/*** *dtoxtime.c - convert OS local time to time_t * * Copyright (c) 1985-1997, Microsoft Corporation. All rights reserved. * *Purpose: * defines __loctotime_t() - convert OS local time to internal format * (time_t). * *******************************************************************************/ #ifdef _WIN32 #include #include #include #include /*** *time_t __loctotime_t(yr, mo, dy, hr, mn, sc, dstflag) - converts OS local * time to internal time format (i.e., a time_t value) * *Purpose: * Converts a local time value, obtained in a broken down format from * the host OS, to time_t format (i.e., the number elapsed seconds since * 01-01-70, 00:00:00, UTC). * *Entry: * int yr, mo, dy - date * int hr, mn, sc - time * int dstflag - 1 if Daylight Time, 0 if Standard Time, -1 if * not specified. * *Exit: * Returns calendar time value. * *Exceptions: * *******************************************************************************/ time_t __cdecl __loctotime_t ( int yr, /* 0 based */ int mo, /* 1 based */ int dy, /* 1 based */ int hr, int mn, int sc, int dstflag ) { int tmpdays; long tmptim; struct tm tb; /* * Do a quick range check on the year and convert it to a delta * off of 1900. */ if ( ((long)(yr -= 1900) < _BASE_YEAR) || ((long)yr > _MAX_YEAR) ) return (time_t)(-1); /* * Compute the number of elapsed days in the current year. Note the * test for a leap year would fail in the year 2100, if this was in * range (which it isn't). */ tmpdays = dy + _days[mo - 1]; if ( !(yr & 3) && (mo > 2) ) tmpdays++; /* * Compute the number of elapsed seconds since the Epoch. Note the * computation of elapsed leap years would break down after 2100 * if such values were in range (fortunately, they aren't). */ tmptim = /* 365 days for each year */ (((long)yr - _BASE_YEAR) * 365L /* one day for each elapsed leap year */ + (long)((yr - 1) >> 2) - _LEAP_YEAR_ADJUST /* number of elapsed days in yr */ + tmpdays) /* convert to hours and add in hr */ * 24L + hr; tmptim = /* convert to minutes and add in mn */ (tmptim * 60L + mn) /* convert to seconds and add in sec */ * 60L + sc; /* * Account for time zone. */ __tzset(); tmptim += _timezone; /* * Fill in enough fields of tb for _isindst(), then call it to * determine DST. */ tb.tm_yday = tmpdays; tb.tm_year = yr; tb.tm_mon = mo - 1; tb.tm_hour = hr; if ( (dstflag == 1) || ((dstflag == -1) && _daylight && _isindst(&tb)) ) tmptim += _dstbias; return(tmptim); } #else /* _WIN32 */ #if defined (_M_MPPC) || defined (_M_M68K) #include #include #include #include /*** *time_t _gmtotime_t(yr, mo, dy, hr, mn, sc) - convert broken down time (UTC) * to time_t * *Purpose: * Converts a broken down UTC (GMT) time to time_t. This is similar to * _mkgmtime() except there is minimal overflow checking and no updating * of the input values (i.e., the fields of tm structure). * *Entry: * int yr, mo, dy - date * int hr, mn, sc - time * *Exit: * returns time_t value * *Exceptions: * *******************************************************************************/ time_t __cdecl _gmtotime_t ( int yr, /* 0 based */ int mo, /* 1 based */ int dy, /* 1 based */ int hr, int mn, int sc ) { int tmpdays; long tmptim; struct tm tb; /* * Do a quick range check on the year and convert it to a delta * off of 1900. */ if ( ((long)(yr -= 1900) < _BASE_YEAR) || ((long)yr > _MAX_YEAR) ) return (time_t)(-1); /* * Compute the number of elapsed days in the current year minus * one. Note the test for leap year and the would fail in the year 2100 * if this was in range (which it isn't). */ tmpdays = dy + _days[mo - 1]; if ( !(yr & 3) && (mo > 2) ) /* * in a leap year, after Feb. add one day for elapsed * Feb 29. */ tmpdays++; /* * Compute the number of elapsed seconds since the Epoch. Note the * computation of elapsed leap years would break down after 2100 * if such values were in range (fortunately, they aren't). */ tmptim = (long)yr - _BASE_YEAR; tmptim = /* 365 days for each year */ ( ( ( ( tmptim ) * 365L /* one day for each elapsed leap year */ + ((long)(yr - 1) >> 2) - (long)_LEAP_YEAR_ADJUST /* number of elapsed days in yr */ + (long)tmpdays ) /* convert to hours and add in hr */ * 24L + (long)hr ) /* convert to minutes and add in mn */ * 60L + (long)mn ) /* convert to seconds and add in sec */ * 60L + (long)sc; _tzset(); tmptim += _timezone; //timezone adjustment /* * Fill in enough fields of tb struct for _isindst(), then call it to * determine DST. */ tb.tm_yday = tmpdays; tb.tm_year = yr; tb.tm_mon = mo - 1; tb.tm_hour = hr; if (_daylight && _isindst(&tb)) tmptim -= 3600L; return (tmptim >= 0) ? (time_t)tmptim : (time_t)(-1); } #endif /* defined (_M_MPPC) || defined (_M_M68K) */ #endif /* _WIN32 */