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I have some arbitrary epoch, like July 13, 1988. Essentially I want to measure the time relative to this. I was thinking of writing a custom clock class, so that I could write code like this:

using std::chrono;
time_point<My_Clock> tp;
std::cout << duration_cast<seconds>(tp.time_since_epoch()).count() << std::endl;

Is this possible? If not, what's the cleanest way to accomplish this?

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I'll bet the standard has requirements listed. –  chris May 14 '13 at 0:24
    
time_point accepts Clock as a template, which is a concept. You could just write your own class that satisfies the requirements imposed by that particular concept. But don't take my word for it all, I'm just thinking out loud. –  Daniel Kamil Kozar May 14 '13 at 0:28
    
@DanielKamilKozar I looked into the source for system_clock for an example of this but I didn't get very far. I don't see where the actual epoch is specified. I think it's system dependent. Where would I find documentation for how to do something like that? –  sagargp May 14 '13 at 3:41

1 Answer 1

up vote 7 down vote accepted

The hard part of writing this custom clock is figuring out how to write its now() function. In the example below I base the now() off of system_clock's now(). First I do some detective work to discover that my system_clock has an epoch of New Years 1970, neglecting leap seconds. This is known as unix time. As it turns out, every implementation I'm aware of (and I think I've checked them all) have this very same epoch (but this is unspecified by the C++11 standard).

Next I compute that 1988-07-13 is 6768 days after 1970-01-01. Using these two facts, the rest is easy:

#include <chrono>

struct My_Clock
{
    typedef std::chrono::seconds              duration;
    typedef duration::rep                     rep;
    typedef duration::period                  period;
    typedef std::chrono::time_point<My_Clock> time_point;
    static const bool is_steady =             false;

    static time_point now() noexcept
    {
        using namespace std::chrono;
        return time_point
          (
            duration_cast<duration>(system_clock::now().time_since_epoch()) -
            hours(6768*24)
          );
    }
};

MyClock needs nested typedefs to describe its duration, rep, period, and time_point. Based on your question, I've chosen seconds as the duration, but you can choose anything you want.

For the now() function I just call the system_clock::now() and subtract off the epoch in units of seconds. I got just a little clever with this computation by writing everything in terms of MyClock::duration so that I can more easily change duration. Note that I was able to subtract off the epoch in terms of hours, which implicitly converts to duration (which is seconds). Alternatively I could have built myself a custom duration of days:

typedef std::chrono::duration<int, std::ratio_multiply<std::chrono::hours::period,
                                                       std::ratio<24>>> days;

And then the return of now() could have been written:

        return time_point
          (
            duration_cast<duration>(system_clock::now().time_since_epoch()) -
            days(6768)
          );

At any rate, now you can use this like:

#include <iostream>

int
main()
{
    using namespace std::chrono;
    time_point<My_Clock> tp = My_Clock::now();
    std::cout << tp.time_since_epoch().count() << '\n';
}

Which for me just printed out:

786664963

Which demonstrates that today (2013-06-16) is approximately 24.9 years after 1988-07-13.

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This is awesome, exactly what I needed. Thanks! –  sagargp Jun 22 '13 at 19:20

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