First, why narrowing? That comes from §5/10:

Many binary operators that expect operands of arithmetic or enumeration type cause conversions and yield result types in a similar way. The purpose is to yield a common type, which is also the type of the result. This pattern is called the *usual arithmetic conversions*, which are defined as follows:

— [..]

— Otherwise, the integral promotions (4.5) shall be performed on both operands.

where the integral promotion is defined in 4.5/1:

A prvalue of an integer type other than `bool`

, `char16_t`

, `char32_t`

, or `wchar_t`

whose integer conversion rank (4.13) is less than the rank of `int`

can be converted to a prvalue of type `int`

if `int`

can represent all the values of the source type; otherwise, the source prvalue can be converted to a prvalue of type `unsigned int`

.

In our case then, we have `decltype(char + char)`

is `int`

because `char`

's conversion rank less than `int`

so both are promoted to `int`

before the call to `operator+`

. Now, we have `int`

s that we're passing to a constructor that takes `char`

s. By definition (§8.5.4/7, specifically 7.4):

A *narrowing conversion* is an implicit conversion

(7.4) — from an integer type or unscoped enumeration type to an integer type that cannot represent all the values of the original type, except where the source is a constant expression whose value after integral promotions will fit into the target type.

which is explicitly prohibited in list-initialization specifically as per §8.5.4/3 (emphasis mine, the "see below" actually refers to what I just copied above):

List-initialization of an object or reference of type `T`

is defined as follows

— [..]

— Otherwise, if `T`

is a class type, constructors are considered. The applicable constructors are enumerated and the best one is chosen through overload resolution (13.3, 13.3.1.7). **If a narrowing conversion (see below) is required to convert any of the arguments, the program is ill-formed**. [...]

This is why your `vec3<T>{int, int, int}`

gives you a warning: the program is ill-formed due to integer promotion requiring a narrowing conversion on all the expressions. Now, the statement about "ill-formed" specifically arises only in the context of list-initialization. This is why if you initialize your vector without `{}s`

, you do not see that warning:

```
vec3<T> operator-(const vec3<T> &other) {
// totally OK: implicit conversion from int --> char is allowed here
return vec3<T>( x - other.x, y - other.y, z - other.z );
}
```

As to solving this problem - just calling the constructor without list-initialization is probably the simplest solution. Alternatively, you can continue to use list-initialization and just template your constructor:

```
template <typename A, typename B, typename C>
vec3(A xx, B yy, C zz)
: x(xx) // note these all have to be ()s and not {}s for the same reason
, y(yy)
, z(yy)
{ }
```

`{}`

catches narrowing conversions (making the code ill-formed).`()`

doesn't. Or are you asking why it's narrowing?