - if (hour > 12) - return NaN; - if (hour == 12) - hour = 0; - dateString += 2; - skipSpacesAndComments(dateString); - } else if (strncasecmp(dateString, "PM", 2) == 0) { - if (hour > 12) - return NaN; - if (hour != 12) - hour += 12; - dateString += 2; - skipSpacesAndComments(dateString); - } - } - } - - // The year may be after the time but before the time zone, but don't - // confuse a time zone specificed as an offset from UTC (e.g. +0100) with a - // four-digit year. - if (year <= 0 && *dateString != '+' && *dateString != '-') { - if (!parseLong(dateString, &newPosStr, 10, &year)) - year = 0; - dateString = newPosStr; - skipSpacesAndComments(dateString); - } - - // Don't fail if the time zone is missing. - // Some websites omit the time zone (4275206). - if (*dateString) { - if (strncasecmp(dateString, "GMT", 3) == 0 || strncasecmp(dateString, "UTC", 3) == 0) { - dateString += 3; - haveTZ = true; - } - - if (*dateString == '+' || *dateString == '-') { - long o; - if (!parseLong(dateString, &newPosStr, 10, &o)) - return NaN; - dateString = newPosStr; - - if (o < -9959 || o > 9959) - return NaN; - - int sgn = (o < 0) ? -1 : 1; - o = labs(o); - if (*dateString != ':') { - offset = ((o / 100) * 60 + (o % 100)) * sgn; - } else { // GMT+05:00 - long o2; - if (!parseLong(dateString, &newPosStr, 10, &o2)) - return NaN; - dateString = newPosStr; - offset = (o * 60 + o2) * sgn; - } - haveTZ = true; - } else { - for (size_t i = 0; i < WTF_ARRAY_LENGTH(known_zones); ++i) { - if (0 == strncasecmp(dateString, known_zones[i].tzName, strlen(known_zones[i].tzName))) { - offset = known_zones[i].tzOffset; - dateString += strlen(known_zones[i].tzName); - haveTZ = true; - break; - } - } - } - } - - skipSpacesAndComments(dateString); - - if (*dateString && year == -1) { - if (!parseLong(dateString, &newPosStr, 10, &year)) - return NaN; - dateString = newPosStr; - } - - skipSpacesAndComments(dateString); - - // Trailing garbage - if (*dateString) - return NaN; - - // Y2K: Handle 2 digit years. - if (year >= 0 && year < 100) { - if (year < 50) - year += 2000; - else - year += 1900; - } - - return ymdhmsToSeconds(year, month + 1, day, hour, minute, second) * msPerSecond; -} - -double parseDateFromNullTerminatedCharacters(const char* dateString) -{ - bool haveTZ; - int offset; - double ms = parseDateFromNullTerminatedCharacters(dateString, haveTZ, offset); - if (isnan(ms)) - return NaN; - - // fall back to local timezone - if (!haveTZ) { - double utcOffset = calculateUTCOffset(); - double dstOffset = calculateDSTOffset(ms, utcOffset); - offset = static_cast((utcOffset + dstOffset) / msPerMinute); - } - return ms - (offset * msPerMinute); -} - -double timeClip(double t) -{ - if (!isfinite(t)) - return NaN; - if (fabs(t) > maxECMAScriptTime) - return NaN; - return trunc(t); -} -} // namespace WTF - -#if USE(JSC) -namespace JSC { - -// Get the DST offset for the time passed in. -// -// NOTE: The implementation relies on the fact that no time zones have -// more than one daylight savings offset change per month. -// If this function is called with NaN it returns NaN. -static double getDSTOffset(ExecState* exec, double ms, double utcOffset) -{ - DSTOffsetCache& cache = exec->globalData().dstOffsetCache; - double start = cache.start; - double end = cache.end; - - if (start <= ms) { - // If the time fits in the cached interval, return the cached offset. - if (ms <= end) return cache.offset; - - // Compute a possible new interval end. - double newEnd = end + cache.increment; - - if (ms <= newEnd) { - double endOffset = calculateDSTOffset(newEnd, utcOffset); - if (cache.offset == endOffset) { - // If the offset at the end of the new interval still matches - // the offset in the cache, we grow the cached time interval - // and return the offset. - cache.end = newEnd; - cache.increment = msPerMonth; - return endOffset; - } else { - double offset = calculateDSTOffset(ms, utcOffset); - if (offset == endOffset) { - // The offset at the given time is equal to the offset at the - // new end of the interval, so that means that we've just skipped - // the point in time where the DST offset change occurred. Updated - // the interval to reflect this and reset the increment. - cache.start = ms; - cache.end = newEnd; - cache.increment = msPerMonth; - } else { - // The interval contains a DST offset change and the given time is - // before it. Adjust the increment to avoid a linear search for - // the offset change point and change the end of the interval. - cache.increment /= 3; - cache.end = ms; - } - // Update the offset in the cache and return it. - cache.offset = offset; - return offset; - } - } - } - - // Compute the DST offset for the time and shrink the cache interval - // to only contain the time. This allows fast repeated DST offset - // computations for the same time. - double offset = calculateDSTOffset(ms, utcOffset); - cache.offset = offset; - cache.start = ms; - cache.end = ms; - cache.increment = msPerMonth; - return offset; -} - -/* - * Get the difference in milliseconds between this time zone and UTC (GMT) - * NOT including DST. - */ -double getUTCOffset(ExecState* exec) -{ - double utcOffset = exec->globalData().cachedUTCOffset; - if (!isnan(utcOffset)) - return utcOffset; - exec->globalData().cachedUTCOffset = calculateUTCOffset(); - return exec->globalData().cachedUTCOffset; -} - -double gregorianDateTimeToMS(ExecState* exec, const GregorianDateTime& t, double milliSeconds, bool inputIsUTC) -{ - double day = dateToDaysFrom1970(t.year + 1900, t.month, t.monthDay); - double ms = timeToMS(t.hour, t.minute, t.second, milliSeconds); - double result = (day * WTF::msPerDay) + ms; - - if (!inputIsUTC) { // convert to UTC - double utcOffset = getUTCOffset(exec); - result -= utcOffset; - result -= getDSTOffset(exec, result, utcOffset); - } - - return result; -} - -// input is UTC -void msToGregorianDateTime(ExecState* exec, double ms, bool outputIsUTC, GregorianDateTime& tm) -{ - double dstOff = 0.0; - double utcOff = 0.0; - if (!outputIsUTC) { - utcOff = getUTCOffset(exec); - dstOff = getDSTOffset(exec, ms, utcOff); - ms += dstOff + utcOff; - } - - const int year = msToYear(ms); - tm.second = msToSeconds(ms); - tm.minute = msToMinutes(ms); - tm.hour = msToHours(ms); - tm.weekDay = msToWeekDay(ms); - tm.yearDay = dayInYear(ms, year); - tm.monthDay = dayInMonthFromDayInYear(tm.yearDay, isLeapYear(year)); - tm.month = monthFromDayInYear(tm.yearDay, isLeapYear(year)); - tm.year = year - 1900; - tm.isDST = dstOff != 0.0; - tm.utcOffset = static_cast((dstOff + utcOff) / WTF::msPerSecond); - tm.timeZone = nullptr; -} - -double parseDateFromNullTerminatedCharacters(ExecState* exec, const char* dateString) -{ - ASSERT(exec); - bool haveTZ; - int offset; - double ms = WTF::parseDateFromNullTerminatedCharacters(dateString, haveTZ, offset); - if (isnan(ms)) - return NaN; - - // fall back to local timezone - if (!haveTZ) { - double utcOffset = getUTCOffset(exec); - double dstOffset = getDSTOffset(exec, ms, utcOffset); - offset = static_cast((utcOffset + dstOffset) / WTF::msPerMinute); - } - return ms - (offset * WTF::msPerMinute); -} - -} // namespace JSC -#endif // USE(JSC)