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507 lines
14 KiB
C
507 lines
14 KiB
C
/* Copyright (C) 1993, 1994, 1995 Free Software Foundation, Inc.
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Contributed by Noel Cragg (noel@cs.oberlin.edu), with fixes by
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Michael E. Calwas (calwas@ttd.teradyne.com) and
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Wade Hampton (tasi029@tmn.com).
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This file is part of the GNU C Library.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Library General Public License as
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published by the Free Software Foundation; either version 2 of the
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License, or (at your option) any later version.
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The GNU C Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Library General Public License for more details.
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You should have received a copy of the GNU Library General Public
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License along with the GNU C Library; see the file COPYING.LIB. If
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not, write to the Free Software Foundation, Inc., 675 Mass Ave,
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Cambridge, MA 02139, USA. */
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/* Define this to have a standalone program to test this implementation of
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mktime. */
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/* #define DEBUG */
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#ifdef HAVE_CONFIG_H
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#include <config.h>
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#endif
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#include <sys/types.h> /* Some systems define `time_t' here. */
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#include <time.h>
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#ifndef __isleap
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/* Nonzero if YEAR is a leap year (every 4 years,
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except every 100th isn't, and every 400th is). */
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#define __isleap(year) \
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((year) % 4 == 0 && ((year) % 100 != 0 || (year) % 400 == 0))
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#endif
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#ifndef __P
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#if defined (__GNUC__) || (defined (__STDC__) && __STDC__)
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#define __P(args) args
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#else
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#define __P(args) ()
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#endif /* GCC. */
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#endif /* Not __P. */
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/* How many days are in each month. */
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const unsigned short int __mon_lengths[2][12] =
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{
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/* Normal years. */
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{ 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 },
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/* Leap years. */
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{ 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }
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};
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static int times_through_search; /* This library routine should never
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hang -- make sure we always return
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when we're searching for a value */
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#ifdef DEBUG
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#include <stdio.h>
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#include <ctype.h>
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int debugging_enabled = 0;
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/* Print the values in a `struct tm'. */
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static void
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printtm (it)
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struct tm *it;
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{
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printf ("%02d/%02d/%04d %02d:%02d:%02d (%s) yday:%03d dst:%d gmtoffset:%ld",
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it->tm_mon + 1,
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it->tm_mday,
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it->tm_year + 1900,
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it->tm_hour,
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it->tm_min,
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it->tm_sec,
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it->tm_zone,
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it->tm_yday,
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it->tm_isdst,
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it->tm_gmtoff);
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}
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#endif
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static time_t
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dist_tm (t1, t2)
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struct tm *t1;
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struct tm *t2;
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{
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time_t distance = 0;
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unsigned long int v1, v2;
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int diff_flag = 0;
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v1 = v2 = 0;
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#define doit(x, secs) \
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v1 += t1->x * secs; \
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v2 += t2->x * secs; \
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if (!diff_flag) \
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{ \
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if (t1->x < t2->x) \
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diff_flag = -1; \
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else if (t1->x > t2->x) \
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diff_flag = 1; \
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}
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doit (tm_year, 31536000); /* Okay, not all years have 365 days. */
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doit (tm_mon, 2592000); /* Okay, not all months have 30 days. */
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doit (tm_mday, 86400);
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doit (tm_hour, 3600);
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doit (tm_min, 60);
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doit (tm_sec, 1);
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#undef doit
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/* We should also make sure that the sign of DISTANCE is correct -- if
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DIFF_FLAG is positive, the distance should be positive and vice versa. */
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distance = (v1 > v2) ? (v1 - v2) : (v2 - v1);
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if (diff_flag < 0)
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distance = -distance;
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if (times_through_search > 20) /* Arbitrary # of calls, but makes sure we
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never hang if there's a problem with
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this algorithm. */
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{
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distance = diff_flag;
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}
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/* We need this DIFF_FLAG business because it is forseeable that the
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distance may be zero when, in actuality, the two structures are
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different. This is usually the case when the dates are 366 days apart
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and one of the years is a leap year. */
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if (distance == 0 && diff_flag)
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distance = 86400 * diff_flag;
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return distance;
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}
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/* MKTIME converts the values in a struct tm to a time_t. The values
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in tm_wday and tm_yday are ignored; other values can be put outside
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of legal ranges since they will be normalized. This routine takes
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care of that normalization. */
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void
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do_normalization (tmptr)
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struct tm *tmptr;
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{
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#define normalize(foo,x,y,bar); \
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while (tmptr->foo < x) \
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{ \
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tmptr->bar--; \
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tmptr->foo = (y - (x - tmptr->foo) + 1); \
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} \
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while (tmptr->foo > y) \
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{ \
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tmptr->foo = (x + (tmptr->foo - y) - 1); \
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tmptr->bar++; \
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}
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normalize (tm_sec, 0, 59, tm_min);
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normalize (tm_min, 0, 59, tm_hour);
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normalize (tm_hour, 0, 23, tm_mday);
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/* Do the month first, so day range can be found. */
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normalize (tm_mon, 0, 11, tm_year);
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/* Since the day range modifies the month, we should be careful how
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we reference the array of month lengths -- it is possible that
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the month will go negative, hence the modulo...
