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BSD 4.3
/* dtime.c - routines to do ``ARPA-style'' time structures */
/* LINTLIBRARY */
#include "tws.h"
#ifndef INETONLY
#include "../h/strings.h"
#else INETONLY
#include "strings.h"
#endif INETONLY
#include <stdio.h>
#include <sys/types.h>
#ifndef SYS5
#include <sys/timeb.h>
#endif not SYS5
#ifndef BSD42
#include <time.h>
#else BSD42
#include <sys/time.h>
#endif BSD42
#ifdef SYS5
extern int daylight;
extern long timezone;
extern char *tzname[];
#endif SYS5
/*
*/
#define abs(a) (a >= 0 ? a : -a)
#define dysize(y) \
(((y) % 4) ? 365 : (((y) % 100) ? 366 : (((y) % 400) ? 365 : 366)))
/*
*/
char *tw_moty[] = {
"Jan", "Feb", "Mar", "Apr", "May", "Jun",
"Jul", "Aug", "Sep", "Oct", "Nov", "Dec", NULL
};
char *tw_dotw[] = {
"Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat", NULL
};
char *tw_ldotw[] = {
"Sunday", "Monday", "Tuesday", "Wednesday",
"Thursday", "Friday", "Saturday", NULL
};
/*
*/
static struct zone {
char *std,
*dst;
int shift;
} zones[] = {
"GMT", "BST", 0,
"EST", "EDT", -5,
"CST", "CDT", -6,
"MST", NULL, -7,
"PST", "PDT", -8,
"A", NULL, -1,
"B", NULL, -2,
"C", NULL, -3,
"D", NULL, -4,
"E", NULL, -5,
"F", NULL, -6,
"G", NULL, -7,
"H", NULL, -8,
"I", NULL, -9,
"K", NULL, -10,
"L", NULL, -11,
"M", NULL, -12,
"N", NULL, 1,
#ifndef HUJI
"O", NULL, 2,
#else HUJI
"JST", "JDT", 2,
#endif HUJI
"P", NULL, 3,
"Q", NULL, 4,
"R", NULL, 5,
"S", NULL, 6,
"T", NULL, 7,
"U", NULL, 8,
"V", NULL, 9,
"W", NULL, 10,
"X", NULL, 11,
"Y", NULL, 12,
NULL
};
#define CENTURY 19
long time ();
struct tm *localtime ();
/*
*/
char *dtimenow () {
long clock;
(void) time (&clock);
return dtime (&clock);
}
char *dctime (tw)
register struct tws *tw;
{
static char buffer[25];
if (!tw)
return NULL;
(void) sprintf (buffer, "%.3s %.3s %02d %02d:%02d:%02d %.4d\n",
tw_dotw[tw -> tw_wday], tw_moty[tw -> tw_mon], tw -> tw_mday,
tw -> tw_hour, tw -> tw_min, tw -> tw_sec,
tw -> tw_year >= 100 ? tw -> tw_year : 1900 + tw -> tw_year);
return buffer;
}
/*
*/
struct tws *dtwstime () {
long clock;
(void) time (&clock);
return dlocaltime (&clock);
}
struct tws *dlocaltime (clock)
register long *clock;
{
register struct tm *tm;
#ifndef SYS5
struct timeb tb;
#endif not SYS5
static struct tws tw;
if (!clock)
return NULL;
tw.tw_flags = TW_NULL;
tm = localtime (clock);
tw.tw_sec = tm -> tm_sec;
tw.tw_min = tm -> tm_min;
tw.tw_hour = tm -> tm_hour;
tw.tw_mday = tm -> tm_mday;
tw.tw_mon = tm -> tm_mon;
tw.tw_year = tm -> tm_year;
tw.tw_wday = tm -> tm_wday;
tw.tw_yday = tm -> tm_yday;
if (tm -> tm_isdst)
tw.tw_flags |= TW_DST;
#ifndef SYS5
ftime (&tb);
tw.tw_zone = -tb.timezone;
#else SYS5
tzset ();
tw.tw_zone = -(timezone / 60);
#endif SYS5
tw.tw_flags &= ~TW_SDAY, tw.tw_flags |= TW_SEXP;
tw.tw_clock = *clock;
return (&tw);
}
struct tws *dgmtime (clock)
register long *clock;
{
register struct tm *tm;
static struct tws tw;
if (!clock)
return NULL;
tw.tw_flags = TW_NULL;
tm = gmtime (clock);
tw.tw_sec = tm -> tm_sec;
tw.tw_min = tm -> tm_min;
tw.tw_hour = tm -> tm_hour;
tw.tw_mday = tm -> tm_mday;
tw.tw_mon = tm -> tm_mon;
tw.tw_year = tm -> tm_year;
tw.tw_wday = tm -> tm_wday;
tw.tw_yday = tm -> tm_yday;
if (tm -> tm_isdst)
tw.tw_flags |= TW_DST;
tw.tw_zone = 0;
tw.tw_flags &= ~TW_SDAY, tw.tw_flags |= TW_SEXP;
tw.tw_clock = *clock;
return (&tw);
}
/*
*/
char *dasctime (tw, flags)
register struct tws *tw;
int flags;
{
static char buffer[80],
result[80];
if (!tw)
return NULL;
