# Difference in seconds between two dates?

The question is simple, there are many API specific methods in other languages, but I found none that that were simple and straight forward for Cross-platform C++ usage.

If I have two dates, and they are assumed to be in the same locale, what is the easiest way to differentiate them in C++?

I have (somewhat) looked at using `time.h`, creating two `tm` objects, converting them to UTC and then differentiating them.

The current format for the dates is: `YY/MM/DD HH:mm:SS` (stored as individual integers)

EDIT:

Ok, based on current answers, I've done the following (for now):

``````time_t calculate_seconds_between(
const uint Y1, const uint M1, const uint D1, const uint H1, const uint m1, const uint S1, // YY/MM/DD HH:mm:SS
const uint Y2, const uint M2, const uint D2, const uint H2, const uint m2, const uint S2
)
{
time_t raw;
time(&raw);

struct tm t1 = *gmtime(&raw), t2 = t1;

t1.tm_year = Y1 - 1900;
t1.tm_mon = M1 - 1;
t1.tm_mday = D1;
t1.tm_hour = H1;
t1.tm_min = m1;
t1.tm_sec = S1;

t2.tm_year = Y2 - 1900;
t2.tm_mon = M2 - 1;
t2.tm_mday = D2;
t2.tm_hour = H2;
t2.tm_min = m2;
t2.tm_sec = S2;

time_t tt1, tt2;
tt1 = mktime(&t1);
tt2 = mktime(&t2);

return (tt2 - tt1);
}
``````

Which works great.

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Note that the difference between two times does not depend on the time zone, as long as it's consistent. I.e. the difference between 17:00:00(UTC+1) and 17:05:00(UTC+1) is the same as the difference between 16:00:00(UTC) and 16:05:00(UTC). (Daylight Savings Time does act as another timezone; be careful with that). – MSalters Nov 28 '11 at 10:57
@MSalters, yeah I just realised that. Sometimes just writing out the question gives the clarity needed to produce the answer... which is frustrating, because I usually use SO as my last resort (ie, many hours past). Cheers :) – dcousens Nov 28 '11 at 11:05
@Daniel Why are you using gmtime? Which fields do you need to update? – selalerer Nov 28 '11 at 12:31
@MSalters: and even within what you might naively call "the same timezone", in the absence of daylight savings, there are occasional discontinuities: stackoverflow.com/questions/6841333/… – Steve Jessop Nov 28 '11 at 12:53
@Daniel: in that case UTC is better than TAI "actual time", since the whole point of leap seconds is to correct for solar position. I think what you actually want for astronomy is UT1, but it's never more than about a second different from UTC, so the latter is close enough for jazz. By comparison, TAI is currently 34 seconds different from UTC (according to Wikipedia) - 34 more "actual seconds" have elapsed since 1972, than UTC admits to. – Steve Jessop Nov 29 '11 at 10:33

To convert from `YY/MM/DD HH:mm:SS` to `struct tm` you can use strptime (or make an equivalent if you don't have it)

``````const char * dateInput;
// ....
struct tm tm;
time_t val;

memset(&tm, 0, sizeof(struct tm));
strptime(dateInput,"%y/%m/%d %H:%M:%S",&tm);
val = mktime(&tm);
``````

After you have the two `time_t` values you can call difftime.

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The new C++11 has the chrono library (also available from boost, for non C++11 compilers )

With it you can do nifty things like

``````boost::chrono::system_clock::time_point start = boost::chrono::system_clock::now();
// ...
boost::chrono::duration<double> sec = boost::chrono::system_clock::now() - start;
std::cout << "took " << sec.count() << " seconds\n";
``````

or

``````typedef boost::chrono::duration<long, boost::ratio<60> > minutes;
minutes m1(3);                 // m1 stores 3
minutes m2(2);                 // m2 stores 2
minutes m3 = m1 + m2;          // m3 stores 5
``````
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