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// RUN: %clang_cc1 -std=c++14 -fsyntax-only -verify %s
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template < typename T > class A { } ;
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extern " C++ " {
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template < typename T > class B { } ;
template < typename T > class A < T * > ;
template < > class A < int [ 1 ] > ;
template class A < int [ 2 ] > ;
template < typename T > class B < T * > ;
template < > class B < int [ 1 ] > ;
template class B < int [ 2 ] > ;
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}
namespace N {
template < typename T > class C ;
}
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extern " C " { // expected-note 3 {{extern "C" language linkage specification begins here}}
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template < typename T > class D ; // expected-error{{templates must have C++ linkage}}
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template < typename T > class A < T * * > ; // expected-error{{templates must have C++ linkage}}
template < > class A < int [ 3 ] > ; // expected-error{{templates must have C++ linkage}}
template class A < int [ 4 ] > ; // OK (surprisingly) FIXME: Should we warn on this?
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}
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extern " C " { // expected-note 2 {{extern "C" language linkage specification begins here}}
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class PR17968 {
template < typename T > class D ; // expected-error{{templates must have C++ linkage}}
template < typename T > void f ( ) ; // expected-error{{templates must have C++ linkage}}
} ;
}
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template < class U > class A ; // expected-note{{previous template declaration is here}}
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template < int N > class A ; // expected-error{{template parameter has a different kind in template redeclaration}}
template < int N > class NonTypeTemplateParm ;
typedef int INT ;
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template < INT M > class NonTypeTemplateParm ; // expected-note{{previous non-type template parameter with type 'INT' (aka 'int') is here}}
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template < long > class NonTypeTemplateParm ; // expected-error{{template non-type parameter has a different type 'long' in template redeclaration}}
template < template < typename T > class X > class TemplateTemplateParm ;
template < template < class > class Y > class TemplateTemplateParm ; / / expected - note { { previous template declaration is here } } \
// expected-note{{previous template template parameter is here}}
template < typename > class TemplateTemplateParm ; // expected-error{{template parameter has a different kind in template redeclaration}}
template < template < typename T , int > class X > class TemplateTemplateParm ; // expected-error{{too many template parameters in template template parameter redeclaration}}
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template < typename T >
struct test { } ; // expected-note{{previous definition}}
template < typename T >
struct test : T { } ; // expected-error{{redefinition}}
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class X {
public :
template < typename T > class C ;
} ;
void f ( ) {
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template < typename T > class X ; // expected-error{{expression}}
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}
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template < typename T > class X1 var ; / / expected - error { { variable has incomplete type ' class X1 ' } } \
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// expected-note {{forward declaration of 'X1'}}
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namespace M {
}
template < typename T > class M : : C3 { } ; // expected-error{{out-of-line definition of 'C3' does not match any declaration in namespace 'M'}}
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namespace PR8001 {
template < typename T1 >
struct Foo {
template < typename T2 > class Bar ;
typedef Bar < T1 > Baz ;
template < typename T2 >
struct Bar {
Bar ( ) { }
} ;
} ;
void pr8001 ( ) {
Foo < int > : : Baz x ;
Foo < int > : : Bar < int > y ( x ) ;
}
}
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namespace rdar9676205 {
template < unsigned , class _Tp > class tuple_element ;
template < class _T1 , class _T2 > class pair ;
template < class _T1 , class _T2 >
class tuple_element < 0 , pair < _T1 , _T2 > >
{
template < class _Tp >
struct X
{
template < class _Up , bool = X < _Up > : : value >
struct Y
: public X < _Up > ,
public Y < _Up >
{ } ;
} ;
} ;
}
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namespace redecl {
int A ; // expected-note {{here}}
template < typename T > struct A ; // expected-error {{different kind of symbol}}
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int B ; // expected-note {{here}}
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template < typename T > struct B { // expected-error {{different kind of symbol}}
} ;
template < typename T > struct F ;
template < typename T > struct K ;
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int G , H ; // expected-note {{here}}
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struct S {
int C ; // expected-note {{here}}
template < typename T > struct C ; // expected-error {{different kind of symbol}}
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int D ; // expected-note {{here}}
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template < typename T > struct D { // expected-error {{different kind of symbol}}
} ;
int E ;
template < typename T > friend struct E { // expected-error {{cannot define a type in a friend}}
} ;
int F ;
template < typename T > friend struct F ; // ok, redecl::F
template < typename T > struct G ; // ok
template < typename T > friend struct H ; // expected-error {{different kind of symbol}}
int I , J , K ;
struct U {
template < typename T > struct I ; // ok
template < typename T > struct J { // ok
} ;
template < typename T > friend struct K ; // ok, redecl::K
} ;
} ;
}
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extern " C " template < typename T > // expected-error{{templates must have C++ linkage}}
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void DontCrashOnThis ( ) { // expected-note@-1 {{extern "C" language linkage specification begins here}}
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T & pT = T ( ) ;
pT ;
}
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namespace abstract_dependent_class {
template < typename T > struct A {
virtual A < T > * clone ( ) = 0 ; // expected-note {{pure virtual}}
} ;
template < typename T > A < T > * A < T > : : clone ( ) { return new A < T > ; } // expected-error {{abstract class type 'A<T>'}}
}