/*==LICENSE==* CyanWorlds.com Engine - MMOG client, server and tools Copyright (C) 2011 Cyan Worlds, Inc. This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . 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You can contact Cyan Worlds, Inc. by email legal@cyan.com or by snail mail at: Cyan Worlds, Inc. 14617 N Newport Hwy Mead, WA 99021 *==LICENSE==*/ #ifndef _PL_UNIFIEDTIME_INC_ #define _PL_UNIFIEDTIME_INC_ #include "hsTypes.h" #include "hsStlUtils.h" #if HS_BUILD_FOR_WIN32 #include "hsWindows.h" #endif // // Plasma Unified System Time & Data Class // the time and date are in secs and micros from // Jan 1, 1970 00:00:00 // struct timeval; class hsStream; #ifdef GetCurrentTime #undef GetCurrentTime #endif enum plUnifiedTime_CtorNow { kNow }; class plUnifiedTime // { public: enum Mode { kGmt, kLocal }; protected: time_t fSecs; UInt32 fMicros; Mode fMode; static Int32 fLocalTimeZoneOffset; struct tm * IGetTime(const time_t * timer) const; static Int32 IGetLocalTimeZoneOffset( void ); public: plUnifiedTime() : fSecs(0),fMicros(0), fMode(kGmt) { } // set ToEpoch() at start plUnifiedTime(double secsDouble) { SetSecsDouble(secsDouble); } plUnifiedTime(plUnifiedTime_CtorNow,int mode=kLocal); plUnifiedTime(const timeval & tv); plUnifiedTime(int mode, const struct tm & src); plUnifiedTime(time_t t); plUnifiedTime(unsigned long t); plUnifiedTime(int year, int month, int day, int hour, int min, int sec, unsigned long usec=0, int dst=-1); plUnifiedTime(int mode, const char * buf, const char * fmt); plUnifiedTime(const plUnifiedTime & src); plUnifiedTime(const plUnifiedTime * src); static plUnifiedTime GetCurrentTime(Mode mode=kGmt); // assignment const plUnifiedTime & operator=(const plUnifiedTime & src); const plUnifiedTime & operator=(const plUnifiedTime * src); const plUnifiedTime & operator=(const struct timeval & src); const plUnifiedTime & operator=(time_t src); const plUnifiedTime & operator=(unsigned long t); const plUnifiedTime & operator=(const struct tm & src); // getters time_t GetSecs() const { return fSecs; } UInt32 GetMicros() const { return fMicros; } double GetSecsDouble() const; // get the secs and micros as a double floating point value hsBool GetTime(short &year, short &month, short &day, short &hour, short &minute, short &second) const; struct tm * GetTm(struct tm * ptm=nil) const; int GetYear() const; int GetMonth() const; int GetDay() const; int GetHour() const; int GetMinute() const; int GetSecond() const; int GetMillis() const; int GetDayOfWeek() const; int GetMode() const {return fMode;} // local or gmt. // setters void SetSecs(const time_t secs) { fSecs = secs; } void SetSecsDouble(double secs); void SetMicros(const UInt32 micros) { fMicros = micros; } hsBool SetTime(short year, short month, short day, short hour, short minute, short second, unsigned long usec=0, int dst=-1); hsBool SetGMTime(short year, short month, short day, short hour, short minute, short second, unsigned long usec=0); hsBool SetToUTC(); void ToCurrentTime(); void ToEpoch() { fSecs = 0; fMicros = 0;} void SetMode(Mode mode) { fMode=mode;} #if HS_BUILD_FOR_WIN32 hsBool SetFromWinFileTime(const FILETIME ft); #endif // query bool AtEpoch() const { return fSecs == 0 && fMicros == 0;} void Read(hsStream* s); void Write(hsStream* s) const; // time math const plUnifiedTime & operator+=(const plUnifiedTime & rhs); const plUnifiedTime & operator-=(const plUnifiedTime & rhs); friend plUnifiedTime operator -(const plUnifiedTime & left, const plUnifiedTime & right); friend plUnifiedTime operator +(const plUnifiedTime & left, const plUnifiedTime & right); static double GetTimeDifference(const plUnifiedTime& timeA, const plUnifiedTime& timeB); // handles negative // time compare bool operator==(const plUnifiedTime & rhs) const; bool operator!=(const plUnifiedTime & rhs) const; bool operator <(const plUnifiedTime & rhs) const; bool operator >(const plUnifiedTime & rhs) const; bool operator<=(const plUnifiedTime & rhs) const; bool operator>=(const plUnifiedTime & rhs) const; friend bool operator <(const plUnifiedTime & time, int secs); // casting operator time_t() const { return fSecs;} operator timeval() const; operator struct tm() const; // formatting (ala strftime) std::string Format(const char * fmt) const; // parsing bool FromString(const char * buf, const char * fmt); const char* Print() const; // print as simple string const char* PrintWMillis() const; // print as simple string w/ millis /* FromString: (from glibc's strptime() man page) Converts the character string pointed to by buf to values which are stored in the ``tm'' structure pointed to by tm, using the format specified by format. The following conversion specifications are supported: %% A `%' is written. No argument is converted. %a the day of week, using the locale's weekday names; either the ab- breviated or full name may be specified. %A the same as %a. %b the month, using the locale's month names; either the abbreviated or full name may be specified. %B the same as %b. %c the date and time, using the locale's date and time format. %C the century number [0,99]; leading zeros are permitted but not re- quired. This conversion should be used in conjunction with the %y conversion. %d the day of month [1,31]; leading zeros are permitted but not re- quired. %D the date as %m/%d/%y. %e the same as %d. %h the same as %b. %H the hour (24-hour clock) [0,23]; leading zeros are permitted but not required. %I the hour (12-hour clock) [1,12]; leading zeros are permitted but not required. %j the day number of the year [1,366]; leading zeros are permitted but not required. %k the same as %H. %l the same as %I. %m the month number [1,12]; leading zeros are permitted but not re- quired. %M the minute [0,59]; leading zeros are permitted but not required. %n any white-space, including none. %p the locale's equivalent of a.m. or p.m.. %r the time (12-hour clock) with %p, using the locale's time format. %R the time as %H:%M. %S the seconds [0,61]; leading zeros are permitted but not required. %t any white-space, including none. %T the time as %H:%M:%S. %U the week number of the year (Sunday as the first day of the week) as a decimal number [0,53]; leading zeros are permitted but not re- quired. All days in a year preceding the first Sunday are consid- ered to be in week 0. %w the weekday as a decimal number [0,6], with 0 representing Sunday; leading zeros are permitted but not required. %W the week number of the year (Monday as the first day of the week) as a decimal number [0,53]; leading zeros are permitted but not re- quired. All days in a year preceding the first Monday are consid- ered to be in week 0. %x the date, using the locale's date format. %X the time, using the locale's time format. %y the year within the 20th century [69,99] or the 21st century [0,68]; leading zeros are permitted but not required. If specified in conjunction with %C, specifies the year [0,99] within that cen- tury. %Y the year, including the century (i.e., 1996). */ }; plUnifiedTime operator -(const plUnifiedTime & left, const plUnifiedTime & right); plUnifiedTime operator +(const plUnifiedTime & left, const plUnifiedTime & right); #endif //_PL_UNIFIEDTIME_INC_