Some C++ implementations (for instance, battery-powered embedded devices) may have no use or no way for tracking the current date and time.
The C standard specifically allows for such implementations. To quote from ISO/IEC 9899:1999 220.127.116.11 (emphasis mine):
The time function returns the implementation’s best approximation to the current calendar time. The value (time_t)(-1) is returned if the calendar time is not available.
C++11 introduced the
chrono library and the
std::chrono::system_clock::now() function for getting the wall clock time from the system-wide realtime clock. The function is declared as
noexcept, so it cannot throw any exception to indicate unavailability nor does it allow returning any special value (like
-1 in the case of C).
But with C++11, C++14 and C++17 there was still a loophole. The standard didn't specify the clock's epoch, so a conforming implementation could set the epoch to the point in time when it was powered on (or the program was started) and still satisfy the requirements of the standard.
The current draft of C++20 will close that loophole and require
system_clock to use Unix time. In other words, a C++ implementation that doesn't know the current time is non-conforming.
Is this an oversight by the standards committee? How can a conforming C++ implementation indicate that it doesn't know the current date and time?
(Note that in other parts of the standard this problem is solved. For instance, an implementation may set the
__DATE__ macros to an implementation-defined value if the real time and date is not available.)