In comparing the conversions needed by different overloaded functions, a "promotion" is considered a better conversion sequence than a standard "conversion". Every arithmetic type can promote to at most one other type. (Promotions are also used when passing an argument to a C-style variadic function like `printf`

. The unary `+`

operator can be used to force a promotion of an arithmetic expression, like `+n`

.)

For integer types which are not character types or `bool`

, the promoted type is:

- If
`int`

can represent all the values of the original type, then `int`

;
- Otherwise, if
`unsigned int`

can represent all the values of the original type, then `unsigned int`

;
- Otherwise, the original type itself (promotion does nothing)

In your example, when comparing the overloaded functions, an "exact match" would be best, but there is no function taking exactly `int8_t`

(or `int8_t&`

or `const int8_t&`

). The promoted type of `uint8_t`

is `int`

, since it's required to support a range much larger than 0-255. And apparently on your system, `int32_t`

is an alias for `int`

, so the function `void f(int32_t);`

requires only a promotion on the argument. The other functions are all viable, but require an integer conversion on the argument. So `void f(int32_t);`

is considered the best overload.

So the technical answer to the question is that it is implementation specific, but only because of the relationship between `int`

and the `<cstdint>`

types, not because of the overload resolution rules.