236 lines
7.8 KiB
C
236 lines
7.8 KiB
C
/***
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*dtoxtime.c - convert OS local time to time_t
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*
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* Copyright (c) 1985-2001, Microsoft Corporation. All rights reserved.
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*
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*Purpose:
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* defines __loctotime_t() - convert OS local time to internal format
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* (time_t).
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*
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*Revision History:
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* 03-??-84 RLB written
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* 11-18-87 SKS change tzset() to __tzset(), change source file name
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* make _dtoxtime a near procedure
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* 01-26-88 SKS _dtoxtime is no longer a near procedure (for QC)
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* 03-20-90 GJF Made calling type _CALLTYPE1, added #include
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* <cruntime.h>, removed #include <register.h> and
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* fixed the copyright. Also, cleaned up the formatting
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* a bit.
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* 10-04-90 GJF New-style function declarator.
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* 01-21-91 GJF ANSI naming.
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* 05-19-92 DJM ifndef for POSIX build.
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* 03-30-93 GJF Revised. Old _dtoxtime is replaced by __gmtotime_t,
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* which is more useful on Win32.
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* 04-06-93 SKS Replace _CRTAPI* with __cdecl
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* 04-06-93 GJF Rewrote computation to avoid compiler warnings.
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* 07-20-93 GJF Replaced __gmtotime_t with function very similar to
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* _dostotime_t() in 16-bit C 8.00. The reason for the
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* change is that only local time values can be trusted
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* on a Win32 platform. System time may be UTC (as
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* documented), and is on NT, or may be the same as
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* local time, as on Win32S and Win32C
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* 02-10-95 GJF Appended Mac version of source file (somewhat cleaned
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* up), with appropriate #ifdef-s.
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* 09-25-95 GJF Added DST flag to __loctotime_t's arguments. Also,
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* use _dstbias instead of assuming a DST bias of -3600.
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* 02-07-98 GJF Changes for Win64: replaced long type with time_t
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* 10-19-98 GJF Fill in tm_min and tm_sec before calling _isindst
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* 05-17-99 PML Remove all Macintosh support.
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* 12-10-99 GB Added support for years beyond 2099.
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*
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*******************************************************************************/
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#ifndef _POSIX_
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#include <cruntime.h>
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#include <time.h>
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#include <ctime.h>
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#include <internal.h>
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/***
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*time_t __loctotime_t(yr, mo, dy, hr, mn, sc, dstflag) - converts OS local
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* time to internal time format (i.e., a time_t value)
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*
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*Purpose:
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* Converts a local time value, obtained in a broken down format from
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* the host OS, to time_t format (i.e., the number elapsed seconds since
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* 01-01-70, 00:00:00, UTC).
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*
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*Entry:
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* int yr, mo, dy - date
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* int hr, mn, sc - time
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* int dstflag - 1 if Daylight Time, 0 if Standard Time, -1 if
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* not specified.
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*
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*Exit:
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* Returns calendar time value.
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*
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*Exceptions:
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*
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*******************************************************************************/
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time_t __cdecl __loctotime_t (
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int yr, /* 0 based */
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int mo, /* 1 based */
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int dy, /* 1 based */
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int hr,
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int mn,
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int sc,
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int dstflag )
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{
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int tmpdays;
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time_t tmptim;
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struct tm tb;
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/*
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* Do a quick range check on the year and convert it to a delta
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* off of 1900.
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*/
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if ( ((yr -= 1900) < _BASE_YEAR) || (yr > _MAX_YEAR) )
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return (time_t)(-1);
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/*
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* Compute the number of elapsed days in the current year. Note the
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* test for a leap year would fail in the year 2100, if this was in
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* range (which it isn't).
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*/
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tmpdays = dy + _days[mo - 1];
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if ( _IS_LEAP_YEAR(yr) && (mo > 2) )
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tmpdays++;
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/*
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* Compute the number of elapsed seconds since the Epoch. Note the
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* computation of elapsed leap years would break down after 2100
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* if such values were in range (fortunately, they aren't).
