ack/lang/cem/libcc.ansi/time/misc.c

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/*
* misc - data and miscellaneous routines
*/
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/* $Id$ */
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#include <ctype.h>
#include <time.h>
#include <stdlib.h>
#include <string.h>
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#if defined(__BSD4_2)
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extern int _gettimeofday(struct timeval* tp, struct timezone* tzp);
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#elif !defined(_POSIX_SOURCE) && !defined(__USG)
#if !defined(_MINIX) /* MINIX has no ftime() */
struct timeb
{
long time;
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unsigned short millitm;
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short timezone;
short dstflag;
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};
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void _ftime(struct timeb* bp);
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#endif
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#endif
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#include "loc_time.h"
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#define RULE_LEN 120
#define TZ_LEN 10
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/* Make sure that the strings do not end up in ROM.
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* These strings probably contain the wrong value, and we cannot obtain the
* right value from the system. TZ is the only help.
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*/
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static char ntstr[TZ_LEN + 1] = "GMT"; /* string for normal time */
static char dststr[TZ_LEN + 1] = "GDT"; /* string for daylight saving */
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long _timezone = 0;
long _dst_off = 60 * 60;
int _daylight = 0;
char* _tzname[2] = { ntstr, dststr };
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#if defined(__USG) || defined(_POSIX_SOURCE)
char* tzname[2] = { ntstr, dststr };
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#if defined(__USG)
long timezone = 0;
int daylight = 0;
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#endif
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#endif
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static struct dsttype
{
char ds_type; /* Unknown, Julian, Zero-based or M */
int ds_date[3]; /* months, weeks, days */
long ds_sec; /* usually 02:00:00 */
} dststart = { 'U', { 0, 0, 0 }, 2 * 60 * 60 }, dstend = { 'U', { 0, 0, 0 }, 2 * 60 * 60 };
const char* _days[] = {
"Sunday", "Monday", "Tuesday", "Wednesday",
"Thursday", "Friday", "Saturday"
};
const char* _months[] = {
"January", "February", "March",
"April", "May", "June",
"July", "August", "September",
"October", "November", "December"
};
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const int _ytab[2][12] = {
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{ 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 },
{ 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }
};
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#if !defined(_POSIX_SOURCE) && !defined(__USG)
#define USE_TABLE 1
#endif
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#if USE_TABLE
static int usetable = 1;
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typedef struct table
{
const char* tz_name;
const int daylight;
const long zoneoffset;
} TABLE;
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#define HOUR(x) ((x)*60 * 60)
static TABLE TimezoneTable[] = {
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{ "GMT", 0, HOUR(0) }, /* Greenwich Mean */
{ "BST", 60 * 60, HOUR(0) }, /* British Summer */
{ "WAT", 0, HOUR(1) }, /* West Africa */
{ "AT", 0, HOUR(2) }, /* Azores */
{ "BST", 0, HOUR(3) }, /* Brazil Standard */
{ "NFT", 0, HOUR(3.5) }, /* Newfoundland */
{ "NDT", 60 * 60, HOUR(3.5) }, /* Newfoundland Daylight */
{ "AST", 0, HOUR(4) }, /* Atlantic Standard */
{ "ADT", 60 * 60, HOUR(4) }, /* Atlantic Daylight */
{ "EST", 0, HOUR(5) }, /* Eastern Standard */
{ "EDT", 60 * 60, HOUR(5) }, /* Eastern Daylight */
{ "CST", 0, HOUR(6) }, /* Central Standard */
{ "CDT", 60 * 60, HOUR(6) }, /* Central Daylight */
{ "MST", 0, HOUR(7) }, /* Mountain Standard */
{ "MDT", 60 * 60, HOUR(7) }, /* Mountain Daylight */
{ "PST", 0, HOUR(8) }, /* Pacific Standard */
{ "PDT", 60 * 60, HOUR(8) }, /* Pacific Daylight */
{ "YST", 0, HOUR(9) }, /* Yukon Standard */
{ "YDT", 60 * 60, HOUR(9) }, /* Yukon Daylight */
{ "HST", 0, HOUR(10) }, /* Hawaii Standard */
{ "HDT", 60 * 60, HOUR(10) }, /* Hawaii Daylight */
