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On Win32 system boost::date_time::microsec_clock() is implemented using ftime, which provides only millisecond resolution: Link to doc

There are some questions/answers on Stackoverflow stating this and linking the documentation, but not explaining why that is the case:

There seemingly are ways to implement microsecond resolution on Windows:

What I'm interested in is why Boost implemented it that way, when in turn there are possibly solutions that would be more fitting?

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There is this ticket on boost, where one comment states, that "resolution being addressable now is because even windows 7 professional does not manage or support control of threading on a microsecond level". This may be related, but I'm not sure (why I didn't posted it as definite answer). – Sebastian Dressler May 3 '14 at 16:04

2 Answers 2

up vote 2 down vote accepted

GetSystemTimePreciseAsFileTime only became available with Windows 8 Desktop applications. It mimics Linuxes GetTimeOfDay. The implementation uses QueryPerformanceCounter to achieve the microsecond resolution. Timestamps are taken at the time of a system time increment. Subsequent calls to GetSystemTimePreciseAsFileTime will take the system time and add the elapsed "performance counter time" (elapsed ticks / performance counter frequency) as the high resolution part.

The functionallity of QueryPerformanceCounter again depends on platform specific details (HPET, ACPI PM timer, invariant TSC etc.). See MSDN: Acquiring high-resolution time stamps and SO: Is QueryPerformanceFrequency acurate when using HPET? for details. The various versions of Windows do have specific schemes to update the system time. Windows XP has a fixed file time granularty which is independent of the systems timer resolution. Only post Windows XP versions allow to modify the system time granularity by changing the system timer resolution.

This can be accomplished by means of the multimedia timer API timeBeginPeriod and/or the hidden API NtSetTimerResolution (See this SO answer for more details about using ` timeBeginPeriod and NtSetTimerResolution).

As stated, GetSystemTimePreciseAsFileTime is only available for desktop applications. The reason for this is the need for specific hardware.

What I'm interested in is why Boost implemented it that way, when in turn there are possibly solutions that would be more fitting?

Taking the facts stated above will make the implementation very complex and the result very platform specific. Every (!) Windows version has undergone severe changes of time keeping. Even the latest small step from 8 to 8.1 has changed the time keeping procedure considerably. However, there is still room to further improve time matters on Windows.

I should mention that GetSystemTimePreciseAsFileTime is, as of Windows 8.1, not giving results as accurate as expected or specified at MSDN: GetSystemTimePreciseAsFileTime function. It combines the system file time with the result of QueryPerformanceCounter to fill the gap between consecutive file time increments but it does not take system time adjustments into account. An active system time adjustement, e.g. done by SetSystemTimeAdjustment, modifies the system time granularity and the progress of the system time. However, the used performance counter frequency to build the result of GetSystemTimePreciseAsFileTime is kept constant. As a result, the microseconds part is off by the adjustment gain set by SetSystemTimeAdjustment.

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QueryPerformanceCounter can't help you on this problem. It gives you a timestamp, but as you don't know when the counter starts there is no reliable way to calculate an absolute time point out of it. boost::date_time is such a (user-understandable) time point. The other difference is that a counter like QueryPerformanceCounter gives you a steadily increasing timer, while the system time can be influenced by the user and can therefore jump. So the 2 things are for different use cases. One for representing a real time, the other one for getting precise timing in the software and for benchmarking.

GetSystemTimePreciseAsFileTime seems to fit the bill for a high resolution absolute time. I guess it wasn't used because it requires Windows8.

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