Nothing bad happens, as long as:

You subtract `DWORD`

s, 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();
DoSomethingTimeConsuming();
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 2^{32}, the result of subtraction wraps around, too:

```
(DWORD)-4294966062 == (DWORD)1234
```

Finally, consider the edge case where an operation takes *nearly* 2^{32} 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
```