/////////////////////////////////////////////////////////////////////////////// // Name: src/common/datetime.cpp // Purpose: implementation of time/date related classes // (for formatting&parsing see datetimefmt.cpp) // Author: Vadim Zeitlin // Modified by: // Created: 11.05.99 // Copyright: (c) 1999 Vadim Zeitlin // parts of code taken from sndcal library by Scott E. Lee: // // Copyright 1993-1995, Scott E. Lee, all rights reserved. // Permission granted to use, copy, modify, distribute and sell // so long as the above copyright and this permission statement // are retained in all copies. // // Licence: wxWindows licence /////////////////////////////////////////////////////////////////////////////// /* * Implementation notes: * * 1. the time is stored as a 64bit integer containing the signed number of * milliseconds since Jan 1. 1970 (the Unix Epoch) - so it is always * expressed in GMT. * * 2. the range is thus something about 580 million years, but due to current * algorithms limitations, only dates from Nov 24, 4714BC are handled * * 3. standard ANSI C functions are used to do time calculations whenever * possible, i.e. when the date is in the range Jan 1, 1970 to 2038 * * 4. otherwise, the calculations are done by converting the date to/from JDN * first (the range limitation mentioned above comes from here: the * algorithm used by Scott E. Lee's code only works for positive JDNs, more * or less) * * 5. the object constructed for the given DD-MM-YYYY HH:MM:SS corresponds to * this moment in local time and may be converted to the object * corresponding to the same date/time in another time zone by using * ToTimezone() * * 6. the conversions to the current (or any other) timezone are done when the * internal time representation is converted to the broken-down one in * wxDateTime::Tm. */ // ============================================================================ // declarations // ============================================================================ // ---------------------------------------------------------------------------- // headers // ---------------------------------------------------------------------------- // For compilers that support precompilation, includes "wx.h". #include "wx/wxprec.h" #ifdef __BORLANDC__ #pragma hdrstop #endif #if !defined(wxUSE_DATETIME) || wxUSE_DATETIME #ifndef WX_PRECOMP #ifdef __WINDOWS__ #include "wx/msw/wrapwin.h" #endif #include "wx/string.h" #include "wx/log.h" #include "wx/intl.h" #include "wx/stopwatch.h" // for wxGetLocalTimeMillis() #include "wx/module.h" #include "wx/crt.h" #endif // WX_PRECOMP #include "wx/thread.h" #include "wx/time.h" #include "wx/tokenzr.h" #include #ifdef __WINDOWS__ #include #ifndef __WXWINCE__ #include #endif #endif #include "wx/datetime.h" // ---------------------------------------------------------------------------- // wxXTI // ---------------------------------------------------------------------------- #if wxUSE_EXTENDED_RTTI template<> void wxStringReadValue(const wxString &s , wxDateTime &data ) { data.ParseFormat(s,"%Y-%m-%d %H:%M:%S", NULL); } template<> void wxStringWriteValue(wxString &s , const wxDateTime &data ) { s = data.Format("%Y-%m-%d %H:%M:%S"); } wxCUSTOM_TYPE_INFO(wxDateTime, wxToStringConverter , wxFromStringConverter) #endif // wxUSE_EXTENDED_RTTI // ---------------------------------------------------------------------------- // macros // ---------------------------------------------------------------------------- // debugging helper: just a convenient replacement of wxCHECK() #define wxDATETIME_CHECK(expr, msg) \ wxCHECK2_MSG(expr, *this = wxInvalidDateTime; return *this, msg) // ---------------------------------------------------------------------------- // private classes // ---------------------------------------------------------------------------- class wxDateTimeHolidaysModule : public wxModule { public: virtual bool OnInit() { wxDateTimeHolidayAuthority::AddAuthority(new wxDateTimeWorkDays); return true; } virtual void OnExit() { wxDateTimeHolidayAuthority::ClearAllAuthorities(); wxDateTimeHolidayAuthority::ms_authorities.clear(); } private: DECLARE_DYNAMIC_CLASS(wxDateTimeHolidaysModule) }; IMPLEMENT_DYNAMIC_CLASS(wxDateTimeHolidaysModule, wxModule) // ---------------------------------------------------------------------------- // constants // ---------------------------------------------------------------------------- // some trivial ones static const int MONTHS_IN_YEAR = 12; static const int SEC_PER_MIN = 60; static const int MIN_PER_HOUR = 60; static const long SECONDS_PER_DAY = 86400l; static const int DAYS_PER_WEEK = 7; static const long MILLISECONDS_PER_DAY = 86400000l; // this is the integral part of JDN of the midnight of Jan 1, 1970 // (i.e. JDN(Jan 1, 1970) = 2440587.5) static const long EPOCH_JDN = 2440587l; // these values are only used in asserts so don't define them if asserts are // disabled to avoid warnings about unused static variables #if wxDEBUG_LEVEL // the date of JDN -0.5 (as we don't work with fractional parts, this is the // reference date for us) is Nov 24, 4714BC static const int JDN_0_YEAR = -4713; static const int JDN_0_MONTH = wxDateTime::Nov; static const int JDN_0_DAY = 24; #endif // wxDEBUG_LEVEL // the constants used for JDN calculations static const long JDN_OFFSET = 32046l; static const long DAYS_PER_5_MONTHS = 153l; static const long DAYS_PER_4_YEARS = 1461l; static const long DAYS_PER_400_YEARS = 146097l; // this array contains the cumulated number of days in all previous months for // normal and leap years static const wxDateTime::wxDateTime_t gs_cumulatedDays[2][MONTHS_IN_YEAR] = { { 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334 }, { 0, 31, 60, 91, 121, 152, 182, 213, 244, 274, 305, 335 } }; const long wxDateTime::TIME_T_FACTOR = 1000l; // ---------------------------------------------------------------------------- // global data // ---------------------------------------------------------------------------- const char wxDefaultDateTimeFormat[] = "%c"; const char wxDefaultTimeSpanFormat[] = "%H:%M:%S"; // in the fine tradition of ANSI C we use our equivalent of (time_t)-1 to // indicate an invalid wxDateTime object const wxDateTime wxDefaultDateTime; wxDateTime::Country wxDateTime::ms_country = wxDateTime::Country_Unknown; // ---------------------------------------------------------------------------- // private functions // ---------------------------------------------------------------------------- // debugger helper: this function can be called from a debugger to show what // the date really is extern const char *wxDumpDate(const wxDateTime* dt) { static char buf[128]; wxString fmt(dt->Format("%Y-%m-%d (%a) %H:%M:%S")); wxStrlcpy(buf, (fmt + " (" + dt->GetValue().ToString() + " ticks)").ToAscii(), WXSIZEOF(buf)); return buf; } // get the number of days in the given month of the given year static inline wxDateTime::wxDateTime_t GetNumOfDaysInMonth(int year, wxDateTime::Month month) { // the number