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Also, tm_year is the year - 1900, so we have to 1900 to have it
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work correctly. */
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normalize (tm_mday, 1,
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__mon_lengths[__isleap (tmptr->tm_year + 1900)]
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[((tmptr->tm_mon < 0)
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? (12 + (tmptr->tm_mon % 12))
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: (tmptr->tm_mon % 12)) ],
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tm_mon);
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/* Do the month again, because the day may have pushed it out of range. */
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normalize (tm_mon, 0, 11, tm_year);
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/* Do the day again, because the month may have changed the range. */
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normalize (tm_mday, 1,
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__mon_lengths[__isleap (tmptr->tm_year + 1900)]
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[((tmptr->tm_mon < 0)
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? (12 + (tmptr->tm_mon % 12))
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: (tmptr->tm_mon % 12)) ],
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tm_mon);
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#ifdef DEBUG
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if (debugging_enabled)
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{
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printf (" After normalizing:\n ");
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printtm (tmptr);
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putchar ('\n');
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}
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#endif
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}
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/* Here's where the work gets done. */
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#define BAD_STRUCT_TM ((time_t) -1)
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time_t
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_mktime_internal (timeptr, producer)
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struct tm *timeptr;
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struct tm *(*producer) __P ((const time_t *));
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{
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struct tm our_tm; /* our working space */
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struct tm *me = &our_tm; /* a pointer to the above */
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time_t result; /* the value we return */
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*me = *timeptr; /* copy the struct tm that was passed
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in by the caller */
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/***************************/
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/* Normalize the structure */
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/***************************/
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/* This routine assumes that the value of TM_ISDST is -1, 0, or 1.
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If the user didn't pass it in that way, fix it. */
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if (me->tm_isdst > 0)
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me->tm_isdst = 1;
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else if (me->tm_isdst < 0)
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me->tm_isdst = -1;
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do_normalization (me);
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/* Get out of here if it's not possible to represent this struct.
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If any of the values in the normalized struct tm are negative,
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our algorithms won't work. Luckily, we only need to check the
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year at this point; normalization guarantees that all values will
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be in correct ranges EXCEPT the year. */
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if (me->tm_year < 0)
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return BAD_STRUCT_TM;
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/*************************************************/
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/* Find the appropriate time_t for the structure */
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/*************************************************/
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/* Modified b-search -- make intelligent guesses as to where the
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time might lie along the timeline, assuming that our target time
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lies a linear distance (w/o considering time jumps of a
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particular region).
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Assume that time does not fluctuate at all along the timeline --
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e.g., assume that a day will always take 86400 seconds, etc. --
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and come up with a hypothetical value for the time_t
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representation of the struct tm TARGET, in relation to the guess
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variable -- it should be pretty close!
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After testing this, the maximum number of iterations that I had
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on any number that I tried was 3! Not bad.
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The reason this is not a subroutine is that we will modify some
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fields in the struct tm (yday and mday). I've never felt good
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about side-effects when writing structured code... */
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{
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struct tm *guess_tm;
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time_t guess = 0;
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time_t distance = 0;
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time_t last_distance = 0;
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times_through_search = 0;
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do
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{
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guess += distance;
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times_through_search++;
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guess_tm = (*producer) (&guess);
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#ifdef DEBUG
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if (debugging_enabled)
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{
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printf (" Guessing time_t == %d\n ", (int) guess);
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printtm (guess_tm);
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putchar ('\n');
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}
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#endif
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/* How far is our guess from the desired struct tm? */
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distance = dist_tm (me, guess_tm);
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/* Handle periods of time where a period of time is skipped.
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For example, 2:15 3 April 1994 does not exist, because DST
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is in effect. The distance function will alternately
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return values of 3600 and -3600, because it doesn't know
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that the requested time doesn't exist. In these situations
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(even if the skip is not exactly an hour) the distances
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returned will be the same, but alternating in sign. We
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want the later time, so check to see that the distance is
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oscillating and we've chosen the correct of the two
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possibilities.
