I am given the values for year, month,day,hour,minute and second in UTC. I need to calculate the milliseconds since the epoch (UTC).

How can this be achieved?


  • Do you have to do it in boost::chrono? It's not really well suited for boost::chrono (perhaps boost::posix_time or boost::gregorian would be better). That's trivially easy using what's provided in <ctime> (presuming you mean the UTC "unix timestamp epoch". – Chad Nov 21 '13 at 20:11

If you can neglect leap seconds, this is quite easy with the right tools.

You will need:

  1. days_from_civil located here.
  2. A custom duration type representing days == 24 hours (shown below).
  3. C++11's std::chrono or boost::chrono library (I'm showing it with std::chrono).

Here is how you create a custom chrono::duration that represents 24 hours:

typedef std::chrono::duration
    std::int32_t, std::ratio_multiply<std::chrono::hours::period, std::ratio<24>>
> days;

Now you are ready to write your function:

ms_since_UTC(int year, int month, int day, std::chrono::hours h,
             std::chrono::minutes m, std::chrono::seconds s)
    return days(days_from_civil(year, month, day)) + h + m + s;

days_from_civil will convert your year/month/day into the number of days since New Years 1970 (the UTC epoch). Your custom duration days will seamlessly interoperate with the "pre-defined" chrono durations: hours, minutes, seconds, and milliseconds. All of these durations will implicitly convert to milliseconds with no truncation error.

If you need to take leap seconds into account, then you will need to build a table of {days, chrono::seconds}, where the second part of the entry is the cumulative number of leap seconds you need to add to the duration if the current value of days is on or after the days entry in the table.

static constexpr std::pair<days, std::chrono::seconds> leap_seconds[25] =
    std::make_pair(days(days_from_civil(1972, 7, 1)), std::chrono::seconds(1)),
    // ...

Then you will need to search that table (using std::find_if, or std::lower_bound) to see if the return from days_from_civil lies prior to the table, within the table, or beyond the table. If prior to the table you add 0 leap seconds. If within the table, you add the appropriate number of leap seconds according to the table entry. If beyond the table you add (currently) 25 leap seconds.

return d + h + m + s + ls;

This is a "high maintenance" solution in that the table in this code will need to be updated every time they decide to add a leap second to UTC. It should also be noted that this solution can't be used with high confidence more than about 6 months in the future because one simply does not know if a leap second will be added (or subtracted) further in the future than that.

The days_from_civil code is in the public domain, so feel free to use it. It is efficient. And it has a +/- range of about 5.8 million years when given 32 bit signed inputs (so you don't really have to worry about breaching its range of validity). The paper goes into the gnarly details of how the algorithm works if you are interested.

  • Is days_from_civil or something similar in the STL or in Boost? – Albert Mar 6 '14 at 13:53
  • @Albert: Definitely not in the std::lib. boost has boost::datetime, and its own implementation of <chrono>. However my paper is the only source I'm aware of of this particular formulation. If you search the web you can find similar formulas elsewhere, though not this exact one. My paper is the only one I'm aware of which clearly defines the range of validity of the formula. You (or anyone else) are free to take this formula and use it however you choose. I consider it in the public domain. – Howard Hinnant Mar 6 '14 at 18:22

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