17 Templates [temp]

17.8 Function template specializations [temp.fct.spec]

17.8.2 Template argument deduction [temp.deduct]

17.8.2.3 Deducing conversion function template arguments [temp.deduct.conv]

Template argument deduction is done by comparing the return type of the conversion function template (call it P) with the type that is required as the result of the conversion (call it A; see [dcl.init], [over.match.conv], and [over.match.ref] for the determination of that type) as described in [temp.deduct.type].

If P is a reference type, the type referred to by P is used in place of P for type deduction and for any further references to or transformations of P in the remainder of this section.

If A is not a reference type:

If A is a cv-qualified type, the top-level cv-qualifiers of A's type are ignored for type deduction. If A is a reference type, the type referred to by A is used for type deduction.

In general, the deduction process attempts to find template argument values that will make the deduced A identical to A. However, there are four cases that allow a difference:

These alternatives are considered only if type deduction would otherwise fail. If they yield more than one possible deduced A, the type deduction fails.

When the deduction process requires a qualification conversion for a pointer or pointer to member type as described above, the following process is used to determine the deduced template argument values:

If A is a type cv1,0 “pointer to cv1,n1 “pointer to” cv1,n T1 and P is a type cv2,0 “pointer to cv2,n1 “pointer to” cv2,n T2, then the cv-unqualified T1 and T2 are used as the types of A and P respectively for type deduction. [Example:

struct A {
  template <class T> operator T***();
};
A a;
const int * const * const * p1 = a;     // T is deduced as int, not const int

end example]