{ "NT", 0, HOUR(11) }, /* Nome */
{ "IDLW", 0, HOUR(12) }, /* International Date Line West */
{ "MET", 0, -HOUR(1) }, /* Middle European */
{ "MDT", 60 * 60, -HOUR(1) }, /* Middle European Summer */
{ "EET", 0, -HOUR(2) }, /* Eastern Europe, USSR Zone 1 */
{ "BT", 0, -HOUR(3) }, /* Baghdad, USSR Zone 2 */
{ "IT", 0, -HOUR(3.5) }, /* Iran */
{ "ZP4", 0, -HOUR(4) }, /* USSR Zone 3 */
{ "ZP5", 0, -HOUR(5) }, /* USSR Zone 4 */
{ "IST", 0, -HOUR(5.5) }, /* Indian Standard */
{ "ZP6", 0, -HOUR(6) }, /* USSR Zone 5 */
{ "NST", 0, -HOUR(6.5) }, /* North Sumatra */
{ "SST", 0, -HOUR(7) }, /* South Sumatra, USSR Zone 6 */
{ "WAST", 0, -HOUR(7) }, /* West Australian Standard */
{ "WADT", 60 * 60, -HOUR(7) }, /* West Australian Daylight */
{ "JT", 0, -HOUR(7.5) }, /* Java (3pm in Cronusland!) */
{ "CCT", 0, -HOUR(8) }, /* China Coast, USSR Zone 7 */
{ "JST", 0, -HOUR(9) }, /* Japan Standard, USSR Zone 8 */
{ "CAST", 0, -HOUR(9.5) }, /* Central Australian Standard */
{ "CADT", 60 * 60, -HOUR(9.5) }, /* Central Australian Daylight */
{ "EAST", 0, -HOUR(10) }, /* Eastern Australian Standard */
{ "EADT", 60 * 60, -HOUR(10) }, /* Eastern Australian Daylight */
{ "NZT", 0, -HOUR(12) }, /* New Zealand */
{ "NZDT", 60 * 60, -HOUR(12) }, /* New Zealand Daylight */
{ NULL, 0, 0 }
};
/*
* The function ZoneFromTable() searches the table for the current
* timezone. It saves the last one found in ntstr or dststr, depending on
* wheter the name is for daylight-saving-time or not.
* Both ntstr and dststr are TZ_LEN + 1 chars.
*/
static void
ZoneFromTable(long timezone)
{
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register TABLE* tptr = TimezoneTable;
while (tptr->tz_name != NULL)
{
if (tptr->zoneoffset == timezone)
{
if (tptr->daylight == 0)
{
strncpy(ntstr, tptr->tz_name, TZ_LEN);
ntstr[TZ_LEN] = '\0';
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}
else
{
strncpy(dststr, tptr->tz_name, TZ_LEN);
dststr[TZ_LEN] = '\0';
}
}
tptr++;
}
}
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#endif /* USE_TABLE */
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static const char*
parseZoneName(register char* buf, register const char* p)
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{
register int n = 0;
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if (*p == ':')
return NULL;
while (*p && !isdigit(*p) && *p != ',' && *p != '-' && *p != '+')
{
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if (n < TZ_LEN)
*buf++ = *p;
p++;
n++;
}
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if (n < 3)
return NULL; /* error */
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*buf = '\0';
return p;
}
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static const char*
parseTime(register long* tm, const char* p, register struct dsttype* dst)
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{
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register int n = 0;
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register const char* q = p;
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char ds_type = (dst ? dst->ds_type : '\0');
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if (dst)
dst->ds_type = 'U';
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*tm = 0;
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while (*p >= '0' && *p <= '9')
{
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n = 10 * n + (*p++ - '0');
}
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if (q == p)
return NULL; /* "The hour shall be required" */
if (n < 0 || n >= 24)
return NULL;
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*tm = n * 60 * 60;
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if (*p == ':')
{
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p++;
n = 0;
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while (*p >= '0' && *p <= '9')
{
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n = 10 * n + (*p++ - '0');
}
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if (q == p)
return NULL; /* format error */
if (n < 0 || n >= 60)
return NULL;
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*tm += n * 60;
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if (*p == ':')
{
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p++;
n = 0;
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while (*p >= '0' && *p <= '9')
{
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n = 10 * n + (*p++ - '0');
}
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if (q == p)
return NULL; /* format error */
if (n < 0 || n >= 60)
return NULL;
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*tm += n;
}
}
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if (dst)
{