(void) sprintf (buffer, "%02d %s %02d %02d:%02d:%02d %s",
tw -> tw_mday, tw_moty[tw -> tw_mon], tw -> tw_year,
tw -> tw_hour, tw -> tw_min, tw -> tw_sec,
dtimezone (tw -> tw_zone, tw -> tw_flags | flags));
if ((tw -> tw_flags & TW_SDAY) == TW_SEXP)
(void) sprintf (result, "%s, %s", tw_dotw[tw -> tw_wday], buffer);
else
if ((tw -> tw_flags & TW_SDAY) == TW_SNIL)
(void) strcpy (result, buffer);
else
(void) sprintf (result, "%s (%s)", buffer, tw_dotw[tw -> tw_wday]);
return result;
}
/*
*/
char *dtimezone (offset, flags)
register int offset,
flags;
{
register int hours,
mins;
register struct zone *z;
static char buffer[10];
if (offset < 0) {
mins = -((-offset) % 60);
hours = -((-offset) / 60);
}
else {
mins = offset % 60;
hours = offset / 60;
}
if (!(flags & TW_ZONE) && mins == 0)
for (z = zones; z -> std; z++)
if (z -> shift == hours)
return (z -> dst && (flags & TW_DST) ? z -> dst : z -> std);
(void) sprintf (buffer, "%s%02d%02d",
offset < 0 ? "-" : "+", abs (hours), abs (mins));
return buffer;
}
/*
*/
void twscopy (tb, tw)
register struct tws *tb,
*tw;
{
#ifdef notdef
tb -> tw_sec = tw -> tw_sec;
tb -> tw_min = tw -> tw_min;
tb -> tw_hour = tw -> tw_hour;
tb -> tw_mday = tw -> tw_mday;
tb -> tw_mon = tw -> tw_mon;
tb -> tw_year = tw -> tw_year;
tb -> tw_wday = tw -> tw_wday;
tb -> tw_yday = tw -> tw_yday;
tb -> tw_zone = tw -> tw_zone;
tb -> tw_clock = tw -> tw_clock;
tb -> tw_flags = tw -> tw_flags;
#else not notdef
*tb = *tw;
#endif not notdef
}
int twsort (tw1, tw2)
register struct tws *tw1,
*tw2;
{
register long c1,
c2;
if (tw1 -> tw_clock == 0L)
(void) twclock (tw1);
if (tw2 -> tw_clock == 0L)
(void) twclock (tw2);
return ((c1 = tw1 -> tw_clock) > (c2 = tw2 -> tw_clock) ? 1
: c1 == c2 ? 0 : -1);
}
/*
*/
/* This routine is based on the gtime() routine written by Steven Shafer
(sas) at CMU. It was forwarded to MTR by Jay Lepreau at Utah-CS.
*/
static int dmsize[] = {
31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31
};
long twclock (tw)
register struct tws *tw;
{
register int i,
sec,
min,
hour,
mday,
mon,
year;
register long result;
if (tw -> tw_clock != 0L)
return tw -> tw_clock;
if ((sec = tw -> tw_sec) < 0 || sec > 59
|| (min = tw -> tw_min) < 0 || min > 59
|| (hour = tw -> tw_hour) < 0 || hour > 23
|| (mday = tw -> tw_mday) < 1 || mday > 31
|| (mon = tw -> tw_mon + 1) < 1 || mon > 12)
return (tw -> tw_clock = -1L);
year = tw -> tw_year;
result = 0L;
year += 1900;
for (i = 1970; i < year; i++)
result += dysize (i);
if (dysize (year) == 366 && mon >= 3)
result++;
while (--mon)
result += dmsize[mon - 1];
result += mday - 1;
result = 24 * result + hour;
result = 60 * result + min;
result = 60 * result + sec;
result -= 60 * tw -> tw_zone;
if (tw -> tw_flags & TW_DST)
result -= 60 * 60;
return (tw -> tw_clock = result);
}
/*
*/
/*
* Simple calculation of day of the week. Algorithm used is Zeller's
* congruence. Currently, we assume if tw -> tw_year < 100
* then the century is CENTURY.
*/
set_dotw (tw)
register struct tws *tw;
{
register int month,
day,
year,
century;
month = tw -> tw_mon - 1;
day = tw -> tw_mday;
year = tw -> tw_year % 100;
century = tw -> tw_year >= 100 ? tw -> tw_year / 100 : CENTURY;
if (month <= 0) {
month += 12;
if (--year < 0) {
year += 100;
century--;
}
}
tw -> tw_wday =
((26 * month - 2) / 10 + day + year + year / 4
- 3 * century / 4 + 1) % 7;
tw -> tw_flags &= ~TW_SDAY, tw -> tw_flags |= TW_SIMP;
}
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