Standard section 13.6 lists the "candidate operator functions" that represent the built-in operators for purposes of overload resolution. When at least one subexpression of an operator @ has class or enum type, the list of functions considered for overload resolution is the union of the non-member lookup of `operator@`

, the member lookup of `operator@`

, and these candidate operator functions.

For most operators, the candidate operator functions are general enough to represent all the types permitted by the built-in operator. For example,

For every cv-qualified or cv-unqualified object type *T*, there exist candidate operator functions of the form

```
T& operator*(T*);
```

For every cv-qualified or cv-unqualified object type *T* there exist candidate operator functions of the form

```
T& operator[](T*, std::ptrdiff_t);
T& operator[](std::ptrdiff_t, T*);
```

When you write `*a`

or `a[0]`

, the corresponding candidate operator function wins overload resolution, the subexpressions are converted to the argument types of the candidate operator function, and then the ordinary built-in operator rules apply.

However, the section does not list any candidate operator functions for `operator->`

. So if `a`

has class type, the only possible function for `a->x`

is the member lookup of `a.operator->()`

. (Non-member lookup does not apply to `operator->`

, which must always be a member function.)