Over/underflow is mathematically well-defined for fixed-size integer arithmetic:

```
(1 - 0xFFFFFFFF) % (1<<32) =
(1 + -0xFFFFFFFF) % (1<<32) =
1 + (-0xFFFFFFFF % (1<<32)) = 2
```

This *is* the correct result!

Specifically, the result after over/underflow is an alias of the correct integer. In fact, every non-representable integer is aliased (undistinguishable) with one representable integer — count to infinity in fixed-size integers, and you will repeat yourself, round and round like a dial of an analog clock.

An N-bit integer represents any real integer modulo 2^N. In C, modulo 2^N is written as %(1<<32).

I believe C guarrantees mathematical correctness of over/underflow, but only for unsigned integers. Signed under/overflow is assumed to never happen (for the sake of optimization).

In practice, signed integers are two's complement, which makes no difference in addition or subtraction, so correct under/overflow behavior is guarranteed for signed integers too (although not by C).