// RUN: %clang_cc1 -fsyntax-only -verify -pedantic -Wc++11-compat %s // // Tests explicit instantiation of templates. template<typename T, typename U = T> class X0 { }; namespace N { template<typename T, typename U = T> class X1 { }; } // Check the syntax of explicit instantiations. template class X0<int, float>; template class X0<int>; // expected-note{{previous}} template class N::X1<int>; template class ::N::X1<int, float>; using namespace N; // Check for some bogus syntax that probably means that the user // wanted to write an explicit specialization, but forgot the '<>' // after 'template'. template class X0<double> { }; // expected-error{{explicit specialization}} // Check for explicit instantiations that come after other kinds of // instantiations or declarations. template class X0<int, int>; // expected-error{{duplicate}} template<> class X0<char> { }; // expected-note{{previous}} template class X0<char>; // expected-warning{{ignored}} void foo(X0<short>) { } template class X0<short>; // Check that explicit instantiations actually produce definitions. We // determine whether this happens by placing semantic errors in the // definition of the template we're instantiating. template<typename T> struct X2; // expected-note{{declared here}} template struct X2<float>; // expected-error{{undefined template}} template<typename T> struct X2 { void f0(T*); // expected-error{{pointer to a reference}} }; template struct X2<int>; // okay template struct X2<int&>; // expected-note{{in instantiation of}} // Check that explicit instantiations instantiate member classes. template<typename T> struct X3 { struct Inner { void f(T*); // expected-error{{pointer to a reference}} }; }; void f1(X3<int&>); // okay, Inner, not instantiated template struct X3<int&>; // expected-note{{instantiation}} template<typename T> struct X4 { struct Inner { struct VeryInner { void f(T*); // expected-error 2{{pointer to a reference}} }; }; }; void f2(X4<int&>); // okay, Inner, not instantiated void f3(X4<int&>::Inner); // okay, Inner::VeryInner, not instantiated template struct X4<int&>; // expected-note{{instantiation}} template struct X4<float&>; // expected-note{{instantiation}} // Check explicit instantiation of member classes namespace N2 { template<typename T> struct X5 { struct Inner1 { void f(T&); }; struct Inner2 { // expected-note {{here}} struct VeryInner { void g(T*); // expected-error 2{{pointer to a reference}} }; }; }; } template struct N2::X5<void>::Inner2; using namespace N2; template struct X5<int&>::Inner2; // expected-note{{instantiation}} void f4(X5<float&>::Inner2); template struct X5<float&>::Inner2; // expected-note{{instantiation}} namespace N3 { template struct N2::X5<int>::Inner2; // expected-warning {{explicit instantiation of 'Inner2' not in a namespace enclosing 'N2'}} } struct X6 { struct Inner { // expected-note{{here}} void f(); }; }; template struct X6::Inner; // expected-error{{non-templated}} // PR5559 template <typename T> struct Foo; template <> struct Foo<int> // expected-note{{header not required for explicitly-specialized}} { template <typename U> struct Bar {}; }; template <> // expected-warning{{extraneous template parameter list}} template <> struct Foo<int>::Bar<void> {}; namespace N1 { template<typename T> struct X7 { }; // expected-note{{here}} namespace Inner { template<typename T> struct X8 { }; } template struct X7<int>; template struct Inner::X8<int>; } template<typename T> struct X9 { }; // expected-note{{here}} template struct ::N1::Inner::X8<float>; namespace N2 { using namespace N1; template struct X7<double>; // expected-warning{{must occur in namespace}} template struct X9<float>; // expected-warning{{must occur at global scope}} }