Because both conversions are equivalent, it's ambiguous. Remember that the C++ language directly defines `+`

for arguments of `double`

and `int`

, there is no standard conversion involved.

So neither of these functions is better than the other:

`double operator+ (double, int)`

-- requires one user-defined conversion and no standard conversions
`int operator+ (int, int)`

-- requires one user-defined conversion and no standard conversions

You'll need to provide all the usual arithmetic operators yourself, if you want to make this work, and not rely on implicit conversion operators.

`double operator+ (const MyClass&, int)`

-- requires one standard conversion
`int operator+ (const MyClass&, double)`

-- requires no conversions

Now `obj + 5`

will have an unambiguous best match.

C++0x draft n3245 says, in section `[over.built]`

- In this subclause, the term
*promoted integral type* is used to refer to those integral types which are preserved by integral promotion (including e.g. `int`

and `long`

but excluding e.g. `char`

). Similarly, the term *promoted arithmetic type* refers to floating types plus promoted integral types.

For every pair of promoted arithmetic types L and R, there exist candidate operator functions of the form

```
LR operator*(L, R);
LR operator/(L, R);
LR operator+(L, R);
LR operator-(L, R);
bool operator<(L, R);
bool operator>(L, R);
bool operator<=(L, R);
bool operator>=(L, R);
bool operator==(L, R);
bool operator!=(L, R);
```

where `LR`

is the result of the usual arithmetic conversions between types `L`

and `R`

.