template<template<class> class T> class A { };
template<class T> class Y;
template<> class Y<int> {
Y* p; // meaning Y<int>
Y<char>* q; // meaning Y<char>
A<Y>* a; // meaning A<::Y>
class B {
template<class> friend class Y; // meaning ::Y
};
}; — end example
template <class T> struct Base {
Base* p;
};
template <class T> struct Derived: public Base<T> {
typename Derived::Base* p; // meaning Derived::Base<T>
};
template<class T, template<class> class U = T::template Base> struct Third { };
Third<Base<int> > t; // OK: default argument uses injected-class-name as a template
— end example
template <class T> struct Base { };
template <class T> struct Derived: Base<int>, Base<char> {
typename Derived::Base b; // error: ambiguous
typename Derived::Base<double> d; // OK
}; — end example
template<class T> class X {
X* p; // meaning X<T>
X<T>* p2;
X<int>* p3;
::X* p4; // error: missing template argument list
// ::X does not refer to the injected-class-name
}; — end example
template<class T, int i> class Y {
int T; // error: template-parameter redeclared
void f() {
char T; // error: template-parameter redeclared
}
};
template<class X> class X; // error: template-parameter redeclared
— end example
template<class T> struct A {
struct B { /* ... */ };
typedef void C;
void f();
template<class U> void g(U);
};
template<class B> void A<B>::f() {
B b; // A's B, not the template parameter
}
template<class B> template<class C> void A<B>::g(C) {
B b; // A's B, not the template parameter
C c; // the template parameter C, not A's C
} — end example
namespace N {
class C { };
template<class T> class B {
void f(T);
};
}
template<class C> void N::B<C>::f(C) {
C b; // C is the template parameter, not N::C
} — end example
struct A {
struct B { /* ... */ };
int a;
int Y;
};
template<class B, class a> struct X : A {
B b; // A's B
a b; // error: A's a isn't a type name
}; — end example