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dst->ds_type = ds_type;
dst->ds_sec = *tm;
}
return p;
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}
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static const char*
parseDate(register char* buf, register const char* p, struct dsttype* dstinfo)
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{
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register const char* q;
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register int n = 0;
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int cnt = 0;
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const int bnds[3][2] = { { 1, 12 },
{ 1, 5 },
{ 0, 6 } };
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char ds_type;
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if (*p != 'M')
{
if (*p == 'J')
{
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*buf++ = *p++;
ds_type = 'J';
}
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else
ds_type = 'Z';
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q = p;
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while (*p >= '0' && *p <= '9')
{
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n = 10 * n + (*p - '0');
*buf++ = *p++;
}
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if (q == p)
return NULL; /* format error */
if (n < (ds_type == 'J') || n > 365)
return NULL;
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dstinfo->ds_type = ds_type;
dstinfo->ds_date[0] = n;
return p;
}
ds_type = 'M';
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do
{
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*buf++ = *p++;
q = p;
n = 0;
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while (*p >= '0' && *p <= '9')
{
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n = 10 * n + (*p - '0');
*buf++ = *p++;
}
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if (q == p)
return NULL; /* format error */
if (n < bnds[cnt][0] || n > bnds[cnt][1])
return NULL;
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dstinfo->ds_date[cnt] = n;
cnt++;
} while (cnt < 3 && *p == '.');
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if (cnt != 3)
return NULL;
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*buf = '\0';
dstinfo->ds_type = ds_type;
return p;
}
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static const char*
parseRule(register char* buf, register const char* p)
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{
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long tim;
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register const char* q;
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if (!(p = parseDate(buf, p, &dststart)))
return NULL;
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buf += strlen(buf);
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if (*p == '/')
{
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q = ++p;
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if (!(p = parseTime(&tim, p, &dststart)))
return NULL;
while (p != q)
*buf++ = *q++;
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}
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if (*p != ',')
return NULL;
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p++;
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if (!(p = parseDate(buf, p, &dstend)))
return NULL;
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buf += strlen(buf);
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if (*p == '/')
{
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q = ++p;
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if (!(p = parseTime(&tim, p, &dstend)))
return NULL;
while (*buf++ = *q++)
;
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}
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if (*p)
return NULL;
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return p;
}
/* The following routine parses timezone information in POSIX-format. For
* the requirements, see IEEE Std 1003.1-1988 section 8.1.1.
* The function returns as soon as it spots an error.
*/
static void
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parseTZ(const char* p)
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{
long tz, dst = 60 * 60, sign = 1;
static char lastTZ[2 * RULE_LEN];
static char buffer[RULE_LEN];
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if (!p)
return;
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#if USE_TABLE
usetable = 0;
#endif
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if (*p == ':')
{
/*
* According to POSIX, this is implementation defined.
* Since it depends on the particular operating system, we
* can do nothing.
