A portable C++ solution would be to use
chrono::steady_clock to measure time. This is available in C++11 in the header
<chrono>, but may well be available to older compilers in TR1 in
<tr1/chrono> or boost.chrono.
The steady clock always advances at a rate "as uniform as possible", which is an important consideration on a multi-tasking multi-threaded platform. The steady clock is also independent of any sort of "wall clock", like the system clock (which may be arbitrarily manipulated at any time).
steady_clock isn't in your implementation, look for
<chrono> types are a bit fiddly to use, so here is a sample piece of code that returns a steady timestamp (or rather, a timestamp from whichever clock you like, e.g. the
template <typename Clock>
long long int clockTick(int multiple = 1000)
typedef typename Clock::period period;
return (Clock::now().time_since_epoch().count() * period::num * multiple) / period::den;
typedef std::chrono::monotonic_clock myclock; // old
typedef std::chrono::steady_clock yourclock; // C++11
long long int timestamp_ms = clockTick<myclock>(); // milliseconds by default
long long int timestamp_s = clockTick<yourclock>(1); // seconds
long long int timestamp_us = clockTick<myclock>(1000000); // microseconds