of days in month in Julian/Gregorian calendar: the first line // is for normal years, the second one is for the leap ones static const wxDateTime::wxDateTime_t daysInMonth[2][MONTHS_IN_YEAR] = { { 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }, { 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 } }; return daysInMonth[wxDateTime::IsLeapYear(year)][month]; } // return the integral part of the JDN for the midnight of the given date (to // get the real JDN you need to add 0.5, this is, in fact, JDN of the // noon of the previous day) static long GetTruncatedJDN(wxDateTime::wxDateTime_t day, wxDateTime::Month mon, int year) { // CREDIT: code below is by Scott E. Lee (but bugs are mine) // check the date validity wxASSERT_MSG( (year > JDN_0_YEAR) || ((year == JDN_0_YEAR) && (mon > JDN_0_MONTH)) || ((year == JDN_0_YEAR) && (mon == JDN_0_MONTH) && (day >= JDN_0_DAY)), wxT("date out of range - can't convert to JDN") ); // make the year positive to avoid problems with negative numbers division year += 4800; // months are counted from March here int month; if ( mon >= wxDateTime::Mar ) { month = mon - 2; } else { month = mon + 10; year--; } // now we can simply add all the contributions together return ((year / 100) * DAYS_PER_400_YEARS) / 4 + ((year % 100) * DAYS_PER_4_YEARS) / 4 + (month * DAYS_PER_5_MONTHS + 2) / 5 + day - JDN_OFFSET; } #ifdef wxHAS_STRFTIME // this function is a wrapper around strftime(3) adding error checking // NOTE: not static because used by datetimefmt.cpp wxString CallStrftime(const wxString& format, const tm* tm) { wxChar buf[4096]; // Create temp wxString here to work around mingw/cygwin bug 1046059 // http://sourceforge.net/tracker/?func=detail&atid=102435&aid=1046059&group_id=2435 wxString s; if ( !wxStrftime(buf, WXSIZEOF(buf), format, tm) ) { // There is one special case in which strftime() can return 0 without // indicating an error: "%p" may give empty string depending on the // locale, so check for it explicitly. Apparently it's really the only // exception. if ( format != wxS("%p") ) { // if the format is valid, buffer must be too small? wxFAIL_MSG(wxT("strftime() failed")); } buf[0] = '\0'; } s = buf; return s; } #endif // wxHAS_STRFTIME // if year and/or month have invalid values, replace them with the current ones static void ReplaceDefaultYearMonthWithCurrent(int *year, wxDateTime::Month *month) { struct tm *tmNow = NULL; struct tm tmstruct; if ( *year == wxDateTime::Inv_Year ) { tmNow = wxDateTime::GetTmNow(&tmstruct); *year = 1900 + tmNow->tm_year; } if ( *month == wxDateTime::Inv_Month ) { if ( !tmNow ) tmNow = wxDateTime::GetTmNow(&tmstruct); *month = (wxDateTime::Month)tmNow->tm_mon; } } // fill the struct tm with default values // NOTE: not static because used by datetimefmt.cpp void InitTm(struct tm& tm) { // struct tm may have etxra fields (undocumented and with unportable // names) which, nevertheless, must be set to 0 memset(&tm, 0, sizeof(struct tm)); tm.tm_mday = 1; // mday 0 is invalid tm.tm_year = 76; // any valid year tm.tm_isdst = -1; // auto determine } // ============================================================================ // implementation of wxDateTime // ============================================================================ // ---------------------------------------------------------------------------- // struct Tm // ---------------------------------------------------------------------------- wxDateTime::Tm::Tm() { year = (wxDateTime_t)wxDateTime::Inv_Year; mon = wxDateTime::Inv_Month; mday = yday = 0; hour = min = sec = msec = 0; wday = wxDateTime::Inv_WeekDay; } wxDateTime::Tm::Tm(const struct tm& tm, const TimeZone& tz) : m_tz(tz) { msec = 0; sec = (wxDateTime::wxDateTime_t)tm.tm_sec; min = (wxDateTime::wxDateTime_t)tm.tm_min; hour = (wxDateTime::wxDateTime_t)tm.tm_hour; mday = (wxDateTime::wxDateTime_t)tm.tm_mday; mon = (wxDateTime::Month)tm.tm_mon; year = 1900 + tm.tm_year; wday = (wxDateTime::wxDateTime_t)tm.tm_wday; yday = (wxDateTime::wxDateTime_t)tm.tm_yday; } bool wxDateTime::Tm::IsValid() const { if ( mon == wxDateTime::Inv_Month ) return false; // We need to check this here to avoid crashing in GetNumOfDaysInMonth() if // somebody passed us "(wxDateTime::Month)1000". wxCHECK_MSG( mon >= wxDateTime::Jan && mon < wxDateTime::Inv_Month, false, wxS("Invalid month value") ); // we allow for the leap seconds, although we don't use them (yet) return (year != wxDateTime::Inv_Year) && (mon != wxDateTime::Inv_Month) && (mday > 0 && mday <= GetNumOfDaysInMonth(year, mon)) && (hour < 24) && (min < 60) && (sec < 62) && (msec < 1000); } void wxDateTime::Tm::ComputeWeekDay() { // compute the week day from day/month/year: we use the dumbest algorithm // possible: just compute our JDN and then use the (simple to derive) // formula: weekday = (JDN + 1.5) % 7 wday = (wxDateTime::wxDateTime_t)((GetTruncatedJDN(mday, mon, year) + 2) % 7); } void wxDateTime::Tm::AddMonths(int monDiff) { // normalize the months field while ( monDiff < -mon ) { year--; monDiff += MONTHS_IN_YEAR; } while ( monDiff + mon >= MONTHS_IN_YEAR ) { year++; monDiff -= MONTHS_IN_YEAR; } mon = (wxDateTime::Month)(mon + monDiff); wxASSERT_MSG( mon >= 0 && mon < MONTHS_IN_YEAR, wxT("logic error") ); // NB: we don't check here that the resulting date is valid, this function // is private and the caller must check it if needed } void wxDateTime::Tm::AddDays(int dayDiff) { // normalize the days field while ( dayDiff + mday < 1 ) { AddMonths(-1); dayDiff += GetNumOfDaysInMonth(year, mon); } mday = (wxDateTime::wxDateTime_t)( mday + dayDiff ); while ( mday > GetNumOfDaysInMonth(year, mon) ) { mday -= GetNumOfDaysInMonth(year, mon); AddMonths(1); } wxASSERT_MSG( mday > 0 && mday <= GetNumOfDaysInMonth(year, mon), wxT("logic error") ); } // ---------------------------------------------------------------------------- // class TimeZone // ---------------------------------------------------------------------------- wxDateTime::TimeZone::TimeZone(wxDateTime::TZ tz) { switch ( tz ) { case wxDateTime::Local: // get the offset from C RTL: it returns the difference GMT-local // while we want to have the offset _from_ GMT, hence the '-' m_offset = -wxGetTimeZone(); break; case wxDateTime::GMT_12: case wxDateTime::GMT_11: case wxDateTime::GMT_10: case wxDateTime::GMT_9: case wxDateTime::GMT_8: case wxDateTime::GMT_7: case wxDateTime::GMT_6: case wxDateTime::GMT_5: case wxDateTime::GMT_4: case wxDateTime::GMT_3: case wxDateTime::GMT_2: case wxDateTime::GMT_1: m_offset = -3600*(wxDateTime::GMT0 - tz); break; case wxDateTime::GMT0: case wxDateTime::GMT1: case wxDateTime::GMT2: case wxDateTime::GMT3: case wxDateTime::GMT4: case wxDateTime::GMT5: case wxDateTime::GMT6: case wxDateTime::GMT7: case wxDateTime::GMT8: case wxDateTime::GMT9: case wxDateTime::GMT10: case wxDateTime::GMT11: case wxDateTime::GMT12: case wxDateTime::GMT13: m_offset = 3600*(tz - wxDateTime::GMT0); break; case wxDateTime::A_CST: // Central Standard Time in use in Australia = UTC + 9.5 m_offset = 60l*(9*MIN_PER_HOUR + MIN_PER_HOUR/2); break; default: wxFAIL_MSG( wxT("unknown time zone") ); } } // ---------------------------------------------------------------------------- // static functions // ---------------------------------------------------------------------------- /* static */ struct tm *wxDateTime::GetTmNow(struct tm *tmstruct) { time_t t = GetTimeNow(); return wxLocaltime_r(&t, tmstruct); } /* static */ bool wxDateTime::IsLeapYear(int year, wxDateTime::Calendar cal) { if ( year == Inv_Year ) year = GetCurrentYear(); if ( cal == Gregorian ) { // in Gregorian calendar leap years are those divisible by 4 except // those divisible by 100 unless they're also divisible by 400 // (in some countries, like Russia and Greece, additional corrections // exist, but they won't manifest themselves until 2700) return (year % 4 == 0) && ((year % 100 != 0) || (year % 400 == 0)); } else if ( cal == Julian ) { // in Julian calendar the rule is simpler return year % 4 == 0; } else { wxFAIL_MSG(wxT("unknown calendar")); return false; } } /* static */ int wxDateTime::GetCentury(int year) { return year > 0 ? year / 100 : year / 100 - 1; } /* static */ int wxDateTime::ConvertYearToBC(int year) { // year 0 is BC 1 return year > 0 ? year : year - 1; } /* static */ int wxDateTime::GetCurrentYear(wxDateTime::Calendar cal) { switch ( cal ) { case Gregorian: return Now().GetYear(); case Julian: wxFAIL_MSG(wxT("TODO")); break; default: wxFAIL_MSG(wxT("unsupported calendar")); break; } return Inv_Year; } /* static */ wxDateTime::Month wxDateTime::GetCurrentMonth(wxDateTime::Calendar cal) { switch ( cal ) { case Gregorian: return Now().GetMonth(); case Julian: wxFAIL_MSG(wxT("TODO")); break; default: wxFAIL_MSG(wxT("unsupported calendar")); break; } return Inv_Month; } /* static */ wxDateTime::wxDateTime_t wxDateTime::GetNumberOfDays(int year, Calendar cal) { if ( year == Inv_Year ) { // take the current year if none given year = GetCurrentYear(); } switch ( cal ) { case Gregorian: case Julian: return IsLeapYear(year) ? 366 : 365; default: wxFAIL_MSG(wxT("unsupported calendar")); break; } return 0; } /* static */ wxDateTime::wxDateTime_t wxDateTime::GetNumberOfDays(wxDateTime::Month month, int year, wxDateTime::Calendar cal) { wxCHECK_MSG( month < MONTHS_IN_YEAR, 0, wxT("invalid month") ); if ( cal == Gregorian || cal == Julian ) { if ( year == Inv_Year ) { // take the current year if none given year = GetCurrentYear(); } return GetNumOfDaysInMonth(year, month); } else { wxFAIL_MSG(wxT("unsupported calendar")); return 0; } } namespace { // helper function used by GetEnglish/WeekDayName(): returns 0 if flags is // Name_Full and 1 if it is Name_Abbr or -1 if the flags is incorrect (and // asserts in this case) // // the return value of this function is used as an index into 2D array // containing full names in its first row and abbreviated ones in the 2nd one int NameArrayIndexFromFlag(wxDateTime::NameFlags flags) { switch ( flags ) { case wxDateTime::Name_Full: return 0; case wxDateTime::Name_Abbr: return 1; default: wxFAIL_MSG( "unknown wxDateTime::NameFlags value" ); } return -1; } } // anonymous namespace /* static */ wxString wxDateTime::GetEnglishMonthName(Month month, NameFlags flags) { wxCHECK_MSG( month != Inv_Month, wxEmptyString, "invalid month" ); static const char *const monthNames[2][MONTHS_IN_YEAR] = { { "January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December" }, { "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" } }; const int idx = NameArrayIndexFromFlag(flags); if ( idx == -1 ) return wxString(); return monthNames[idx][month]; } /* static */ wxString wxDateTime::GetMonthName(wxDateTime::Month month, wxDateTime::NameFlags flags) { #ifdef wxHAS_STRFTIME wxCHECK_MSG( month != Inv_Month, wxEmptyString, wxT("invalid month") ); // notice that we must set all the fields to avoid confusing libc (GNU one // gets confused to a crash if we don't do this) tm tm; InitTm(tm); tm.tm_mon = month; return CallStrftime(flags == Name_Abbr ? wxT("%b") : wxT("%B"), &tm); #else // !wxHAS_STRFTIME return GetEnglishMonthName(month, flags); #endif // wxHAS_STRFTIME/!wxHAS_STRFTIME } /* static */ wxString wxDateTime::GetEnglishWeekDayName(WeekDay wday, NameFlags flags) { wxCHECK_MSG( wday != Inv_WeekDay, wxEmptyString, wxT("invalid weekday") ); static const char *const weekdayNames[2][DAYS_PER_WEEK] = { { "Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday" }, { "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat" }, }; const int idx = NameArrayIndexFromFlag(flags); if ( idx == -1 ) return wxString(); return weekdayNames[idx][wday]; } /* static */ wxString wxDateTime::GetWeekDayName(wxDateTime::WeekDay wday, wxDateTime::NameFlags flags) { #ifdef wxHAS_STRFTIME wxCHECK_MSG( wday != Inv_WeekDay, wxEmptyString, wxT("invalid weekday") ); // take some arbitrary Sunday (but notice that the day should be such that // after adding wday to it below we still have a valid date, e.g. don't // take 28 here!) tm tm; InitTm(tm); tm.tm_mday = 21; tm.tm_mon = Nov; tm.tm_year = 99; // and offset it by the number of days needed to get the correct wday tm.tm_mday += wday; // call mktime() to normalize it... (void)mktime(&tm); // ... and call strftime() return CallStrftime(flags == Name_Abbr ? wxT("%a") : wxT("%A"), &tm); #else // !wxHAS_STRFTIME return GetEnglishWeekDayName(wday, flags); #endif // wxHAS_STRFTIME/!wxHAS_STRFTIME } /* static */ void wxDateTime::GetAmPmStrings(wxString *am, wxString *pm) { tm tm; InitTm(tm); wxChar buffer[64]; // @Note: Do not call 'CallStrftime' here! CallStrftime checks the return code // and causes an assertion failed if the buffer is to small (which is good) - OR - // if strftime does not return anything because the format string is invalid - OR - // if there are no 'am' / 'pm' tokens defined for the current locale (which is not good). // wxDateTime::ParseTime will try several different formats to parse the time. // As a result, GetAmPmStrings might get called, even if the current locale // does not define any 'am' / 'pm' tokens. In this case, wxStrftime would // assert, even though it is a perfectly legal use. if ( am ) { if (wxStrftime(buffer, WXSIZEOF(buffer), wxT("%p"), &tm) > 0) *am = wxString(buffer); else *am = wxString(); } if ( pm ) { tm.tm_hour = 13; if (wxStrftime(buffer, WXSIZEOF(buffer), wxT("%p"), &tm) > 0) *pm = wxString(buffer); else *pm = wxString(); } } // ---------------------------------------------------------------------------- // Country stuff: date calculations depend on the country (DST, work days, // ...), so we need to know which rules to follow. // ---------------------------------------------------------------------------- /* static */ wxDateTime::Country wxDateTime::GetCountry() { // TODO use LOCALE_ICOUNTRY setting under Win32 #ifndef __WXWINCE__ if ( ms_country == Country_Unknown ) { // try to guess from the time zone name time_t t = time(NULL); struct tm tmstruct; struct tm *tm = wxLocaltime_r(&t, &tmstruct); wxString tz = CallStrftime(wxT("%Z"), tm); if ( tz == wxT("WET") || tz == wxT("WEST") ) { ms_country = UK; } else if ( tz == wxT("CET") || tz == wxT("CEST") ) { ms_country = Country_EEC; } else if ( tz == wxT("MSK") || tz == wxT("MSD") ) { ms_country = Russia; } else if ( tz == wxT("AST") || tz == wxT("ADT") || tz == wxT("EST") || tz == wxT("EDT") || tz == wxT("CST") || tz == wxT("CDT") || tz == wxT("MST") || tz == wxT("MDT") || tz == wxT("PST") || tz == wxT("PDT") ) { ms_country = USA; } else { // well, choose a default one ms_country = USA; } } #else // __WXWINCE__ ms_country = USA; #endif // !