| // RUN: %clang_cc1 -fsyntax-only -verify -std=c++11 %s |
| |
| // This test concerns the identity of dependent types within the |
| // canonical type system. This corresponds to C++ [temp.type], which |
| // specifies type equivalence within a template. |
| // |
| // FIXME: template template parameters |
| |
| namespace N { |
| template<typename T> |
| struct X2 { |
| template<typename U> |
| struct apply { |
| typedef U* type; |
| }; |
| }; |
| } |
| |
| namespace Nalias = N; |
| |
| template<typename T> |
| struct X0 { }; |
| |
| using namespace N; |
| |
| template<typename T, typename U> |
| struct X1 { |
| typedef T type; |
| typedef U U_type; |
| |
| void f0(T); // expected-note{{previous}} |
| void f0(U); |
| void f0(type); // expected-error{{redeclar}} |
| |
| void f1(T*); // expected-note{{previous}} |
| void f1(U*); |
| void f1(type*); // expected-error{{redeclar}} |
| |
| void f2(X0<T>*); // expected-note{{previous}} |
| void f2(X0<U>*); |
| void f2(X0<type>*); // expected-error{{redeclar}} |
| |
| void f3(X0<T>*); // expected-note{{previous}} |
| void f3(X0<U>*); |
| void f3(::X0<type>*); // expected-error{{redeclar}} |
| |
| void f4(typename T::template apply<U>*); // expected-note{{previous}} |
| void f4(typename U::template apply<U>*); |
| void f4(typename type::template apply<T>*); |
| void f4(typename type::template apply<U_type>*); // expected-error{{redeclar}} |
| |
| void f5(typename T::template apply<U>::type*); // expected-note{{previous}} |
| void f5(typename U::template apply<U>::type*); |
| void f5(typename U::template apply<T>::type*); |
| void f5(typename type::template apply<T>::type*); |
| void f5(typename type::template apply<U_type>::type*); // expected-error{{redeclar}} |
| |
| void f6(typename N::X2<T>::template apply<U> *); // expected-note{{previous}} |
| void f6(typename N::X2<U>::template apply<U> *); |
| void f6(typename N::X2<U>::template apply<T> *); |
| void f6(typename ::N::X2<type>::template apply<U_type> *); // expected-error{{redeclar}} |
| |
| void f7(typename N::X2<T>::template apply<U> *); // expected-note{{previous}} |
| void f7(typename N::X2<U>::template apply<U> *); |
| void f7(typename N::X2<U>::template apply<T> *); |
| void f7(typename X2<type>::template apply<U_type> *); // expected-error{{redeclar}} |
| |
| void f8(typename N::X2<T>::template apply<U> *); // expected-note{{previous}} |
| void f8(typename N::X2<U>::template apply<U> *); |
| void f8(typename N::X2<U>::template apply<T> *); |
| void f8(typename ::Nalias::X2<type>::template apply<U_type> *); // expected-error{{redeclar}} |
| }; |
| |
| namespace PR6851 { |
| template <bool v> |
| struct S; |
| |
| struct N { |
| template <bool w> |
| S< S<w>::cond && 1 > foo(); |
| }; |
| |
| struct Arrow { Arrow *operator->(); int n; }; |
| template<typename T> struct M { |
| Arrow a; |
| auto f() -> M<decltype(a->n)>; |
| }; |
| |
| struct Alien; |
| bool operator&&(const Alien&, const Alien&); |
| |
| template <bool w> |
| S< S<w>::cond && 1 > N::foo() { } |
| |
| template<typename T> |
| auto M<T>::f() -> M<decltype(a->n)> {} |
| } |
| |
| namespace PR7460 { |
| template <typename T> |
| struct TemplateClass2 |
| { |
| enum { SIZE = 100 }; |
| static T member[SIZE]; |
| }; |
| |
| template <typename T> |
| T TemplateClass2<T>::member[TemplateClass2<T>::SIZE]; |
| } |
| |
| namespace PR18275 { |
| template<typename T> struct A { |
| void f(const int); |
| void g(int); |
| void h(const T); |
| void i(T); |
| }; |
| |
| template<typename T> |
| void A<T>::f(int x) { x = 0; } |
| |
| template<typename T> |
| void A<T>::g(const int x) { // expected-note {{declared const here}} |
| x = 0; // expected-error {{cannot assign to variable 'x'}} |
| } |
| |
| template<typename T> |
| void A<T>::h(T) {} // FIXME: Should reject this. Type is different from prior decl if T is an array type. |
| |
| template<typename T> |
| void A<T>::i(const T) {} // FIXME: Should reject this. Type is different from prior decl if T is an array type. |
| |
| template struct A<int>; |
| template struct A<int[1]>; |
| } |
| |
| namespace PR21289 { |
| template<typename T> using X = int; |
| template<typename T, decltype(sizeof(0))> using Y = int; |
| template<typename ...Ts> struct S {}; |
| template<typename ...Ts> void f() { |
| // This is a dependent type. It is *not* S<int>, even though it canonically |
| // contains no template parameters. |
| using Type = S<X<Ts>...>; |
| Type s; |
| using Type = S<int, int, int>; |
| } |
| void g() { f<void, void, void>(); } |
| |
| template<typename ...Ts> void h(S<int>) {} |
| // Pending a core issue, it's not clear if these are redeclarations, but they |
| // are probably intended to be... even though substitution can succeed for one |
| // of them but fail for the other! |
| template<typename ...Ts> void h(S<X<Ts>...>) {} // expected-note {{previous}} |
| template<typename ...Ts> void h(S<Y<Ts, sizeof(Ts)>...>) {} // expected-error {{redefinition}} |
| } |