If a thread is doing something like this:

const DWORD interval = 20000;
DWORD ticks = GetTickCount();

    if( GetTickCount() - ticks > interval )
        ticks = GetTickCount();

Eventually, ticks is going to wrap when the value doesn't fit in a DWORD.

I've been discussing this with a colleague. One of us believes the code will still behave 'nicely' when the wrap occurs, because the subtraction operation will also wrap. The other of us, believes it won't always work, especially if the interval is large.

Who's right, and why?


  • 2
    What you're really asking is what happens when you subtract a large DWORD from a small one. You and your colleague could have just written a program to find out. GetTickCount is irrelevant to that. Apr 7, 2009 at 23:23
  • I did experiment with calc.exe, set to hex mode using dword size. And the results looked like it would behave nicely... however, my colleague wasn't convinced it would work in all cases, thus the question. GetTickCount is relevant, Jon Skeet's already pointed out we might use GetTickCount64 instead Apr 7, 2009 at 23:30
  • 3
    GetTickCount64() just changes the scale of the problem to wrapping after something like 200 billion days.... are you sure your code won't run that long? ;-)
    – RBerteig
    Apr 8, 2009 at 2:01

9 Answers 9


From the docs:

The elapsed time is stored as a DWORD value. Therefore, the time will wrap around to zero if the system is run continuously for 49.7 days. To avoid this problem, use GetTickCount64. Otherwise, check for an overflow condition when comparing times.

However, DWORD is unsigned - so you should be okay. 0 - "very big number" = "small number" (assuming you don't have any overflow checking active, of course). I had a previous edit which suggested you'd get a negative number, but that was before I took into account that DWORD is unsigned.

You'll still have a problem if the operation takes just under 49.7 days though. That may not be an issue for you ;)

One way to test would be to stub out the GetTickCount() method so you could write unit tests where you explicitly make it wrap. Then again, if you're really only doubting the arithmetic part, you can easily write unit tests for that :) Really, the fact that the number is coming from a system clock is pretty much irrelevant so long as you know the behaviour when it wraps - and that's specified in the documentation.

  • Note: 49.7 days is likely when it overflows. i.e. 4294967295ms is 49.7102696181 days
    – Sancarn
    Feb 18, 2023 at 2:06

Nothing bad happens, as long as:

  • You subtract DWORDs, rather than converting to some other type first.

  • Nothing you're trying to time takes longer than 49.7 days.

This is because unsigned arithmetic overflow is well-defined in C, and wrapping behavior does exactly what we want.

DWORD t1, t2;
DWORD difference;

t1 = GetTickCount();
t2 = GetTickCount();

t2 - t1 will produce the correct the value, even if GetTickCount wraps around. Just don't convert t2 and t1 to some other type (e.g. int or double) before doing the subtraction.

This won't work if the programming language treats overflow as an error. It also won't work if DoSomethingTimeConsuming() takes longer than 49.7 days. You can't tell just by looking at t2 and t1 how many times GetTickCount wrapped around, unfortunately.

Let's start with the the usual case, where no wraparound comes into play:

t1 = 13487231
t2 = 13492843

Here, t2 - t1 = 5612, which means the operation took about five seconds.

Now consider an operation that takes a short amount of time, but where GetTickCount did wrap around:

t1 = 4294967173
t2 = 1111

The operation took 1234ms, but the timer wrapped around, and 1111 - 4294967173 is the bogus value of -4294966062. What ever will we do?

Well, modulo 232, the result of subtraction wraps around, too:

(DWORD)-4294966062 == (DWORD)1234

Finally, consider the edge case where an operation takes nearly 232 milliseconds, but not quite:

t1 = 2339189280
t2 = 2339167207

Here, GetTickCount wrapped around, and came right back around where it was.

Now t2 - t1 yields the bogus-looking value of 4294945223. That's because that's the amount of time the operation actually took!