__WXWINCE__/__WXWINCE__ return ms_country; } /* static */ void wxDateTime::SetCountry(wxDateTime::Country country) { ms_country = country; } /* static */ bool wxDateTime::IsWestEuropeanCountry(Country country) { if ( country == Country_Default ) { country = GetCountry(); } return (Country_WesternEurope_Start <= country) && (country <= Country_WesternEurope_End); } // ---------------------------------------------------------------------------- // DST calculations: we use 3 different rules for the West European countries, // USA and for the rest of the world. This is undoubtedly false for many // countries, but I lack the necessary info (and the time to gather it), // please add the other rules here! // ---------------------------------------------------------------------------- /* static */ bool wxDateTime::IsDSTApplicable(int year, Country country) { if ( year == Inv_Year ) { // take the current year if none given year = GetCurrentYear(); } if ( country == Country_Default ) { country = GetCountry(); } switch ( country ) { case USA: case UK: // DST was first observed in the US and UK during WWI, reused // during WWII and used again since 1966 return year >= 1966 || (year >= 1942 && year <= 1945) || (year == 1918 || year == 1919); default: // assume that it started after WWII return year > 1950; } } /* static */ wxDateTime wxDateTime::GetBeginDST(int year, Country country) { if ( year == Inv_Year ) { // take the current year if none given year = GetCurrentYear(); } if ( country == Country_Default ) { country = GetCountry(); } if ( !IsDSTApplicable(year, country) ) { return wxInvalidDateTime; } wxDateTime dt; if ( IsWestEuropeanCountry(country) || (country == Russia) ) { // DST begins at 1 a.m. GMT on the last Sunday of March if ( !dt.SetToLastWeekDay(Sun, Mar, year) ) { // weird... wxFAIL_MSG( wxT("no last Sunday in March?") ); } dt += wxTimeSpan::Hours(1); } else switch ( country ) { case USA: switch ( year ) { case 1918: case 1919: // don't know for sure - assume it was in effect all year case 1943: case 1944: case 1945: dt.Set(1, Jan, year); break; case 1942: // DST was installed Feb 2, 1942 by the Congress dt.Set(2, Feb, year); break; // Oil embargo changed the DST period in the US case 1974: dt.Set(6, Jan, 1974); break; case 1975: dt.Set(23, Feb, 1975); break; default: // before 1986, DST begun on the last Sunday of April, but // in 1986 Reagan changed it to begin at 2 a.m. of the // first Sunday in April if ( year < 1986 ) { if ( !dt.SetToLastWeekDay(Sun, Apr, year) ) { // weird... wxFAIL_MSG( wxT("no first Sunday in April?") ); } } else if ( year > 2006 ) // Energy Policy Act of 2005, Pub. L. no. 109-58, 119 Stat 594 (2005). // Starting in 2007, daylight time begins in the United States on the // second Sunday in March and ends on the first Sunday in November { if ( !dt.SetToWeekDay(Sun, 2, Mar, year) ) { // weird... wxFAIL_MSG( wxT("no second Sunday in March?") ); } } else { if ( !dt.SetToWeekDay(Sun, 1, Apr, year) ) { // weird... wxFAIL_MSG( wxT("no first Sunday in April?") ); } } dt += wxTimeSpan::Hours(2); // TODO what about timezone?? } break; default: // assume Mar 30 as the start of the DST for the rest of the world // - totally bogus, of course dt.Set(30, Mar, year); } return dt; } /* static */ wxDateTime wxDateTime::GetEndDST(int year, Country country) { if ( year == Inv_Year ) { // take the current year if none given year = GetCurrentYear(); } if ( country == Country_Default ) { country = GetCountry(); } if ( !IsDSTApplicable(year, country) ) { return wxInvalidDateTime; } wxDateTime dt; if ( IsWestEuropeanCountry(country) || (country == Russia) ) { // DST ends at 1 a.m. GMT on the last Sunday of October if ( !dt.SetToLastWeekDay(Sun, Oct, year) ) { // weirder and weirder... wxFAIL_MSG( wxT("no last Sunday in October?") ); } dt += wxTimeSpan::Hours(1); } else switch ( country ) { case USA: switch ( year ) { case 1918: case 1919: // don't know for sure - assume it was in effect all year case 1943: case 1944: dt.Set(31, Dec, year); break; case 1945: // the time was reset after the end of the WWII dt.Set(30, Sep, year); break; default: // default for switch (year) if ( year > 2006 ) // Energy Policy Act of 2005, Pub. L. no. 109-58, 119 Stat 594 (2005). // Starting in 2007, daylight time begins in the United States on the // second Sunday in March and ends on the first Sunday in November { if ( !dt.SetToWeekDay(Sun, 1, Nov, year) ) { // weird... wxFAIL_MSG( wxT("no first Sunday in November?") ); } } else // pre-2007 // DST ends at 2 a.m. on the last Sunday of October { if ( !dt.SetToLastWeekDay(Sun, Oct, year) ) { // weirder and weirder... wxFAIL_MSG( wxT("no last Sunday in October?") ); } } dt += wxTimeSpan::Hours(2); // TODO: what about timezone?? } break; default: // default for switch (country) // assume October 26th as the end of the DST - totally bogus too dt.Set(26, Oct, year); } return dt; } // ---------------------------------------------------------------------------- // constructors and assignment operators // ---------------------------------------------------------------------------- // return the current time with ms precision /* static */ wxDateTime wxDateTime::UNow() { return wxDateTime(wxGetUTCTimeMillis()); } // the values in the tm structure contain the local time wxDateTime& wxDateTime::Set(const struct tm& tm) { struct tm tm2(tm); time_t timet = mktime(&tm2); if ( timet == (time_t)-1 ) { // mktime() rather unintuitively fails for Jan 1, 1970 if the hour is // less than timezone - try to make it work for this case if ( tm2.tm_year == 70 && tm2.tm_mon == 0 && tm2.tm_mday == 1 ) { return Set((time_t)( wxGetTimeZone() + tm2.tm_hour * MIN_PER_HOUR * SEC_PER_MIN + tm2.tm_min * SEC_PER_MIN + tm2.tm_sec)); } wxFAIL_MSG( wxT("mktime() failed") ); *this = wxInvalidDateTime; return *this; } // mktime() only adjusts tm_wday, tm_yday and tm_isdst fields normally, if // it changed anything else, it must have performed the DST adjustment. But // the trouble with this is that different implementations do it // differently, e.g. GNU libc moves the time forward if the specified time // is invalid in the local time zone, while MSVC CRT moves it backwards // which is especially pernicious as it can change the date if the DST // starts at midnight, as it does in some time zones (see #15419), and this // is completely unexpected for the code