*/
return;
}
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if (!strcmp(lastTZ, p))
return; /* nothing changed */
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*_tzname[0] = '\0';
*_tzname[1] = '\0';
dststart.ds_type = 'U';
dststart.ds_sec = 2 * 60 * 60;
dstend.ds_type = 'U';
dstend.ds_sec = 2 * 60 * 60;
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if (strlen(p) > 2 * RULE_LEN)
return;
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strcpy(lastTZ, p);
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if (!(p = parseZoneName(buffer, p)))
return;
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if (*p == '-')
{
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sign = -1;
p++;
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}
else if (*p == '+')
p++;
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if (!(p = parseTime(&tz, p, NULL)))
return;
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tz *= sign;
_timezone = tz;
strncpy(_tzname[0], buffer, TZ_LEN);
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if (!(_daylight = (*p != '\0')))
return;
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buffer[0] = '\0';
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if (!(p = parseZoneName(buffer, p)))
return;
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strncpy(_tzname[1], buffer, TZ_LEN);
buffer[0] = '\0';
if (*p && (*p != ','))
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if (!(p = parseTime(&dst, p, NULL)))
return;
_dst_off = dst; /* dst was initialized to 1 hour */
if (*p)
{
if (*p != ',')
return;
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p++;
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if (strlen(p) > RULE_LEN)
return;
if (!(p = parseRule(buffer, p)))
return;
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}
}
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void _tzset(void)
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{
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#if defined(__BSD4_2)
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struct timeval tv;
struct timezone tz;
_gettimeofday(&tv, &tz);
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_daylight = tz.tz_dsttime;
_timezone = tz.tz_minuteswest * 60L;
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#elif !defined(_POSIX_SOURCE) && !defined(__USG)
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#if !defined(_MINIX) /* MINIX has no ftime() */
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struct timeb tim;
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_ftime(&tim);
_timezone = tim.timezone * 60L;
_daylight = tim.dstflag;
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#endif
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#endif /* !_POSIX_SOURCE && !__USG */
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parseTZ(getenv("TZ")); /* should go inside #if */
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#if defined(__USG) || defined(_POSIX_SOURCE)
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tzname[0] = _tzname[0];
tzname[1] = _tzname[1];
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#if defined(__USG)
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timezone = _timezone;
daylight = _daylight;
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#endif
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#endif /* __USG || _POSIX_SOURCE */
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}
static int
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last_sunday(register int day, register struct tm* timep)
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{
int first = FIRSTSUNDAY(timep);
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if (day >= 58 && LEAPYEAR(YEAR0 + timep->tm_year))
day++;
if (day < first)
return first;
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return day - (day - first) % 7;
}
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static int
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date_of(register struct dsttype* dst, struct tm* timep)
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{
int leap = LEAPYEAR(YEAR0 + timep->tm_year);
int firstday, tmpday;
register int day, month;
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if (dst->ds_type != 'M')
{
return dst->ds_date[0] - (dst->ds_type == 'J'
&& leap
&& dst->ds_date[0] < 58);
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}
day = 0;
month = 1;
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while (month < dst->ds_date[0])
{
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day += _ytab[leap][month - 1];
month++;
}
firstday = (day + FIRSTDAYOF(timep)) % 7;
tmpday = day;
day += (dst->ds_date[2] - firstday + 7) % 7
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+ 7 * (dst->ds_date[1] - 1);
if (day >= tmpday + _ytab[leap][month])
day -= 7;
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return day;
}
/*
* The default dst transitions are those for Western Europe (except Great
* Britain).
*/
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unsigned
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_dstget(register struct tm* timep)
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{
int begindst, enddst;
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register struct dsttype *dsts = &dststart, *dste = &dstend;
int do_dst = 0;
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if (_daylight == -1)
_tzset();
timep->tm_isdst = _daylight;
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if (!_daylight)
return 0;
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if (dsts->ds_type != 'U')
begindst = date_of(dsts, timep);
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else
begindst = last_sunday(89, timep); /* last Sun before Apr */
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if (dste->ds_type != 'U')
enddst = date_of(dste, timep);
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else
enddst = last_sunday(272, timep); /* last Sun in Sep */
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/* assume begindst != enddst (otherwise it would be no use) */
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if (begindst < enddst)
{ /* northern hemisphere */
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if (timep->tm_yday > begindst && timep->tm_yday < enddst)
do_dst = 1;
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}
else
{ /* southern hemisphere */
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if (timep->tm_yday > begindst || timep->tm_yday < enddst)
do_dst = 1;
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}
if (!do_dst
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&& (timep->tm_yday == begindst || timep->tm_yday == enddst))
{
long dsttranssec; /* transition when day is this old */
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long cursec;
if (timep->tm_yday == begindst)
dsttranssec = dsts->ds_sec;
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else
dsttranssec = dste->ds_sec;
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cursec = ((timep->tm_hour * 60) + timep->tm_min) * 60L
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+ timep->tm_sec;
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if ((timep->tm_yday == begindst && cursec >= dsttranssec)
|| (timep->tm_yday == enddst && cursec < dsttranssec))
do_dst = 1;
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}
#if USE_TABLE
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if (usetable)
ZoneFromTable(_timezone);
#endif
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if (do_dst)
return _dst_off;
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timep->tm_isdst = 0;
return 0;
}