Arithmetic in C++ is never done in a type with rank lower than `int`

.

If you apply `-`

or `%`

to an `unsigned char`

value, which has rank lower than `int`

, it will first undergo *integer promotion*, meaning it will be converted to an `int`

with the same value (assuming `int`

can hold all values of `unsigned char`

, which is practically always the case).

The literals `1`

and `8`

are also of type `int`

, so that then the operations will be performed in the common type `int`

, also with an `int`

result. Notably, this means all arithmetic in your example happens with *signed* values.

Only when you assign back to the `unsigned char`

variable is the signed `int`

value converted back to an unsigned `unsigned char`

value.

So both `result1 - 1`

and `result2 - 1`

are `int`

s with value `-1`

.

The way `%`

treats negative values in C++, `(result1 - 1) % 8`

is then also an `int`

with value `-1`

.

Conversion of `-1`

to `unsigned char`

results in `255`

if the width of `(unsigned) char`

is `8`

because such conversion is specified to keep the value congruent 2^n where n is the width of the target type.

However, conversion of `result2 - 1`

to `unsigned char`

to store in `results2`

also results in `255`

, so in `result2 % 8`

the operation is `255 % 8`

(in `int`

) which gives in the `int`

result `7`

, which converted back to `unsigned char`

is still `7`

.

Technically it is also allowed for `unsigned char`

to have the same width as `int`

(although in that case both need to have at least `16`

bit width, because that is the minimum width required for `int`

by the standard.)

In that case, `int`

can't hold all values of `unsigned char`

and integer promotion would promote to `unsigned int`

instead. Then, the *usual arithmetic conversions* will prefer `unsigned int`

over the `int`

type of the literal operands and so all arithmetic will be done in `unsigned int`

.

Under these circumstances both of your outputs will give `7`

. Whether any C++ implementation with these properties actually exists, I don't know, but it is permitted by the standard.

`result2`

is an`unsigned char`

,`result2 - 1`

is an`int`

:`static_assert(std::is_same_v<decltype(result2 - 1), int>);`