4.3BSD/usr/contrib/rcs/src/maketime.c
#
/*
* MAKETIME derive 32-bit time value from TM structure.
*
* Usage:
* long t,maketime();
* struct tm *tp; Pointer to TM structure from <time.h>
* NOTE: this must be extended version!!!
* t = maketime(tp);
*
* Returns:
* 0 if failure; parameter out of range or nonsensical.
* else long time-value.
* Notes:
* This code is quasi-public; it may be used freely in like software.
* It is not to be sold, nor used in licensed software without
* permission of the author.
* For everyone's benefit, please report bugs and improvements!
* Copyright 1981 by Ken Harrenstien, SRI International.
* (ARPANET: KLH @ SRI)
*/
static char rcsid[]= "$Id: maketime.c,v 1.1 82/05/06 11:38:00 wft Exp $";
/* $Log: maketime.c,v $
* Revision 1.1 82/05/06 11:38:00 wft
* Initial revision
*
*/
#include "time.h"
int daytb[] = { /* # days in year thus far, indexed by month (0-12!!) */
0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334, 365
};
struct tm *localtime();
long maketime(atm)
struct tm *atm;
{ register struct tm *tp;
register int i;
int year, yday, mon, day, hour, min, sec, zone, dst, leap;
long tres, curtim;
time(&curtim);
tp = localtime(&curtim); /* Get breakdowns of current time */
year = tp->tm_year; /* Use to set up defaults */
mon = tp->tm_mon;
day = tp->tm_mday;
#ifdef DEBUG
printf("first YMD: %d %d %d, T=%ld\n",year,mon,day,tres);
#endif DEBUG
tp = atm;
/* First must find date, using specified year, month, day.
* If one of these is unspecified, it defaults either to the
* current date (if no more global spec was given) or to the
* zero-value for that spec (i.e. a more global spec was seen).
* Start with year... note 32 bits can only handle 135 years.
*/
if(tp->tm_year != TMNULL)
{ if((year = tp->tm_year) >= 1900) /* Allow full yr # */
year -= 1900; /* by making kosher */
mon = 0; /* Since year was given, default */
day = 1; /* for remaining specs is zero */
}
if(year < 70 || 70+134 < year ) /* Check range */
return(0); /* ERR: year out of range */
leap = year&03 ? 0 : 1; /* See if leap year */
year -= 70; /* UNIX time starts at 1970 */
/*
* Find day of year.
* YDAY is used only if it exists and either the month or day-of-month
* is missing.
*/
if (tp->tm_yday != TMNULL
&& (tp->tm_mon == TMNULL || tp->tm_mday == TMNULL))
yday = tp->tm_yday;
else
{ if(tp->tm_mon != TMNULL)
{ mon = tp->tm_mon; /* Month was specified */
day = 1; /* so set remaining default */
}
if(mon < 0 || 11 < mon) return(0); /* ERR: bad month */
if(tp->tm_mday != TMNULL) day = tp->tm_mday;
if(day < 1
|| (((daytb[mon+1]-daytb[mon]) < day)
&& (day!=29 || mon!=1 || !leap) ))
return(0); /* ERR: bad day */
yday = daytb[mon] /* Add # of days in months so far */
+ ((leap /* Leap year, and past Feb? If */
&& mon>1)? 1:0) /* so, add leap day for this year */
+ day-1; /* And finally add # days this mon */
if (tp->tm_yday != TMNULL /* Confirm that YDAY correct */
&& tp->tm_yday != yday) return(0); /* ERR: conflict */
}
if(yday < 0 || (leap?366:365) <= yday)
return(0); /* ERR: bad YDAY or maketime bug */
tres = year*365 /* Get # days of years so far */
+ ((year+1)>>2) /* plus # of leap days since 1970 */
+ yday; /* and finally add # days this year */
if((i = tp->tm_wday) != TMNULL) /* Check WDAY if present */
if(i < 0 || 6 < i /* Ensure within range */
|| i != (tres+4)%7) /* Matches? Jan 1,1970 was Thu = 4 */
return(0); /* ERR: bad WDAY */
#ifdef DEBUG
printf("YMD: %d %d %d, T=%ld\n",year,mon,day,tres);
#endif DEBUG
/*
* Now determine time. If not given, default to zeros
* (since time is always the least global spec)
*/
tres *= 86400L; /* Get # seconds (24*60*60) */
hour = min = sec = 0;
if(tp->tm_hour != TMNULL) hour = tp->tm_hour;
if(tp->tm_min != TMNULL) min = tp->tm_min;
if(tp->tm_sec != TMNULL) sec = tp->tm_sec;
if( min < 0 || 60 <= min
|| sec < 0 || 60 <= sec) return(0); /* ERR: MS out of range */
if(hour < 0 || 24 <= hour)
if(hour != 24 || (min+sec) !=0) /* Allow 24:00 */
return(0); /* ERR: H out of range */
/* confirm AM/PM if there */
switch(tp->tm_ampm)
{ case 0: case TMNULL: /* Ignore these values */
break;
case 1: /* AM */
case 2: /* PM */
if(hour > 12) return(0); /* ERR: hrs 13-23 bad */
if(hour ==12) hour = 0; /* Modulo 12 */
if(tp->tm_ampm == 2) /* If PM, then */
hour += 12; /* get 24-hour time */
break;
default: return(0); /* ERR: illegal TM_AMPM value */
}
tres += sec + 60L*(min + 60L*hour); /* Add in # secs of time */
#ifdef DEBUG
printf("HMS: %d %d %d T=%ld\n",hour,min,sec,tres);
#endif DEBUG
/*
* We now have the GMT date/time and must make final
* adjustment for the specified time zone. If none is specified,
* the local time-zone is assumed.
*/
if((zone = tp->tm_zon) == TMNULL /* If unspecified */
|| (zone == 1)) /* or local-zone requested */
zone = localzone(); /* then set to local zone */
if(zone < 0 || 24*60 <= zone)
return(0); /* ERR: zone out of range */
/* See if must apply Daylight Saving Time shift.
* Note that if DST is specified, validity is not checked.
*/
if((dst = tp->tm_isdst) == TMNULL) /* Must we figure it out? */
{ curtim = tres +localzone()*60L; /* Yuck. Get equiv local */
dst = localtime(&curtim)->tm_isdst; /* time, and ask. */
}
tres += zone*60L -(dst?3600:0); /* Add in # seconds of zone adj */
return(tres);
}
/* LOCALZONE return local timezone in # mins west of GMT
*
*/
#ifdef V6
extern timezone;
#else /* V7 */
#include <sys/types.h>
#include <sys/timeb.h>
#endif V6/7
int _lclzon = -1;
localzone()
{
#ifdef V6
return(_lclzon >= 0 ? _lclzon : (_lclzon = timezone/60));
#else /* V7 */
struct timeb tb;
if(_lclzon < 0)
{ ftime(&tb);
_lclzon = tb.timezone;
}
return(_lclzon);
#endif V6/7
}