# How can the “<” or “>” operators overflow?

I am intrigued with the following statement found in the documentation of the System.nanoTime() method in Java:

``````long t0 = System.nanoTime();
``````

...

``````long t1 = System.nanoTime();
``````

One should use `t1 - t0 < 0`, not `t1 < t0`, because of the possibility of numerical overflow.

Why is it that `t1 < t0` might "overflow"? This is in the Javadocs, but I guess it applies to any language.

-

It's not that `<` might overflow, it's that `t2` might overflow.

Say you call `System.nanoTime()` and the result is `0x7FFFFFFF00000000`. This is very close to the maximum value of a `long`. This is `t1`.

A few seconds later you call it again, and get `0x8000000011111111`. This is very close to the minimum value of a `long` - which means it's much smaller than the first value you got! This is `t2`.

If you checked `t2 < t1`, you'd get `false`, because `t2` is indeed less than `t1`.

If you calculate the difference `t2 - t1`, this also overflows, but it happens that this always cancels out the first overflow (if there was one). The result is `0x0000000111111111` which is the correct time difference. This is greater than 0, so `t2 - t1 > 0` returns `true`.

-
@DavidWallace your calculations are wrong then; it will be an issue in or before 2306. Remember it's 2^64 *nano*seconds. –  immibis Jul 15 at 9:44

In addition to what immibis said, this source explain the difference between a < b and a-b < 0 with big long:

``````    long t1 = Long.MAX_VALUE;
long t2 = Long.MIN_VALUE;
//should have the same result with small longs, but is different when rotating from max value to min value of Long
System.out.println(t1 - t2 < 0); //true
System.out.println(t1 < t2); //false

//should have the same result
System.out.println(t1 - t2 > 0); // false
System.out.println(t1 > t2); //true

System.out.println(t2 - t1); // 1 => 1 nanosecond of difference
``````

Since time in nanosceond can exceed the "long" size, when the time arrive to the max value, it begins again to the min value. So there is 1 nanesecond of difference between MAX_VALUE end MIN_VALUE

-