// RUN: %clang_cc1 -verify -fsyntax-only %s -Wno-c++11-extensions -Wno-c++1y-extensions -DPRECXX11 // RUN: %clang_cc1 -std=c++11 -verify -fsyntax-only -Wno-c++1y-extensions %s // RUN: %clang_cc1 -std=c++1y -verify -fsyntax-only %s #define CONST const #ifdef PRECXX11 #define static_assert(expr, msg) typedef int static_assert[(expr) ? 1 : -1]; #endif class A { template<typename T> CONST T wrong; // expected-error {{member 'wrong' declared as a template}} template<typename T> CONST T wrong_init = 5; // expected-error {{member 'wrong_init' declared as a template}} template<typename T, typename T0> static CONST T right = T(100); template<typename T> static CONST T right<T,int> = 5; template<typename T> CONST int right<int,T>; // expected-error {{member 'right' declared as a template}} template<typename T> CONST float right<float,T> = 5; // expected-error {{member 'right' declared as a template}} template<> static CONST int right<int,int> = 7; // expected-error {{explicit specialization of 'right' in class scope}} template<> static CONST float right<float,int>; // expected-error {{explicit specialization of 'right' in class scope}} template static CONST int right<int,int>; // expected-error {{template specialization requires 'template<>'}} \ // expected-error {{explicit specialization of 'right' in class scope}} }; namespace out_of_line { class B0 { template<typename T, typename T0> static CONST T right = T(100); template<typename T> static CONST T right<T,int> = T(5); }; template<> CONST int B0::right<int,int> = 7; template CONST int B0::right<int,int>; template<> CONST int B0::right<int,float>; template CONST int B0::right<int,float>; class B1 { template<typename T, typename T0> static CONST T right; template<typename T> static CONST T right<T,int>; }; template<typename T, typename T0> CONST T B1::right = T(100); template<typename T> CONST T B1::right<T,int> = T(5); class B2 { template<typename T, typename T0> static CONST T right = T(100); // expected-note {{previous initialization is here}} template<typename T> static CONST T right<T,int> = T(5); // expected-note {{previous initialization is here}} }; template<typename T, typename T0> CONST T B2::right = T(100); // expected-error {{static data member 'right' already has an initializer}} template<typename T> CONST T B2::right<T,int> = T(5); // expected-error {{static data member 'right' already has an initializer}} class B3 { template<typename T, typename T0> static CONST T right = T(100); template<typename T> static CONST T right<T,int> = T(5); }; template<typename T, typename T0> CONST T B3::right; template<typename T> CONST T B3::right<T,int>; class B4 { template<typename T, typename T0> static CONST T a; template<typename T> static CONST T a<T,int> = T(100); template<typename T, typename T0> static CONST T b = T(100); template<typename T> static CONST T b<T,int>; }; template<typename T, typename T0> CONST T B4::a; // expected-error {{default initialization of an object of const type 'const int'}} template<typename T> CONST T B4::a<T,int>; template CONST int B4::a<int,char>; // expected-note {{in instantiation of}} template CONST int B4::a<int,int>; template<typename T, typename T0> CONST T B4::b; template<typename T> CONST T B4::b<T,int>; // expected-error {{default initialization of an object of const type 'const int'}} template CONST int B4::b<int,char>; template CONST int B4::b<int,int>; // expected-note {{in instantiation of}} } namespace non_const_init { class A { template<typename T> static T wrong_inst_undefined = T(10); // expected-note {{refers here}} template<typename T> static T wrong_inst_defined = T(10); // expected-error {{non-const static data member must be initialized out of line}} template<typename T> static T wrong_inst_out_of_line; }; template const int A::wrong_inst_undefined<const int>; // expected-error {{undefined}} template<typename T> T A::wrong_inst_defined; template const int A::wrong_inst_defined<const int>; template int A::wrong_inst_defined<int>; // expected-note {{in instantiation of static data member 'non_const_init::A::wrong_inst_defined<int>' requested here}} template<typename T> T A::wrong_inst_out_of_line = T(10); template int A::wrong_inst_out_of_line<int>; class B { template<typename T> static T wrong_inst; // expected-note {{refers here}} template<typename T> static T wrong_inst<T*> = T(100); // expected-error {{non-const static data member must be initialized out of line}} expected-note {{refers here}} template<typename T> static T wrong_inst_fixed; template<typename T> static T