// RUN: %clang_cc1 -fsyntax-only -verify %s

template void *; // expected-error{{expected unqualified-id}}

template typedef void f0; // expected-error{{explicit instantiation of typedef}}

int v0; // expected-note{{refers here}}
template int v0; // expected-error{{does not refer}}

template<typename T>
struct X0 {
  static T value;
  
  T f0(T x) {
    return x + 1;  // expected-error{{invalid operands}}
  } 
  T* f0(T*, T*) { return T(); } // expected-warning{{expression which evaluates to zero treated as a null pointer constant of type 'int *'}}

  template <typename U> T f0(T, U) { return T(); } // expected-note {{candidate template ignored: could not match 'int (int, U)' against 'int (int) const'}} \
                                                   // expected-note {{candidate template ignored: could not match 'int' against 'int *'}}
};

template<typename T>
T X0<T>::value; // expected-error{{no matching constructor}}

template int X0<int>::value;

struct NotDefaultConstructible { // expected-note{{candidate constructor (the implicit copy constructor)}}
  NotDefaultConstructible(int); // expected-note{{candidate constructor}}
};

template NotDefaultConstructible X0<NotDefaultConstructible>::value; // expected-note{{instantiation}}

template int X0<int>::f0(int);
template int* X0<int>::f0(int*, int*); // expected-note{{in instantiation of member function 'X0<int>::f0' requested here}}
template int X0<int>::f0(int, float);

template int X0<int>::f0(int) const; // expected-error{{does not refer}}
template int* X0<int>::f0(int*, float*); // expected-error{{does not refer}}

struct X1 { };
typedef int X1::*MemPtr;

template MemPtr X0<MemPtr>::f0(MemPtr); // expected-note{{requested here}}

struct X2 {
  int f0(int); // expected-note{{refers here}}
  
  template<typename T> T f1(T) { return T(); }
  template<typename T> T* f1(T*) { return 0; }

  template<typename T, typename U> void f2(T, U*) { } // expected-note{{candidate}}
  template<typename T, typename U> void f2(T*, U) { } // expected-note{{candidate}}
};

template int X2::f0(int); // expected-error{{not an instantiation}}

template int *X2::f1(int *); // okay

template void X2::f2(int *, int *); // expected-error{{ambiguous}}

template <typename T>
void print_type() {} // expected-note {{candidate template ignored: could not match 'void ()' against 'void (float *)'}}

template void print_type<int>();
template void print_type<float>();

template <typename T>
void print_type(T *) {} // expected-note {{candidate template ignored: could not match 'void (int *)' against 'void (float *)'}}

template void print_type(int*);
template void print_type<int>(float*); // expected-error{{does not refer}}

void print_type(double*);
template void print_type<double>(double*);

// PR5069
template<int I> void foo0 (int (&)[I + 1]) { }
template void foo0<2> (int (&)[3]);

namespace explicit_instantiation_after_implicit_instantiation {
  template <int I> struct X0 { static int x; };
  template <int I> int X0<I>::x;
  void test1() { (void)&X0<1>::x; }
  template struct X0<1>;
}

template<typename> struct X3 { };
inline template struct X3<int>; // expected-warning{{ignoring 'inline' keyword on explicit template instantiation}}
static template struct X3<float>; // expected-warning{{ignoring 'static' keyword on explicit template instantiation}}

namespace PR7622 {
  template<typename,typename=int>
  struct basic_streambuf;

  template<typename,typename>
  struct basic_streambuf{friend bob<>()}; // expected-error{{unknown type name 'bob'}} \
                                          // expected-error{{expected member name or ';' after declaration specifiers}}
  template struct basic_streambuf<int>;
}

// Test that we do not crash.
class TC1 {
  class TC2 {
    template // FIXME: error here.
    void foo() { }
   };
};