In general:

(base + offset) - base ≡ offset mod 2^32

If you want to test what happens when GetTickCount() wraps, you could enable Application Verifier's TimeRollOver test.

From Using Application Verifier Within Your Software Development Lifecycle:

TimeRollOver forces the GetTickCount and TimeGetTime APIs to roll over faster than they normally would. This allows applications to test their handling of time rollover more easily.


I would suggest calculating the actual elapsed period between the two ticks, not relying on the compiler to handle it for you:

const DWORD interval = 20000;

#define TICKS_DIFF(prev, cur) ((cur) >= (prev)) ? ((cur)-(prev)) : ((0xFFFFFFFF-(prev))+1+(cur))

DWORD ticks = GetTickCount();

    DWORD curticks = GetTickCount();
    if( TICKS_DIFF(ticks, curticks) > interval )
        ticks = GetTickCount();

I ran across that problem recently. The code I was working on used GetTickCount() in a bunch of places to determine if the program was spending too much time on a particular task and if so it would time-out that task and re-schedule it for later execution. What would happen is that if the GetTickCount() wrapped during one of the measurement periods, it would cause the code to time-out prematurely. This was a service which runs constantly, so every 49 days, it would have a slight hiccup.

I fixed it by writing a timer class which used GetTickCount() internally but detected when the value wrapped and compensated for it.


You could test it ;) - I have a simple test application here which will launch an app and hook GetTickCount() in it so that you can control it from the GUI of the test app. I wrote it as stubbing out the GetTickCount() calls in some apps isn't that easy.

TickShifter is free and is available here: http://www.lenholgate.com/blog/2006/04/tickshifter-v02.html

I wrote it whilst writing a series of articles on Test Driven Development which used some code that used GetTickCount() in a broken way.

Articles are available here in case you're interested: http://www.lenholgate.com/blog/2004/05/practical-testing.html

However, in summary, your code will work...


This article helped me, but I think there is a bug in:

#define TICKS_DIFF(prev, cur) ((cur) >= (prev)) ? ((cur)-(prev)) : ((0xFFFFFFFF-(prev))+(cur))

When I tested this at the wrap around point, I found it was off by 1.

What worked for me was:

define TICKS_DIFF(prev, cur) ((cur) >= (prev)) ? ((cur)-(prev)) : ((0xFFFFFFFF-(prev))+(cur)+1)
  • Or have you tried the simpler equivalent: TICKS_DIFF(prev,cur) ((cur)-(prev)) It works even with wrap around. Oct 20, 2009 at 11:29

Surely You need to handle this tick wrap problem.

Linux kernel handles such tick wrap problem with following trick:

#define time_after(a,b) ((long)(b) - (long)(a) < 0))

The idea is cast unsigned to signed and compare their value, then only if the |a-b|<2^30, then the wrap does not influence the result.

You can have a try with this trick and get learn why it works.

Since DWORD is also unsigned int, this trick should also works for windows.

So you code could be sth like:

const DWORD interval = 20000;

DWORD ticks = GetTickCount() + interval;

while(true) {


if(time_after(ticks, GetTickCount())
    ticks = GetTickCount() + interval;


Only if interval less than 0x2^30, it works.


I know this is completely irrelevant almost 11 years later and with the inclusion of GetTickCount64() from Vista onwards, but here is a little bit of helper code I've had in my tookit since forever which I used to use back when this was an issue.

inline DWORD GetElapsed(DWORD from, DWORD to = ::GetTickCount())
  if (from < to)        //check for wrap around condition
      return (to - from);
      return ((0xFFFFFFFFL - from) + 1 + to);


DWORD start = ::GetTickCount();

// Some time later

DWORD elapsed = GetElapsed(start);

The worry wasn't that your operation might take longer that 49.7 days, but that the tick counter might roll over during your operation, thus making your elapsed time calculation unreliable.

Of course, all irrelevant now because of GetTickCount64()

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