working with dates only. // // So standardize on moving the time forwards to have consistent behaviour // under all platforms and to avoid the problem above. if ( tm2.tm_hour != tm.tm_hour ) { tm2 = tm; tm2.tm_hour++; if ( tm2.tm_hour == 24 ) { // This shouldn't normally happen as the DST never starts at 23:00 // but if it does, we have a problem as we need to adjust the day // as well. However we stop here, i.e. we don't adjust the month // (or the year) because mktime() is supposed to take care of this // for us. tm2.tm_hour = 0; tm2.tm_mday++; } timet = mktime(&tm2); } return Set(timet); } wxDateTime& wxDateTime::Set(wxDateTime_t hour, wxDateTime_t minute, wxDateTime_t second, wxDateTime_t millisec) { // we allow seconds to be 61 to account for the leap seconds, even if we // don't use them really wxDATETIME_CHECK( hour < 24 && second < 62 && minute < 60 && millisec < 1000, wxT("Invalid time in wxDateTime::Set()") ); // get the current date from system struct tm tmstruct; struct tm *tm = GetTmNow(&tmstruct); wxDATETIME_CHECK( tm, wxT("wxLocaltime_r() failed") ); // make a copy so it isn't clobbered by the call to mktime() below struct tm tm1(*tm); // adjust the time tm1.tm_hour = hour; tm1.tm_min = minute; tm1.tm_sec = second; // and the DST in case it changes on this date struct tm tm2(tm1); mktime(&tm2); if ( tm2.tm_isdst != tm1.tm_isdst ) tm1.tm_isdst = tm2.tm_isdst; (void)Set(tm1); // and finally adjust milliseconds return SetMillisecond(millisec); } wxDateTime& wxDateTime::Set(wxDateTime_t day, Month month, int year, wxDateTime_t hour, wxDateTime_t minute, wxDateTime_t second, wxDateTime_t millisec) { wxDATETIME_CHECK( hour < 24 && second < 62 && minute < 60 && millisec < 1000, wxT("Invalid time in wxDateTime::Set()") ); ReplaceDefaultYearMonthWithCurrent(&year, &month); wxDATETIME_CHECK( (0 < day) && (day <= GetNumberOfDays(month, year)), wxT("Invalid date in wxDateTime::Set()") ); // the range of time_t type (inclusive) static const int yearMinInRange = 1970; static const int yearMaxInRange = 2037; // test only the year instead of testing for the exact end of the Unix // time_t range - it doesn't bring anything to do more precise checks if ( year >= yearMinInRange && year <= yearMaxInRange ) { // use the standard library version if the date is in range - this is // probably more efficient than our code struct tm tm; tm.tm_year = year - 1900; tm.tm_mon = month; tm.tm_mday = day; tm.tm_hour = hour; tm.tm_min = minute; tm.tm_sec = second; tm.tm_isdst = -1; // mktime() will guess it (void)Set(tm); // and finally adjust milliseconds if (IsValid()) SetMillisecond(millisec); return *this; } else { // do time calculations ourselves: we want to calculate the number of // milliseconds between the given date and the epoch // get the JDN for the midnight of this day m_time = GetTruncatedJDN(day, month, year); m_time -= EPOCH_JDN; m_time *= SECONDS_PER_DAY * TIME_T_FACTOR; // JDN corresponds to GMT, we take localtime Add(wxTimeSpan(hour, minute, second + wxGetTimeZone(), millisec)); } return *this; } wxDateTime& wxDateTime::Set(double jdn) { // so that m_time will be 0 for the midnight of Jan 1, 1970 which is jdn // EPOCH_JDN + 0.5 jdn -= EPOCH_JDN + 0.5; m_time.Assign(jdn*MILLISECONDS_PER_DAY); // JDNs always are in UTC, so we don't need any adjustments for time zone return *this; } wxDateTime& wxDateTime::ResetTime() { Tm tm = GetTm(); if ( tm.hour || tm.min || tm.sec || tm.msec ) { tm.msec = tm.sec = tm.min = tm.hour = 0; Set(tm); } return *this; } wxDateTime wxDateTime::GetDateOnly() const { Tm tm = GetTm(); tm.msec = tm.sec = tm.min = tm.hour = 0; return wxDateTime(tm); } // ---------------------------------------------------------------------------- // DOS Date and Time Format functions // ---------------------------------------------------------------------------- // the dos date and time value is an unsigned 32 bit value in the format: // YYYYYYYMMMMDDDDDhhhhhmmmmmmsssss // // Y = year offset from 1980 (0-127) // M = month (1-12) // D = day of month (1-31) // h = hour (0-23) // m = minute (0-59) // s = bisecond (0-29) each bisecond indicates two seconds // ---------------------------------------------------------------------------- wxDateTime& wxDateTime::SetFromDOS(unsigned long ddt) { struct tm tm; InitTm(tm); long year = ddt & 0xFE000000; year >>= 25; year += 80; tm.tm_year = year; long month = ddt & 0x1E00000; month >>= 21; month -= 1; tm.tm_mon = month; long day = ddt & 0x1F0000; day >>= 16; tm.tm_mday = day; long hour = ddt & 0xF800; hour >>= 11; tm.tm_hour = hour; long minute = ddt & 0x7E0; minute >>= 5; tm.tm_min = minute; long second = ddt & 0x1F; tm.tm_sec = second * 2; return Set(mktime(&tm)); } unsigned long wxDateTime::GetAsDOS() const { unsigned long ddt; time_t ticks = GetTicks(); struct tm tmstruct; struct tm *tm = wxLocaltime_r(&ticks, &tmstruct); wxCHECK_MSG( tm, ULONG_MAX, wxT("time can't be represented in DOS format") ); long year = tm->tm_year; year -= 80; year <<= 25; long month = tm->tm_mon; month += 1; month <<= 21; long day = tm->tm_mday; day <<= 16; long hour = tm->tm_hour; hour <<= 11; long minute = tm->tm_min; minute <<= 5; long second = tm->tm_sec; second /= 2; ddt = year | month | day | hour | minute | second; return ddt; } // ---------------------------------------------------------------------------- // time_t <-> broken down time conversions // ---------------------------------------------------------------------------- wxDateTime::Tm wxDateTime::GetTm(const TimeZone& tz) const { wxASSERT_MSG( IsValid(), wxT("invalid wxDateTime") ); time_t time = GetTicks(); if ( time != (time_t)-1 ) { // use C RTL functions struct tm tmstruct; tm *tm; if ( tz.GetOffset() == -wxGetTimeZone() ) { // we are working with local time tm = wxLocaltime_r(&time, &tmstruct); // should never happen wxCHECK_MSG( tm, Tm(), wxT("wxLocaltime_r() failed") ); } else { time += (time_t)tz.GetOffset(); #if defined(__VMS__) || defined(__WATCOMC__) // time is unsigned so avoid warning int time2 = (int) time; if ( time2 >= 0 ) #else if ( time >= 0 ) #endif { tm = wxGmtime_r(&time, &tmstruct); // should never happen wxCHECK_MSG( tm, Tm(), wxT("wxGmtime_r() failed") ); } else { tm = (struct tm *)NULL; } } if ( tm ) { // adjust the milliseconds Tm tm2(*tm, tz); long timeOnly = (m_time % MILLISECONDS_PER_DAY).ToLong(); tm2.msec = (wxDateTime_t)(timeOnly % 1000); return tm2; } //else: use generic code below } // remember the time and do the calculations with the date only - this // eliminates rounding errors of the floating point arithmetics wxLongLong timeMidnight = m_time + tz.GetOffset() * 1000; long timeOnly = (timeMidnight % MILLISECONDS_PER_DAY).ToLong(); // we want to always have positive time and timeMidnight to be really // the midnight before it if ( timeOnly < 0 ) { timeOnly = MILLISECONDS_PER_DAY + timeOnly; } timeMidnight -= timeOnly; // calculate the Gregorian date from JDN for the midnight of our date: // this will yield day, month (in 1..12 range) and