Converting epoch time to "real" date/time
What I want to do is convert an epoch time (seconds since midnight 1/1/1970) to "real" time (m/d/y h:m:s)
So far, I have the following algorithm, which to me feels a bit ugly:
void DateTime::splitTicks(time_t time) {
seconds = time % 60;
time /= 60;
minutes = time % 60;
time /= 60;
hours = time % 24;
time /= 24;
year = DateTime::reduceDaysToYear(time);
month = DateTime::reduceDaysToMonths(time,year);
day = int(time);
}
int DateTime::reduceDaysToYear(time_t &days) {
int year;
for (year=1970;days>daysInYear(year);year++) {
days -= daysInYear(year);
}
return year;
}
int DateTime::reduceDaysToMonths(time_t &days,int year) {
int month;
for (month=0;days>daysInMonth(month,year);month++)
days -= daysInMonth(month,year);
return month;
}
you can assume that the members seconds, minutes, hours, month, day, and year all exist.
Using the for loops to modify the original time feels a little off, and I was wondering if there is a "better" solution to this.
Answer
Be careful about leap years in your daysInMonth function.
If you want very high performance, you can precompute the pair to get to month+year in one step, and then calculate the day/hour/min/sec.
A good solution is the one in the gmtime source code:
/*
* gmtime - convert the calendar time into broken down time
*/
/* $Header: gmtime.c,v 1.4 91/04/22 13:20:27 ceriel Exp $ */
#include <time.h>
#include <limits.h>
#include "loc_time.h"
struct tm *
gmtime(register const time_t *timer)
{
static struct tm br_time;
register struct tm *timep = &br_time;
time_t time = *timer;
register unsigned long dayclock, dayno;
int year = EPOCH_YR;
dayclock = (unsigned long)time % SECS_DAY;
dayno = (unsigned long)time / SECS_DAY;
timep->tm_sec = dayclock % 60;
timep->tm_min = (dayclock % 3600) / 60;
timep->tm_hour = dayclock / 3600;
timep->tm_wday = (dayno + 4) % 7; /* day 0 was a thursday */
while (dayno >= YEARSIZE(year)) {
dayno -= YEARSIZE(year);
year++;
}
timep->tm_year = year - YEAR0;
timep->tm_yday = dayno;
timep->tm_mon = 0;
while (dayno >= _ytab[LEAPYEAR(year)][timep->tm_mon]) {
dayno -= _ytab[LEAPYEAR(year)][timep->tm_mon];
timep->tm_mon++;
}
timep->tm_mday = dayno + 1;
timep->tm_isdst = 0;
return timep;
}