V7/usr/src/libc/gen/ctime.c
/*
* This routine converts time as follows.
* The epoch is 0000 Jan 1 1970 GMT.
* The argument time is in seconds since then.
* The localtime(t) entry returns a pointer to an array
* containing
* seconds (0-59)
* minutes (0-59)
* hours (0-23)
* day of month (1-31)
* month (0-11)
* year-1970
* weekday (0-6, Sun is 0)
* day of the year
* daylight savings flag
*
* The routine calls the system to determine the local
* timezone and whether Daylight Saving Time is permitted locally.
* (DST is then determined by the current US standard rules)
* There is a table that accounts for the peculiarities
* undergone by daylight time in 1974-1975.
*
* The routine does not work
* in Saudi Arabia which runs on Solar time.
*
* asctime(tvec))
* where tvec is produced by localtime
* returns a ptr to a character string
* that has the ascii time in the form
* Thu Jan 01 00:00:00 1970n0��\\
* 01234567890123456789012345
* 0 1 2
*
* ctime(t) just calls localtime, then asctime.
*/
#include <time.h>
#include <sys/types.h>
#include <sys/timeb.h>
static char cbuf[26];
static int dmsize[12] =
{
31,
28,
31,
30,
31,
30,
31,
31,
30,
31,
30,
31
};
/*
* The following table is used for 1974 and 1975 and
* gives the day number of the first day after the Sunday of the
* change.
*/
static struct {
int daylb;
int dayle;
} daytab[] = {
5, 333, /* 1974: Jan 6 - last Sun. in Nov */
58, 303, /* 1975: Last Sun. in Feb - last Sun in Oct */
};
struct tm *gmtime();
char *ct_numb();
struct tm *localtime();
char *ctime();
char *ct_num();
char *asctime();
char *
ctime(t)
long *t;
{
return(asctime(localtime(t)));
}
struct tm *
localtime(tim)
long *tim;
{
register int dayno;
register struct tm *ct;
register daylbegin, daylend;
long copyt;
struct timeb systime;
ftime(&systime);
copyt = *tim - (long)systime.timezone*60;
ct = gmtime(©t);
dayno = ct->tm_yday;
daylbegin = 119; /* last Sun in Apr */
daylend = 303; /* Last Sun in Oct */
if (ct->tm_year==74 || ct->tm_year==75) {
daylbegin = daytab[ct->tm_year-74].daylb;
daylend = daytab[ct->tm_year-74].dayle;
}
daylbegin = sunday(ct, daylbegin);
daylend = sunday(ct, daylend);
if (systime.dstflag &&
(dayno>daylbegin || (dayno==daylbegin && ct->tm_hour>=2)) &&
(dayno<daylend || (dayno==daylend && ct->tm_hour<1))) {
copyt += 1*60*60;
ct = gmtime(©t);
ct->tm_isdst++;
}
return(ct);
}
/*
* The argument is a 0-origin day number.
* The value is the day number of the first
* Sunday on or after the day.
*/
static
sunday(t, d)
register struct tm *t;
register int d;
{
if (d >= 58)
d += dysize(t->tm_year) - 365;
return(d - (d - t->tm_yday + t->tm_wday + 700) % 7);
}
struct tm *
gmtime(tim)
long *tim;
{
register int d0, d1;
long hms, day;
register int *tp;
static struct tm xtime;
/*
* break initial number into days
*/
hms = *tim % 86400;
day = *tim / 86400;
if (hms<0) {
hms += 86400;
day -= 1;
}
tp = (int *)&xtime;
/*
* generate hours:minutes:seconds
*/
*tp++ = hms%60;
d1 = hms/60;
*tp++ = d1%60;
d1 /= 60;
*tp++ = d1;
/*
* day is the day number.
* generate day of the week.
* The addend is 4 mod 7 (1/1/1970 was Thursday)
*/
xtime.tm_wday = (day+7340036)%7;
/*
* year number
*/
if (day>=0) for(d1=70; day >= dysize(d1); d1++)
day -= dysize(d1);
else for (d1=70; day<0; d1--)
day += dysize(d1-1);
xtime.tm_year = d1;
xtime.tm_yday = d0 = day;
/*
* generate month
*/
if (dysize(d1)==366)
dmsize[1] = 29;
for(d1=0; d0 >= dmsize[d1]; d1++)
d0 -= dmsize[d1];
dmsize[1] = 28;
*tp++ = d0+1;
*tp++ = d1;
xtime.tm_isdst = 0;
return(&xtime);
}
char *
asctime(t)
struct tm *t;
{
register char *cp, *ncp;
register int *tp;
cp = cbuf;
for (ncp = "Day Mon 00 00:00:00 1900\n"; *cp++ = *ncp++;);
ncp = &"SunMonTueWedThuFriSat"[3*t->tm_wday];
cp = cbuf;
*cp++ = *ncp++;
*cp++ = *ncp++;
*cp++ = *ncp++;
cp++;
tp = &t->tm_mon;
ncp = &"JanFebMarAprMayJunJulAugSepOctNovDec"[(*tp)*3];
*cp++ = *ncp++;
*cp++ = *ncp++;
*cp++ = *ncp++;
cp = ct_numb(cp, *--tp);
cp = ct_numb(cp, *--tp+100);
cp = ct_numb(cp, *--tp+100);
cp = ct_numb(cp, *--tp+100);
if (t->tm_year>=100) {
cp[1] = '2';
cp[2] = '0';
}
cp += 2;
cp = ct_numb(cp, t->tm_year+100);
return(cbuf);
}
dysize(y)
{
if((y%4) == 0)
return(366);
return(365);
}
static char *
ct_numb(cp, n)
register char *cp;
{
cp++;
if (n>=10)
*cp++ = (n/10)%10 + '0';
else
*cp++ = ' ';
*cp++ = n%10 + '0';
return(cp);
}