### No overflow?

"Overflow" here means "producing a value that doesn't fit the operand". Because arithmetic modulo is applied, the value always fits the operand, therefore, no overflow.

In other words, before overflow can actually happen, C++ will already have truncated the value.

### Modulo?

Taking a value modulo some other value means to apply a division, and taking the remainder.

For example:

```
0 % 3 = 0 (0 / 3 = 0, remainder 0)
1 % 3 = 1 (1 / 3 = 0, remainder 1)
2 % 3 = 2 (2 / 3 = 0, remainder 2)
3 % 3 = 0 (3 / 3 = 1, remainder 0)
4 % 3 = 1 (4 / 3 = 1, remainder 1)
5 % 3 = 2 (5 / 3 = 1, remainder 2)
6 % 3 = 0 (6 / 3 = 2, remainder 0)
...
```

This modulo is applied to results of unsigned-only computations, with the divisor being the maximum value the type can hold. E.g., if the maximum is 2^16=32768, then `32760 + 9 = (32760 + 9) % (32768+1) = 0`

.