year // actually, this is the JDN for the noon of the previous day long jdn = (timeMidnight / MILLISECONDS_PER_DAY).ToLong() + EPOCH_JDN; // CREDIT: code below is by Scott E. Lee (but bugs are mine) wxASSERT_MSG( jdn > -2, wxT("JDN out of range") ); // calculate the century long temp = (jdn + JDN_OFFSET) * 4 - 1; long century = temp / DAYS_PER_400_YEARS; // then the year and day of year (1 <= dayOfYear <= 366) temp = ((temp % DAYS_PER_400_YEARS) / 4) * 4 + 3; long year = (century * 100) + (temp / DAYS_PER_4_YEARS); long dayOfYear = (temp % DAYS_PER_4_YEARS) / 4 + 1; // and finally the month and day of the month temp = dayOfYear * 5 - 3; long month = temp / DAYS_PER_5_MONTHS; long day = (temp % DAYS_PER_5_MONTHS) / 5 + 1; // month is counted from March - convert to normal if ( month < 10 ) { month += 3; } else { year += 1; month -= 9; } // year is offset by 4800 year -= 4800; // check that the algorithm gave us something reasonable wxASSERT_MSG( (0 < month) && (month <= 12), wxT("invalid month") ); wxASSERT_MSG( (1 <= day) && (day < 32), wxT("invalid day") ); // construct Tm from these values Tm tm; tm.year = (int)year; tm.yday = (wxDateTime_t)(dayOfYear - 1); // use C convention for day number tm.mon = (Month)(month - 1); // algorithm yields 1 for January, not 0 tm.mday = (wxDateTime_t)day; tm.msec = (wxDateTime_t)(timeOnly % 1000); timeOnly -= tm.msec; timeOnly /= 1000; // now we have time in seconds tm.sec = (wxDateTime_t)(timeOnly % SEC_PER_MIN); timeOnly -= tm.sec; timeOnly /= SEC_PER_MIN; // now we have time in minutes tm.min = (wxDateTime_t)(timeOnly % MIN_PER_HOUR); timeOnly -= tm.min; tm.hour = (wxDateTime_t)(timeOnly / MIN_PER_HOUR); return tm; } wxDateTime& wxDateTime::SetYear(int year) { wxASSERT_MSG( IsValid(), wxT("invalid wxDateTime") ); Tm tm(GetTm()); tm.year = year; Set(tm); return *this; } wxDateTime& wxDateTime::SetMonth(Month month) { wxASSERT_MSG( IsValid(), wxT("invalid wxDateTime") ); Tm tm(GetTm()); tm.mon = month; Set(tm); return *this; } wxDateTime& wxDateTime::SetDay(wxDateTime_t mday) { wxASSERT_MSG( IsValid(), wxT("invalid wxDateTime") ); Tm tm(GetTm()); tm.mday = mday; Set(tm); return *this; } wxDateTime& wxDateTime::SetHour(wxDateTime_t hour) { wxASSERT_MSG( IsValid(), wxT("invalid wxDateTime") ); Tm tm(GetTm()); tm.hour = hour; Set(tm); return *this; } wxDateTime& wxDateTime::SetMinute(wxDateTime_t min) { wxASSERT_MSG( IsValid(), wxT("invalid wxDateTime") ); Tm tm(GetTm()); tm.min = min; Set(tm); return *this; } wxDateTime& wxDateTime::SetSecond(wxDateTime_t sec) { wxASSERT_MSG( IsValid(), wxT("invalid wxDateTime") ); Tm tm(GetTm()); tm.sec = sec; Set(tm); return *this; } wxDateTime& wxDateTime::SetMillisecond(wxDateTime_t millisecond) { wxASSERT_MSG( IsValid(), wxT("invalid wxDateTime") ); // we don't need to use GetTm() for this one m_time -= m_time % 1000l; m_time += millisecond; return *this; } // ---------------------------------------------------------------------------- // wxDateTime arithmetics // ---------------------------------------------------------------------------- wxDateTime& wxDateTime::Add(const wxDateSpan& diff) { Tm tm(GetTm()); tm.year += diff.GetYears(); tm.AddMonths(diff.GetMonths()); // check that the resulting date is valid if ( tm.mday > GetNumOfDaysInMonth(tm.year, tm.mon) ) { // We suppose that when adding one month to Jan 31 we want to get Feb // 28 (or 29), i.e. adding a month to the last day of the month should // give the last day of the next month which is quite logical. // // Unfortunately, there is no logic way to understand what should // Jan 30 + 1 month be - Feb 28 too or Feb 27 (assuming non leap year)? // We make it Feb 28 (last day too), but it is highly questionable. tm.mday = GetNumOfDaysInMonth(tm.year, tm.mon); } tm.AddDays(diff.GetTotalDays()); Set(tm); wxASSERT_MSG( IsSameTime(tm), wxT("Add(wxDateSpan) shouldn't modify time") ); return *this; } wxDateSpan wxDateTime::DiffAsDateSpan(const wxDateTime& dt) const { wxASSERT_MSG( IsValid() && dt.IsValid(), wxT("invalid wxDateTime")); // If dt is larger than this, calculations below needs to be inverted. int inv = 1; if ( dt > *this ) inv = -1; int y = GetYear() - dt.GetYear(); int m = GetMonth() - dt.GetMonth(); int d = GetDay() - dt.GetDay(); // If month diff is negative, dt is the year before, so decrease year // and set month diff to its inverse, e.g. January - December should be 1, // not -11. if ( m * inv < 0 || (m == 0 && d * inv < 0)) { m += inv * MONTHS_IN_YEAR; y -= inv; } // Same logic for days as for months above. if ( d * inv < 0 ) { // Use number of days in month from the month which end date we're // crossing. That is month before this for positive diff, and this // month for negative diff. // If we're on january and using previous month, we get december // previous year, but don't care, december has same amount of days // every year. wxDateTime::Month monthfordays = GetMonth(); if (inv > 0 && monthfordays == wxDateTime::Jan) monthfordays = wxDateTime::Dec; else if (inv > 0) monthfordays = static_cast(monthfordays - 1); d += inv * wxDateTime::GetNumberOfDays(monthfordays, GetYear()); m -= inv; } int w = d / DAYS_PER_WEEK; // Remove weeks from d, since wxDateSpan only keep days as the ones // not in complete weeks d -= w * DAYS_PER_WEEK; return wxDateSpan(y, m, w, d); } // ---------------------------------------------------------------------------- // Weekday and monthday stuff // ---------------------------------------------------------------------------- // convert Sun, Mon, ..., Sat into 6, 0, ..., 5 static inline int ConvertWeekDayToMondayBase(int wd) { return wd == wxDateTime::Sun ? 6 : wd - 1; } /* static */ wxDateTime wxDateTime::SetToWeekOfYear(int year, wxDateTime_t numWeek, WeekDay wd) { wxASSERT_MSG( numWeek > 0, wxT("invalid week number: weeks are counted from 1") ); // Jan 4 always lies in the 1st week of the year wxDateTime dt(4, Jan, year); dt.SetToWeekDayInSameWeek(wd); dt += wxDateSpan::Weeks(numWeek - 1); return dt; } #if WXWIN_COMPATIBILITY_2_6 // use a separate function to avoid warnings about using deprecated // SetToTheWeek in GetWeek below static wxDateTime SetToTheWeek(int year, wxDateTime::wxDateTime_t numWeek, wxDateTime::WeekDay weekday, wxDateTime::WeekFlags flags) { // Jan 4 always lies in the 1st week of the year wxDateTime dt(4, wxDateTime::Jan, year); dt.SetToWeekDayInSameWeek(weekday, flags); dt += wxDateSpan::Weeks(numWeek - 1); return dt; } bool wxDateTime::SetToTheWeek(wxDateTime_t numWeek, WeekDay weekday, WeekFlags flags) { int year = GetYear(); *this = ::SetToTheWeek(year, numWeek, weekday, flags); if ( GetYear() != year ) { // oops... numWeek was too big return false; } return true; } wxDateTime wxDateTime::GetWeek(wxDateTime_t numWeek, WeekDay weekday, WeekFlags flags) const { return ::SetToTheWeek(GetYear(), numWeek, weekday, flags); } #endif // WXWIN_COMPATIBILITY_2_6 wxDateTime& wxDateTime::SetToLastMonthDay(Month month, int year) { // take the current month/year if none specified