wrong_inst_fixed<T*>; }; template int B::wrong_inst<int>; // expected-error {{undefined}} // FIXME: It'd be better to produce the 'explicit instantiation of undefined // template' diagnostic here, not the 'must be initialized out of line' // diagnostic. template int B::wrong_inst<int*>; // expected-note {{in instantiation of static data member 'non_const_init::B::wrong_inst<int *>' requested here}} template const int B::wrong_inst<const int*>; // expected-error {{undefined}} template<typename T> T B::wrong_inst_fixed = T(100); template int B::wrong_inst_fixed<int>; class C { template<typename T> static CONST T right_inst = T(10); // expected-note {{here}} template<typename T> static CONST T right_inst<T*> = T(100); // expected-note {{here}} }; template CONST int C::right_inst<int>; // expected-error {{undefined variable template}} template CONST int C::right_inst<int*>; // expected-error {{undefined variable template}} namespace pointers { struct C0 { template<typename U> static U Data; template<typename U> static CONST U Data<U*> = U(); // expected-note {{here}} template<typename U> static U Data2; template<typename U> static CONST U Data2<U*> = U(); }; const int c0_test = C0::Data<int*>; static_assert(c0_test == 0, ""); template const int C0::Data<int*>; // expected-error {{undefined}} template<typename U> const U C0::Data2<U*>; template const int C0::Data2<int*>; struct C1a { template<typename U> static U Data; template<typename U> static U* Data<U*>; // Okay, with out-of-line definition }; template<typename T> T* C1a::Data<T*> = new T(); template int* C1a::Data<int*>; struct C1b { template<typename U> static U Data; template<typename U> static CONST U* Data<U*>; // Okay, with out-of-line definition }; template<typename T> CONST T* C1b::Data<T*> = (T*)(0); template CONST int* C1b::Data<int*>; struct C2a { template<typename U> static int Data; template<typename U> static U* Data<U*> = new U(); // expected-error {{non-const static data member must be initialized out of line}} }; template int* C2a::Data<int*>; // expected-note {{in instantiation of static data member 'non_const_init::pointers::C2a::Data<int *>' requested here}} struct C2b { template<typename U> static int Data; template<typename U> static U *const Data<U*> = (U*)(0); // expected-error {{static data member of type 'int *const'}} }; template<typename U> U *const C2b::Data<U*>; template int *const C2b::Data<int*>; // expected-note {{in instantiation of static data member 'non_const_init::pointers::C2b::Data<int *>' requested here}} } } #ifndef PRECXX11 namespace constexpred { class A { template<typename T> constexpr T wrong; // expected-error {{member 'wrong' declared as a template}} \ // expected-error {{non-static data member cannot be constexpr; did you intend to make it const?}} template<typename T> constexpr T wrong_init = 5; // expected-error {{non-static data member cannot be constexpr; did you intend to make it static?}} template<typename T, typename T0> static constexpr T right = T(100); template<typename T> static constexpr T right<T,int> = 5; template<typename T> constexpr int right<int,T>; // expected-error {{member 'right' declared as a template}} \ // expected-error {{non-static data member cannot be constexpr; did you intend to make it const?}} template<typename T> constexpr float right<float,T> = 5; // expected-error {{non-static data member cannot be constexpr; did you intend to make it static?}} template<> static constexpr int right<int,int> = 7; // expected-error {{explicit specialization of 'right' in class scope}} template<> static constexpr float right<float,int>; // expected-error {{explicit specialization of 'right' in class scope}} template static constexpr int right<int,int>; // expected-error {{template specialization requires 'template<>'}} \ // expected-error {{explicit specialization of 'right' in class scope}} }; } #endif namespace in_class_template { template<typename T> class D0 { template<typename U> static U Data; // expected-note {{here}} template<typename U> static CONST U Data<U*> = U(); }; template CONST int D0<float>::Data<int*>; template int D0<float>::Data<int>; // expected-error {{undefined}} template<typename T> template<typename U> const U D0<T>::Data<U*>; template<typename T> class D1 { template<typename U> static U Data; template<typename U> static U* Data<U*>; }; template<typename T> template<typename U> U* D1<T>::Data<U*> = (U*)(0); template int* D1<float>::Data<int*>; // expected-note {{previous}} template int* D1<float>::Data<int*>; // expected-error {{duplicate explicit instantiation}} template<typename