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Useful: 3 Apr 94 765356300, 30 Oct 94 783496000 */
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if ((distance == -last_distance) && (distance < last_distance))
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{
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/* If the caller specified that the DST flag was off, it's
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not possible to represent this time. */
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if (me->tm_isdst == 0)
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{
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#ifdef DEBUG
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printf (" Distance is oscillating -- dst flag nixes struct!\n");
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#endif
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return BAD_STRUCT_TM;
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}
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#ifdef DEBUG
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printf (" Distance is oscillating -- chose the later time.\n");
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#endif
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distance = 0;
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}
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if ((distance == 0) && (me->tm_isdst != -1)
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&& (me->tm_isdst != guess_tm->tm_isdst))
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{
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/* If we're in this code, we've got the right time but the
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wrong daylight savings flag. We need to move away from
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the time that we have and approach the other time from
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the other direction. That is, if I've requested the
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non-DST version of a time and I get the DST version
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instead, I want to put us forward in time and search
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backwards to get the other time. I checked all of the
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configuration files for the tz package -- no entry
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saves more than two hours, so I think we'll be safe by
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moving 24 hours in one direction. IF THE AMOUNT OF
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TIME SAVED IN THE CONFIGURATION FILES CHANGES, THIS
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VALUE MAY NEED TO BE ADJUSTED. Luckily, we can never
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have more than one level of overlaps, or this would
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never work. */
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#define SKIP_VALUE 86400
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if (guess_tm->tm_isdst == 0)
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/* we got the later one, but want the earlier one */
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distance = -SKIP_VALUE;
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else
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distance = SKIP_VALUE;
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#ifdef DEBUG
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printf (" Got the right time, wrong DST value -- adjusting\n");
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#endif
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}
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last_distance = distance;
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} while (distance != 0);
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/* Check to see that the dst flag matches */
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if (me->tm_isdst != -1)
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{
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if (me->tm_isdst != guess_tm->tm_isdst)
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{
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#ifdef DEBUG
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printf (" DST flag doesn't match! FIXME?\n");
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#endif
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return BAD_STRUCT_TM;
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}
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}
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result = guess; /* Success! */
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/* On successful completion, the values of tm_wday and tm_yday
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have to be set appropriately. */
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/* me->tm_yday = guess_tm->tm_yday;
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me->tm_mday = guess_tm->tm_mday; */
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*me = *guess_tm;
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}
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/* Update the caller's version of the structure */
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*timeptr = *me;
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return result;
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}
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time_t
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#ifdef DEBUG /* make it work even if the system's
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libc has it's own mktime routine */
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my_mktime (timeptr)
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#else
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mktime (timeptr)
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#endif
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struct tm *timeptr;
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{
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return _mktime_internal (timeptr, localtime);
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}
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#ifdef weak_alias
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weak_alias (mktime, timelocal)
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#endif
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#ifdef DEBUG
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void
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main (argc, argv)
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int argc;
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char *argv[];
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{
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int time;
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int result_time;
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struct tm *tmptr;
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if (argc == 1)
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{
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long q;
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printf ("starting long test...\n");
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for (q = 10000000; q < 1000000000; q += 599)
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{
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struct tm *tm = localtime ((time_t *) &q);
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if ((q % 10000) == 0) { printf ("%ld\n", q); fflush (stdout); }
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if (q != my_mktime (tm))
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{ printf ("failed for %ld\n", q); fflush (stdout); }
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}
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printf ("test finished\n");
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exit (0);
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}
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if (argc != 2)
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{
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printf ("wrong # of args\n");
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exit (0);
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}
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debugging_enabled = 1; /* We want to see the info */
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++argv;
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time = atoi (*argv);
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tmptr = localtime ((time_t *) &time);
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printf ("Localtime tells us that a time_t of %d represents\n ", time);
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printtm (tmptr);
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putchar ('\n');
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printf (" Given localtime's return val, mktime returns %d which is\n ",
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(int) my_mktime (tmptr));
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printtm (tmptr);
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putchar ('\n');
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#if 0
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tmptr->tm_sec -= 20;
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tmptr->tm_min -= 20;
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tmptr->tm_hour -= 20;
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tmptr->tm_mday -= 20;
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tmptr->tm_mon -= 20;
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tmptr->tm_year -= 20;
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tmptr->tm_gmtoff -= 20000; /* This has no effect! */
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tmptr->tm_zone = NULL; /* Nor does this! */
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tmptr->tm_isdst = -1;
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#endif
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tmptr->tm_hour += 1;
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tmptr->tm_isdst = -1;
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printf ("\n\nchanged ranges: ");
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printtm (tmptr);
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putchar ('\n');
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result_time = my_mktime (tmptr);
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printf ("\nmktime: %d\n", result_time);
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tmptr->tm_isdst = 0;
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printf ("\n\nchanged ranges: ");
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printtm (tmptr);
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putchar ('\n');
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result_time = my_mktime (tmptr);
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printf ("\nmktime: %d\n", result_time);
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}
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#endif /* DEBUG */
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/*
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Local Variables:
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compile-command: "gcc -g mktime.c -o mktime -DDEBUG"
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End:
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*/
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