What is the optimal way to work with time points without dates in C++?

I have timestamps without dates. The timestamps are for 24-hour military time, and without dates, time zones, or other information. The timestamps are stored as strings.

I need to accomplish two tasks:

  1. Store the time data represented by the timestamps.
  2. Calculate differences between times.

I am aware that C++ has libraries with time data structures. Some of these data structures include information about dates. If possible, I do not want to use those kinds of data structures, because my data does not include dates. I want functionality similar to that for time data structures in

  • Boost.Date_Time
  • chrono
  • ctime

but without any storage of date or anything else but 24-hour military time (either explicit or implicit).

I want time point objects that store no information about date or anything other than 24-hour military time. I want to

  1. Cast my timestamp strings to these objects.


  1. Find differences between the resulting time points (durations between the time points).

What is the best way to accomplish this?

My ideal solution involves an already existing standard or Boost library, and avoids storing any information about date, time zone, or anything other than 24-hour military time. It is possible that I have overlooked that my need might be met by one of the libraries I already mentioned (viz. Boost.Date_Time, chrono, or ctime).

  • Storing a duration as the time since midnight, springs to mind
    – M.M
    Jun 23, 2019 at 6:19
  • 1
    Either you want to use an existing library or boost, so what is the problem is using an existing struct provided by either and just zeroing the date information. If you are only dealing with military time. you have 86400 seconds per 24-hour period to deal with. So convert each time to seconds and you can differentiate between any two. Jun 23, 2019 at 7:01
  • 1
    A 24 hour period sometimes have 86401 seconds (if a leap second has been added), 30 Jun 2015 had 23:59:60 (or 235960) and 31 Dec 2016 also had one to name the latest.
    – Ted Lyngmo
    Jun 23, 2019 at 7:21
  • @TedLyngmo: And leap seconds happen everywhere simultaneously, producing local time aberrations like 08:44:60. Using anything with summer time, or really anything but UTC, for these purposes is madness. Jun 23, 2019 at 14:50

1 Answer 1


One idea is to create a custom chrono clock, perhaps called time_of_day_clock and then create a family of chrono::time_points off of that. Or perhaps you only need seconds-precision times (you weren't clear about that). Here's all it takes to create a seconds-precision time_point on such a clock:

struct time_of_day_clock {};
using time_of_day = std::chrono::time_point<time_of_day_clock,

Now you could create a couple of helper functions to cast between std::string and time_of_day:

// Assume t is of the form HH:MM:SS
to_time_of_day(const std::string& t)
    using namespace std::chrono;
    auto parse = [&t](auto i) -> int
            return (t[i]-'0')*10 + (t[i+1]-'0');
    hours h{parse(0)};
    minutes m{parse(3)};
    seconds s{parse(6)};
    return time_of_day{h+m+s};

// Format to HH:MM:SS
to_string(const time_of_day& t)
    using namespace std;
    using namespace std::chrono;
    auto s = t.time_since_epoch();
    assert(s >= 0s);
    assert(s < 86400s);
    auto h = duration_cast<hours>(s);
    s -= h;
    auto m = duration_cast<minutes>(s);
    s -= m;
    string r = "00:00:00";
    auto print = [&r](auto i, auto j)
            for (++j; i != 0; i /= 10, --j)
                r[j] = i % 10 + '0';
    print(h.count(), 0);
    print(m.count(), 3);
    print(s.count(), 6);
    return r;

Now you have all of the tools to do something like this:

    auto t1 = to_time_of_day("17:15:23");
    auto t2 = to_time_of_day("07:14:06");
    std::cout << "t1 = " << to_string(t1) << '\n';
    std::cout << "t2 = " << to_string(t2) << '\n';
    auto d = t1 - t2;
    std::cout << d.count() << "s\n";
    auto t3 = t2 + d;
    std::cout << "t3 = " << to_string(t3) << '\n';


t1 = 17:15:23
t2 = 07:14:06
t3 = 17:15:23

This gives you type-safety: times of day won't be confused with durations, but they will interoperate with a rational algebra.

Add as much error checking to the above as desired/required for your application.

There is one minor hiccup in the above plan: The language lawyers could complain that the whole thing is undefined behavior because time_of_day_clock doesn't meet the chrono clock requirements.

The reality is that things will just work unless you try to call now() on time_of_day_clock, or use time_of_day with an algorithm that tries to do so (or tries to access a nested type of time_of_day_clock). And if you accidentally do so, the result would be a compile-time error, not a run-time error, and not undefined behavior.

I consider the requirements on the Clock template parameter of time_point overly restrictive and will try to reduce them to what is actually required in a future standard1.

1 Done.

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