if ( year == Inv_Year ) year = GetYear(); if ( month == Inv_Month ) month = GetMonth(); return Set(GetNumOfDaysInMonth(year, month), month, year); } wxDateTime& wxDateTime::SetToWeekDayInSameWeek(WeekDay weekday, WeekFlags flags) { wxDATETIME_CHECK( weekday != Inv_WeekDay, wxT("invalid weekday") ); int wdayDst = weekday, wdayThis = GetWeekDay(); if ( wdayDst == wdayThis ) { // nothing to do return *this; } if ( flags == Default_First ) { flags = GetCountry() == USA ? Sunday_First : Monday_First; } // the logic below based on comparing weekday and wdayThis works if Sun (0) // is the first day in the week, but breaks down for Monday_First case so // we adjust the week days in this case if ( flags == Monday_First ) { if ( wdayThis == Sun ) wdayThis += 7; if ( wdayDst == Sun ) wdayDst += 7; } //else: Sunday_First, nothing to do // go forward or back in time to the day we want if ( wdayDst < wdayThis ) { return Subtract(wxDateSpan::Days(wdayThis - wdayDst)); } else // weekday > wdayThis { return Add(wxDateSpan::Days(wdayDst - wdayThis)); } } wxDateTime& wxDateTime::SetToNextWeekDay(WeekDay weekday) { wxDATETIME_CHECK( weekday != Inv_WeekDay, wxT("invalid weekday") ); int diff; WeekDay wdayThis = GetWeekDay(); if ( weekday == wdayThis ) { // nothing to do return *this; } else if ( weekday < wdayThis ) { // need to advance a week diff = 7 - (wdayThis - weekday); } else // weekday > wdayThis { diff = weekday - wdayThis; } return Add(wxDateSpan::Days(diff)); } wxDateTime& wxDateTime::SetToPrevWeekDay(WeekDay weekday) { wxDATETIME_CHECK( weekday != Inv_WeekDay, wxT("invalid weekday") ); int diff; WeekDay wdayThis = GetWeekDay(); if ( weekday == wdayThis ) { // nothing to do return *this; } else if ( weekday > wdayThis ) { // need to go to previous week diff = 7 - (weekday - wdayThis); } else // weekday < wdayThis { diff = wdayThis - weekday; } return Subtract(wxDateSpan::Days(diff)); } bool wxDateTime::SetToWeekDay(WeekDay weekday, int n, Month month, int year) { wxCHECK_MSG( weekday != Inv_WeekDay, false, wxT("invalid weekday") ); // we don't check explicitly that -5 <= n <= 5 because we will return false // anyhow in such case - but may be should still give an assert for it? // take the current month/year if none specified ReplaceDefaultYearMonthWithCurrent(&year, &month); wxDateTime dt; // TODO this probably could be optimised somehow... if ( n > 0 ) { // get the first day of the month dt.Set(1, month, year); // get its wday WeekDay wdayFirst = dt.GetWeekDay(); // go to the first weekday of the month int diff = weekday - wdayFirst; if ( diff < 0 ) diff += 7; // add advance n-1 weeks more diff += 7*(n - 1); dt += wxDateSpan::Days(diff); } else // count from the end of the month { // get the last day of the month dt.SetToLastMonthDay(month, year); // get its wday WeekDay wdayLast = dt.GetWeekDay(); // go to the last weekday of the month int diff = wdayLast - weekday; if ( diff < 0 ) diff += 7; // and rewind n-1 weeks from there diff += 7*(-n - 1); dt -= wxDateSpan::Days(diff); } // check that it is still in the same month if ( dt.GetMonth() == month ) { *this = dt; return true; } else { // no such day in this month return false; } } static inline wxDateTime::wxDateTime_t GetDayOfYearFromTm(const wxDateTime::Tm& tm) { return (wxDateTime::wxDateTime_t)(gs_cumulatedDays[wxDateTime::IsLeapYear(tm.year)][tm.mon] + tm.mday); } wxDateTime::wxDateTime_t wxDateTime::GetDayOfYear(const TimeZone& tz) const { return GetDayOfYearFromTm(GetTm(tz)); } wxDateTime::wxDateTime_t wxDateTime::GetWeekOfYear(wxDateTime::WeekFlags flags, const TimeZone& tz) const { if ( flags == Default_First ) { flags = GetCountry() == USA ? Sunday_First : Monday_First; } Tm tm(GetTm(tz)); wxDateTime_t nDayInYear = GetDayOfYearFromTm(tm); int wdTarget = GetWeekDay(tz); int wdYearStart = wxDateTime(1, Jan, GetYear()).GetWeekDay(); int week; if ( flags == Sunday_First ) { // FIXME: First week is not calculated correctly. week = (nDayInYear - wdTarget + 7) / 7; if ( wdYearStart == Wed || wdYearStart == Thu ) week++; } else // week starts with monday { // adjust the weekdays to non-US style. wdYearStart = ConvertWeekDayToMondayBase(wdYearStart); // quoting from http://www.cl.cam.ac.uk/~mgk25/iso-time.html: // // Week 01 of a year is per definition the first week that has the // Thursday in this year, which is equivalent to the week that // contains the fourth day of January. In other words, the first // week of a new year is the week that has the majority of its // days in the new year. Week 01 might also contain days from the // previous year and the week before week 01 of a year is the last // week (52 or 53) of the previous year even if it contains days // from the new year. A week starts with Monday (day 1) and ends // with Sunday (day 7). // // if Jan 1 is Thursday or less, it is in the first week of this year int dayCountFix = wdYearStart < 4 ? 6 : -1; // count the number of week week = (nDayInYear + wdYearStart + dayCountFix) / DAYS_PER_WEEK; // check if we happen to be at the last week of previous year: if ( week == 0 ) { week = wxDateTime(31, Dec, GetYear() - 1).GetWeekOfYear(); } else if ( week == 53 ) { int wdYearEnd = (wdYearStart + 364 + IsLeapYear(GetYear())) % DAYS_PER_WEEK; // Week 53 only if last day of year is Thursday or later. if ( wdYearEnd < 3 ) week = 1; } } return (wxDateTime::wxDateTime_t)week; } wxDateTime::wxDateTime_t wxDateTime::GetWeekOfMonth(wxDateTime::WeekFlags flags, const TimeZone& tz) const { Tm tm = GetTm(tz); const wxDateTime dateFirst = wxDateTime(1, tm.mon, tm.year); const wxDateTime::WeekDay wdFirst = dateFirst.GetWeekDay(); if ( flags == Default_First ) { flags = GetCountry() == USA ? Sunday_First : Monday_First; } // compute offset of dateFirst from the beginning of the week int firstOffset; if ( flags == Sunday_First ) firstOffset = wdFirst - Sun; else firstOffset = wdFirst == Sun ? DAYS_PER_WEEK - 1 : wdFirst - Mon; return (wxDateTime::wxDateTime_t)((tm.mday - 1 + firstOffset)/7 + 1); } wxDateTime& wxDateTime::SetToYearDay(wxDateTime::wxDateTime_t yday) { int year = GetYear(); wxDATETIME_CHECK( (0 < yday) && (yday <= GetNumberOfDays(year)), wxT("invalid year day") ); bool isLeap = IsLeapYear(year); for ( Month mon = Jan; mon < Inv_Month; wxNextMonth(mon) ) { // for Dec, we can't compare with gs_cumulatedDays[mon + 1], but we // don't need it neither - because of the CHECK above we know that // yday lies in December then if ( (mon == Dec) || (yday <= gs_cumulatedDays[isLeap][mon + 1]) ) { Set((wxDateTime::wxDateTime_t)(yday - gs_cumulatedDays[isLeap][mon]), mon, year); break; } } return *this; } // ---------------------------------------------------------------------------- // Julian day number conversion and related stuff // ---------------------------------------------------------------------------- double wxDateTime::GetJulianDayNumber() const { return m_time.ToDouble() / MILLISECONDS_PER_DAY + EPOCH_JDN + 0.5; } double wxDateTime::GetRataDie() const { // March 1 of