When the postfix-expression in a function call ([expr.call]) is an unqualified-id, other namespaces not considered during the usual unqualified lookup ([basic.lookup.unqual]) may be searched, and in those namespaces, namespace-scope friend function declarations ([class.friend]) not otherwise visible may be found. These modifications to the search depend on the types of the arguments (and for template template arguments, the namespace of the template argument). [ Example:
namespace N { struct S { }; void f(S); } void g() { N::S s; f(s); // OK: calls N::f (f)(s); // error: N::f not considered; parentheses // prevent argument-dependent lookup }
— end example ]
For each argument type T in the function call, there is a set of zero or more associated namespaces and a set of zero or more associated classes to be considered. The sets of namespaces and classes is determined entirely by the types of the function arguments (and the namespace of any template template argument). Typedef names and using-declarations used to specify the types do not contribute to this set. The sets of namespaces and classes are determined in the following way:
If T is a fundamental type, its associated sets of namespaces and classes are both empty.
If T is a class type (including unions), its associated classes are: the class itself; the class of which it is a member, if any; and its direct and indirect base classes. Its associated namespaces are the namespaces of which its associated classes are members. Furthermore, if T is a class template specialization, its associated namespaces and classes also include: the namespaces and classes associated with the types of the template arguments provided for template type parameters (excluding template template parameters); the namespaces of which any template template arguments are members; and the classes of which any member templates used as template template arguments are members. [ Note: Non-type template arguments do not contribute to the set of associated namespaces. — end note ]
If T is an enumeration type, its associated namespace is the namespace in which it is defined. If it is class member, its associated class is the member's class; else it has no associated class.
If T is a pointer to U or an array of U, its associated namespaces and classes are those associated with U.
If T is a function type, its associated namespaces and classes are those associated with the function parameter types and those associated with the return type.
If T is a pointer to a member function of a class X, its associated namespaces and classes are those associated with the function parameter types and return type, together with those associated with X.
If T is a pointer to a data member of class X, its associated namespaces and classes are those associated with the member type together with those associated with X.
If an associated namespace is an inline namespace ([namespace.def]), its enclosing namespace is also included in the set. If an associated namespace directly contains inline namespaces, those inline namespaces are also included in the set. In addition, if the argument is the name or address of a set of overloaded functions and/or function templates, its associated classes and namespaces are the union of those associated with each of the members of the set, i.e., the classes and namespaces associated with its parameter types and return type. Additionally, if the aforementioned set of overloaded functions is named with a template-id, its associated classes and namespaces also include those of its type template-arguments and its template template-arguments.
Let X be the lookup set produced by unqualified lookup ([basic.lookup.unqual]) and let Y be the lookup set produced by argument dependent lookup (defined as follows). If X contains
a declaration of a class member, or
a block-scope function declaration that is not a using-declaration, or
a declaration that is neither a function or a function template
then Y is empty. Otherwise Y is the set of declarations found in the namespaces associated with the argument types as described below. The set of declarations found by the lookup of the name is the union of X and Y. [ Note: The namespaces and classes associated with the argument types can include namespaces and classes already considered by the ordinary unqualified lookup. — end note ] [ Example:
namespace NS { class T { }; void f(T); void g(T, int); } NS::T parm; void g(NS::T, float); int main() { f(parm); // OK: calls NS::f extern void g(NS::T, float); g(parm, 1); // OK: calls g(NS::T, float) }
— end example ]
When considering an associated namespace, the lookup is the same as the lookup performed when the associated namespace is used as a qualifier ([namespace.qual]) except that:
Any using-directives in the associated namespace are ignored.
Any namespace-scope friend functions or friend function templates declared in associated classes are visible within their respective namespaces even if they are not visible during an ordinary lookup ([class.friend]).
All names except those of (possibly overloaded) functions and function templates are ignored.