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*/
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tmptim = /* 365 days for each year */
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(((time_t)yr - _BASE_YEAR) * 365
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/* one day for each elapsed leap year */
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+ (time_t)_ELAPSED_LEAP_YEARS(yr)
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/* number of elapsed days in yr */
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+ tmpdays)
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/* convert to hours and add in hr */
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* 24 + hr;
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tmptim = /* convert to minutes and add in mn */
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(tmptim * 60 + mn)
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/* convert to seconds and add in sec */
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* 60 + sc;
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/*
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* Account for time zone.
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*/
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__tzset();
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tmptim += _timezone;
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/*
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* Fill in enough fields of tb for _isindst(), then call it to
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* determine DST.
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*/
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tb.tm_yday = tmpdays;
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tb.tm_year = yr;
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tb.tm_mon = mo - 1;
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tb.tm_hour = hr;
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tb.tm_min = mn;
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tb.tm_sec = sc;
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if ( (dstflag == 1) || ((dstflag == -1) && _daylight &&
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_isindst(&tb)) )
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tmptim += _dstbias;
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return(tmptim);
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}
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#if 0
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/*
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* THE FOLLOWING FUNCTION WAS DEFINED AND USED (IN PLACE OF THE ONE ABOVE)
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* FOR THE CUDA PRODUCT AND THE NT 1.0 SDK. IT WAS REPLACED (BY THE ONE
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* ABOVE) BECAUSE NON-NT WIN32 PLATFORMS MAY USE LOCAL TIME FOR SYSTEM TIME,
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* RATHER THAN UTC.
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*/
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/***
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*time_t __gmtotime_t(yr, mo, dy, hr, mn, sc) - convert broken down time (UTC)
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* to time_t
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*
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*Purpose:
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* Converts a broken down UTC (GMT) time to time_t. This is similar to
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* _mkgmtime() except there is minimal overflow checking and no updating
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* of the input values (i.e., the fields of tm structure).
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*
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*Entry:
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* int yr, mo, dy - date
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* int hr, mn, sc - time
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*
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*Exit:
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* returns time_t value
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*
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*Exceptions:
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*
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*******************************************************************************/
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time_t __cdecl __gmtotime_t (
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int yr, /* 0 based */
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int mo, /* 1 based */
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int dy, /* 1 based */
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int hr,
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int mn,
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int sc
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)
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{
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int tmpdays;
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long tmptim;
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/*
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* Do a quick range check on the year and convert it to a delta
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* off of 1900.
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*/
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if ( ((long)(yr -= 1900) < _BASE_YEAR) || ((long)yr > _MAX_YEAR) )
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return (time_t)(-1);
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/*
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* Compute the number of elapsed days in the current year minus
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* one. Note the test for leap year and the would fail in the year 2100
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* if this was in range (which it isn't).
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*/
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tmpdays = dy + _days[mo - 1];
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if ( !(yr & 3) && (mo > 2) )
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/*
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* in a leap year, after Feb. add one day for elapsed
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* Feb 29.
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*/
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tmpdays++;
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/*
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* Compute the number of elapsed seconds since the Epoch. Note the
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* computation of elapsed leap years would break down after 2100
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* if such values were in range (fortunately, they aren't).
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*/
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tmptim = /* 365 days for each year */
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(((long)yr - _BASE_YEAR) * 365L
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/* one day for each elapsed leap year */
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+ (long)((yr - 1) >> 2) - _LEAP_YEAR_ADJUST
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/* number of elapsed days in yr */
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+ tmpdays)
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/* convert to hours and add in hr */
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* 24L + hr;
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tmptim = /* convert to minutes and add in mn */
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(tmptim * 60L + mn)
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/* convert to seconds and add in sec */
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* 60L + sc;
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return (tmptim >= 0) ? (time_t)tmptim : (time_t)(-1);
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}
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#endif
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#endif /* _POSIX_ */
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