the year 0 is Rata Die day -306 and JDN 1721119.5 return GetJulianDayNumber() - 1721119.5 - 306; } // ---------------------------------------------------------------------------- // timezone and DST stuff // ---------------------------------------------------------------------------- int wxDateTime::IsDST(wxDateTime::Country country) const { wxCHECK_MSG( country == Country_Default, -1, wxT("country support not implemented") ); // use the C RTL for the dates in the standard range time_t timet = GetTicks(); if ( timet != (time_t)-1 ) { struct tm tmstruct; tm *tm = wxLocaltime_r(&timet, &tmstruct); wxCHECK_MSG( tm, -1, wxT("wxLocaltime_r() failed") ); return tm->tm_isdst; } else { int year = GetYear(); if ( !IsDSTApplicable(year, country) ) { // no DST time in this year in this country return -1; } return IsBetween(GetBeginDST(year, country), GetEndDST(year, country)); } } wxDateTime& wxDateTime::MakeTimezone(const TimeZone& tz, bool noDST) { long secDiff = wxGetTimeZone() + tz.GetOffset(); // We are converting from the local time, but local time zone does not // include the DST offset (as it varies depending on the date), so we have // to handle DST manually, unless a special flag inhibiting this was // specified. if ( !noDST && (IsDST() == 1) ) { // FIXME we assume that the DST is always shifted by 1 hour secDiff -= 3600; } return Add(wxTimeSpan::Seconds(secDiff)); } wxDateTime& wxDateTime::MakeFromTimezone(const TimeZone& tz, bool noDST) { long secDiff = wxGetTimeZone() + tz.GetOffset(); // See comment in MakeTimezone() above, the logic here is exactly the same. if ( !noDST && (IsDST() == 1) ) { // FIXME we assume that the DST is always shifted by 1 hour secDiff -= 3600; } return Subtract(wxTimeSpan::Seconds(secDiff)); } // ============================================================================ // wxDateTimeHolidayAuthority and related classes // ============================================================================ #include "wx/arrimpl.cpp" WX_DEFINE_OBJARRAY(wxDateTimeArray) static int wxCMPFUNC_CONV wxDateTimeCompareFunc(wxDateTime **first, wxDateTime **second) { wxDateTime dt1 = **first, dt2 = **second; return dt1 == dt2 ? 0 : dt1 < dt2 ? -1 : +1; } // ---------------------------------------------------------------------------- // wxDateTimeHolidayAuthority // ---------------------------------------------------------------------------- wxHolidayAuthoritiesArray wxDateTimeHolidayAuthority::ms_authorities; /* static */ bool wxDateTimeHolidayAuthority::IsHoliday(const wxDateTime& dt) { size_t count = ms_authorities.size(); for ( size_t n = 0; n < count; n++ ) { if ( ms_authorities[n]->DoIsHoliday(dt) ) { return true; } } return false; } /* static */ size_t wxDateTimeHolidayAuthority::GetHolidaysInRange(const wxDateTime& dtStart, const wxDateTime& dtEnd, wxDateTimeArray& holidays) { wxDateTimeArray hol; holidays.Clear(); const size_t countAuth = ms_authorities.size(); for ( size_t nAuth = 0; nAuth < countAuth; nAuth++ ) { ms_authorities[nAuth]->DoGetHolidaysInRange(dtStart, dtEnd, hol); WX_APPEND_ARRAY(holidays, hol); } holidays.Sort(wxDateTimeCompareFunc); return holidays.size(); } /* static */ void wxDateTimeHolidayAuthority::ClearAllAuthorities() { WX_CLEAR_ARRAY(ms_authorities); } /* static */ void wxDateTimeHolidayAuthority::AddAuthority(wxDateTimeHolidayAuthority *auth) { ms_authorities.push_back(auth); } wxDateTimeHolidayAuthority::~wxDateTimeHolidayAuthority() { // required here for Darwin } // ---------------------------------------------------------------------------- // wxDateTimeWorkDays // ---------------------------------------------------------------------------- bool wxDateTimeWorkDays::DoIsHoliday(const wxDateTime& dt) const { wxDateTime::WeekDay wd = dt.GetWeekDay(); return (wd == wxDateTime::Sun) || (wd == wxDateTime::Sat); } size_t wxDateTimeWorkDays::DoGetHolidaysInRange(const wxDateTime& dtStart, const wxDateTime& dtEnd, wxDateTimeArray& holidays) const { if ( dtStart > dtEnd ) { wxFAIL_MSG( wxT("invalid date range in GetHolidaysInRange") ); return 0u; } holidays.Empty(); // instead of checking all days, start with the first Sat after dtStart and // end with the last Sun before dtEnd wxDateTime dtSatFirst = dtStart.GetNextWeekDay(wxDateTime::Sat), dtSatLast = dtEnd.GetPrevWeekDay(wxDateTime::Sat), dtSunFirst = dtStart.GetNextWeekDay(wxDateTime::Sun), dtSunLast = dtEnd.GetPrevWeekDay(wxDateTime::Sun), dt; for ( dt = dtSatFirst; dt <= dtSatLast; dt += wxDateSpan::Week() ) { holidays.Add(dt); } for ( dt = dtSunFirst; dt <= dtSunLast; dt += wxDateSpan::Week() ) { holidays.Add(dt); } return holidays.GetCount(); } // ============================================================================ // other helper functions // ============================================================================ // ---------------------------------------------------------------------------- // iteration helpers: can be used to write a for loop over enum variable like // this: // for ( m = wxDateTime::Jan; m < wxDateTime::Inv_Month; wxNextMonth(m) ) // ---------------------------------------------------------------------------- WXDLLIMPEXP_BASE void wxNextMonth(wxDateTime::Month& m) { wxASSERT_MSG( m < wxDateTime::Inv_Month, wxT("invalid month") ); // no wrapping or the for loop above would never end! m = (wxDateTime::Month)(m + 1); } WXDLLIMPEXP_BASE void wxPrevMonth(wxDateTime::Month& m) { wxASSERT_MSG( m < wxDateTime::Inv_Month, wxT("invalid month") ); m = m == wxDateTime::Jan ? wxDateTime::Inv_Month : (wxDateTime::Month)(m - 1); } WXDLLIMPEXP_BASE void wxNextWDay(wxDateTime::WeekDay& wd) { wxASSERT_MSG( wd < wxDateTime::Inv_WeekDay, wxT("invalid week day") ); // no wrapping or the for loop above would never end! wd = (wxDateTime::WeekDay)(wd + 1); } WXDLLIMPEXP_BASE void wxPrevWDay(wxDateTime::WeekDay& wd) { wxASSERT_MSG( wd < wxDateTime::Inv_WeekDay, wxT("invalid week day") ); wd = wd == wxDateTime::Sun ? wxDateTime::Inv_WeekDay : (wxDateTime::WeekDay)(wd - 1); } #ifdef __WINDOWS__ wxDateTime& wxDateTime::SetFromMSWSysTime(const SYSTEMTIME& st) { return Set(st.wDay, static_cast(wxDateTime::Jan + st.wMonth - 1), st.wYear, st.wHour, st.wMinute, st.wSecond, st.wMilliseconds); } wxDateTime& wxDateTime::SetFromMSWSysDate(const SYSTEMTIME& st) { return Set(st.wDay, static_cast(wxDateTime::Jan + st.wMonth - 1), st.wYear, 0, 0, 0, 0); } void wxDateTime::GetAsMSWSysTime(SYSTEMTIME* st) const { const wxDateTime::Tm tm(GetTm()); st->wYear = (WXWORD)tm.year; st->wMonth = (WXWORD)(tm.mon - wxDateTime::Jan + 1); st->wDay = tm.mday; st->wDayOfWeek = 0; st->wHour = tm.hour; st->wMinute = tm.min; st->wSecond = tm.sec; st->wMilliseconds = tm.msec; } void wxDateTime::GetAsMSWSysDate(SYSTEMTIME* st) const { const wxDateTime::Tm tm(GetTm()); st->wYear = (WXWORD)tm.year; st->wMonth = (WXWORD)(tm.mon - wxDateTime::Jan + 1); st->wDay = tm.mday; st->wDayOfWeek = st->wHour = st->wMinute = st->wSecond = st->wMilliseconds = 0; } #endif // __WINDOWS__ #endif // wxUSE_DATETIME