T> class D2 { template<typename U> static U Data; template<typename U> static U* Data<U*>; }; template<> template<typename U> U* D2<float>::Data<U*> = (U*)(0) + 1; template int* D2<float>::Data<int*>; // expected-note {{previous}} template int* D2<float>::Data<int*>; // expected-error {{duplicate explicit instantiation}} template<typename T> struct D3 { template<typename U> static CONST U Data = U(100); // expected-note {{here}} }; static_assert(D3<float>::Data<int> == 100, ""); template const char D3<float>::Data<char>; // expected-error {{undefined}} namespace bug_files { template<typename T> class D0a { template<typename U> static U Data; template<typename U> static CONST U Data<U*> = U(10); // expected-note {{previous definition is here}} }; template<> template<typename U> U D0a<float>::Data<U*> = U(100); // expected-error {{redefinition of 'Data'}} // FIXME: We should accept this, and the corresponding case for class // templates. // // [temp.class.spec.mfunc]/2: If the primary member template is explicitly // specialized for a given specialization of the enclosing class template, // the partial specializations of the member template are ignored template<typename T> class D1 { template<typename U> static U Data; template<typename U> static CONST U Data<U*> = U(10); // expected-note {{previous definition is here}} }; template<> template<typename U> U D1<float>::Data = U(10); template<> template<typename U> U D1<float>::Data<U*> = U(100); // expected-error{{redefinition of 'Data'}} } namespace definition_after_outer_instantiation { template<typename A> struct S { template<typename B> static const int V1; template<typename B> static const int V2; }; template struct S<int>; template<typename A> template<typename B> const int S<A>::V1 = 123; template<typename A> template<typename B> const int S<A>::V2<B*> = 456; static_assert(S<int>::V1<int> == 123, ""); // FIXME: The first and third case below possibly should be accepted. We're // not picking up partial specializations added after the primary template // is instantiated. This is kind of implied by [temp.class.spec.mfunc]/2, // and matches our behavior for member class templates, but it's not clear // that this is intentional. See PR17294 and core-24030. static_assert(S<int>::V2<int*> == 456, ""); // FIXME expected-error {{}} static_assert(S<int>::V2<int&> == 789, ""); // expected-error {{}} template<typename A> template<typename B> const int S<A>::V2<B&> = 789; static_assert(S<int>::V2<int&> == 789, ""); // FIXME expected-error {{}} // All is OK if the partial specialization is declared before the implicit // instantiation of the class template specialization. static_assert(S<char>::V1<int> == 123, ""); static_assert(S<char>::V2<int*> == 456, ""); static_assert(S<char>::V2<int&> == 789, ""); } namespace incomplete_array { template<typename T> extern T var[]; template<typename T> T var[] = { 1, 2, 3 }; template<> char var<char>[] = "hello"; template<typename T> char var<T*>[] = "pointer"; static_assert(sizeof(var<int>) == 12, ""); static_assert(sizeof(var<char>) == 6, ""); static_assert(sizeof(var<void*>) == 8, ""); template<typename...> struct tuple; template<typename T> struct A { template<typename U> static T x[]; template<typename U> static T y[]; template<typename...U> static T y<tuple<U...> >[]; }; int *use_before_definition = A<int>::x<char>; template<typename T> template<typename U> T A<T>::x[sizeof(U)]; static_assert(sizeof(A<int>::x<char>) == 4, ""); template<typename T> template<typename...U> T A<T>::y<tuple<U...> >[] = { U()... }; static_assert(sizeof(A<int>::y<tuple<char, char, char> >) == 12, ""); } namespace bad_reference { struct S { template<typename T> static int A; // expected-note 4{{here}} }; template<typename T> void f() { typename T::template A<int> a; // expected-error {{template name refers to non-type template 'S::A'}} } template<typename T> void g() { T::template A<int>::B = 0; // expected-error {{template name refers to non-type template 'S::A'}} } template<typename T> void h() { class T::template A<int> c; // expected-error {{template name refers to non-type template 'S::A'}} } template<typename T> struct X : T::template A<int> {}; // expected-error {{template name refers to non-type template 'S::A'}} template void f<S>(); // expected-note {{in instantiation of}} template void g<S>(); // expected-note {{in instantiation of}} template void h<S>(); // expected-note {{in instantiation of}} template struct X<S>; // expected-note {{in instantiation of}} } } namespace in_nested_classes { // TODO: }