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NOTE: This is likely a question about flawed math, rather then a question about the a windows system call as described in the question.

We are working with with the GetSystemTimeAsFileTime() win32 call, and seeing what I think are strange results and was looking for some clarification. From MSDN on the FILETIME structure https://msdn.microsoft.com/en-us/library/windows/desktop/ms724284%28v=vs.85%29.aspx

Contains a 64-bit value representing the number of 100-nanosecond intervals since January 1, 1601 (UTC).

According to our read of this description, the value returned is the number of 10e-8 interval seconds. Assuming this is correct, then the following function should return the system time in milliseconds.

DWORD get_milli_time() {
    FILETIME f;
    ::GetSystemTimeAsFileTime(&f);
    __int64 nano = (__int64(f.dwHighDateTime) << 32LL)
                  + __int64(f.dwLowDateTime);
    return DWORD(nano / 10e5);
    }

A simple unittest however shows this is incorrect, the below code prints "Failed":

DWORD start = get_milli_time();
::Sleep(5000);  // sleep for 5-seconds
DWORD end = get_milli_time();
// test for reasonable sleep variance (4.9 - 5.1 secs)
if ((end - start) < 4900 || (end - start) > 5100) {
    printf("Failed\n");
    }

According to this SO post Getting the current time (in milliseconds) from the system clock in Windows?, the correct results can be achieved by changing our division to:

return DWORD(nano / 10e3);

If we use this value, we get the correct result, but I can't understand why.

It seems to me that to convert from 10e-8 to 10e-3, we should divide by 10e5. This would seem to be borne out by the following calculation:

printf("%f\n", log10(10e-3 / 10e-8));

Which returns 5 (as I expected).

But somehow I'm wrong -- but I'll be darned if I can see where I've gone wrong.

  • Have you tried calling get_milli_time() twice, about 5 seconds apart, and looking at the values it gives? – Beta Mar 28 '16 at 18:24
6

Your math is indeed flawed, and so is your understanding of the "working" code.

There are 107 100-nanosecond intervals in a second, 104 in a millisecond. In floating-point notation, this is 1.0e4. 10e3 is a weird way of writing 1e4.

The "right" (in a sense of most efficient while remaining expressive) code would be

return DWORD(hundrednano * 1.0e-4);
  • Maybe a notation mistake. 10^3 with 10e3 when it actually is 10^3 = 1e3 – Nacho Mar 28 '16 at 18:29
  • 1
    @Nacho: Not maybe, definitely. – Ben Voigt Mar 28 '16 at 18:29
  • My mistake was incorrect e scientific notation. Thanks. – user590028 Mar 28 '16 at 18:34

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