`table.size()`

is of type `std::vector<int>::size_type`

, which is an **unsigned** type (usually `std::size_t`

), but the literal `83`

is an `int`

which is signed.

When performing an operation on a signed and an unsigned integer, the signed one is implicitly converted ("promoted") to an unsigned value. That results in a non-negative number which is the original value modulo some power of two (which power is used depends on the width of the unsigned type). In your case, `size_t`

was 32 bits long, so

```
-833099133 == 3461868163 (mod 2 ^ 32)
```

and of course, `3461868163 % 83`

is 81, whereas `-833099133 % 83`

is -79. (`-833099133 mod 83`

would be +4, but in C++, the `%`

is not the modulo, but the **remainder** operator.)

Indeed, if you run the following program on a system where `std::size_t`

is 32 bits long:

```
#include <iostream>
int main()
{
int idx = -833099133;
int signed83 = 83;
std::size_t unsigned83 = 83;
std::cout << idx % signed83 << std::endl;
std::cout << idx % unsigned83 << std::endl;
return 0;
}
```

you will get the same results.

`table.size()`

is unsigned,`83`

is an`int`

which is signed... and then comes integer promotion, some black magic, and you got your results. – user529758 Jan 25 at 20:03