blob: ec333de8b4f17a9b9360b20657ff31f6095c62f1 [file] [log] [blame]
// RUN: clang-cc -fsyntax-only -verify %s
// Errors
export class foo { }; // expected-error {{expected template}}
template x; // expected-error {{expected '<' after 'template'}} \
// expected-error {{C++ requires a type specifier for all declarations}}
export template x; // expected-error {{expected '<' after 'template'}} \
// expected-note {{exported templates are unsupported}} \
// expected-error {{C++ requires a type specifier for all declarations}}
// See Sema::ParsedFreeStandingDeclSpec about the double diagnostic. This is
// because ParseNonTypeTemplateParameter starts parsing a DeclSpec.
template < ; // expected-error {{parse error}} expected-error {{declaration does not declare anything}}
template <template X> struct Err1; // expected-error {{expected '<' after 'template'}}
template <template <typename> > struct Err2; // expected-error {{expected 'class' before '>'}}
template <template <typename> Foo> struct Err3; // expected-error {{expected 'class' before 'Foo'}}
// Template function declarations
template <typename T> void foo();
template <typename T, typename U> void foo();
// Template function definitions.
template <typename T> void foo() { }
// Template class (forward) declarations
template <typename T> struct A;
template <typename T, typename U> struct b;
template <typename> struct C;
template <typename, typename> struct D;
// Forward declarations with default parameters?
template <typename T = int> class X1;
template <typename = int> class X2;
// Forward declarations w/template template parameters
template <template <typename> class T> class TTP1;
template <template <typename> class> class TTP2;
template <template <typename> class T = foo> class TTP3; // FIXME:expected-error{{template argument for template template parameter must be a template}}
template <template <typename> class = foo> class TTP3; // FIXME:expected-error{{template argument for template template parameter must be a template}}
template <template <typename X, typename Y> class T> class TTP5;
// Forward declararations with non-type params
template <int> class NTP0;
template <int N> class NTP1;
template <int N = 5> class NTP2;
template <int = 10> class NTP3;
template <unsigned int N = 12u> class NTP4;
template <unsigned int = 12u> class NTP5;
template <unsigned = 15u> class NTP6;
template <typename T, T Obj> class NTP7;
// Template class declarations
template <typename T> struct A { };
template <typename T, typename U> struct B { };
// Template parameter shadowing
template<typename T, // expected-note{{template parameter is declared here}}
typename T> // expected-error{{declaration of 'T' shadows template parameter}}
void shadow1();
template<typename T> // expected-note{{template parameter is declared here}}
void shadow2(int T); // expected-error{{declaration of 'T' shadows template parameter}}
template<typename T> // expected-note{{template parameter is declared here}}
class T { // expected-error{{declaration of 'T' shadows template parameter}}
};
template<int Size> // expected-note{{template parameter is declared here}}
void shadow3(int Size); // expected-error{{declaration of 'Size' shadows template parameter}}
// Non-type template parameters in scope
template<int Size>
void f(int& i) {
i = Size;
Size = i; // expected-error{{expression is not assignable}}
}
template<typename T>
const T& min(const T&, const T&);