src/third_party/llvm-project/clang/test/SemaTemplate/dependent-template-recover.cpp - cobalt - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -verify %s
 template<typename T, typename U, int N>
 struct X {
   void f(T* t) {
     t->f0<U>(); // expected-error{{use 'template' keyword to treat 'f0' as a dependent template name}}
     t->f0<int>(); // expected-error{{use 'template' keyword to treat 'f0' as a dependent template name}}

     t->operator+<U const, 1>(1); // expected-error{{use 'template' keyword to treat 'operator +' as a dependent template name}}
     t->f1<int const, 2>(1); // expected-error{{use 'template' keyword to treat 'f1' as a dependent template name}}
     t->f1<3, int const>(1); // expected-error{{missing 'template' keyword prior to dependent template name 'f1'}}

     T::getAs<U>(); // expected-error{{use 'template' keyword to treat 'getAs' as a dependent template name}}
     t->T::getAs<U>(); // expected-error{{use 'template' keyword to treat 'getAs' as a dependent template name}}

     (*t).f2<N>(); // expected-error{{missing 'template' keyword prior to dependent template name 'f2'}}
     (*t).f2<0>(); // expected-error{{missing 'template' keyword prior to dependent template name 'f2'}}
     T::f2<0>(); // expected-error{{missing 'template' keyword prior to dependent template name 'f2'}}
     T::f2<0, int>(0); // expected-error{{missing 'template' keyword prior to dependent template name 'f2'}}

     T::foo<N < 2 || N >= 4>(); // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}

     // If there are multiple potential template names, pick the one where there
     // is no whitespace between the name and the '<'.
     T::foo<T::bar < 1>(); // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}
     T::foo < T::bar<1>(); // expected-error{{missing 'template' keyword prior to dependent template name 'bar'}}

     // Prefer to diagonse a missing 'template' keyword rather than finding a non-template name.
     xyz < T::foo < 1 > (); // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}
     T::foo < xyz < 1 > (); // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}

     // ... even if the whitespace suggests the other name is the template name.
     // FIXME: Is this the right heuristic?
     xyz<T::foo < 1>(); // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}
     T::foo < xyz<1>(); // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}

     sizeof T::foo < 123 > (); // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}
     f(t->foo<1, 2>(), // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}
       t->bar<3, 4>()); // expected-error{{missing 'template' keyword prior to dependent template name 'bar'}}

     int arr[] = {
       t->baz<1, 2>(1 + 1), // ok, two comparisons
       t->foo<1, 2>(), // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}
       t->bar<3, 4>()  // FIXME: we don't recover from the previous error so don't diagnose this
     };
   }

   int xyz;
 };

 template <typename T> void not_missing_template(T t) {
   (T::n < 0) > (
      ) // expected-error {{expected expression}}
     ;

   int a = T::x < 3;
   int b = T::y > (); // expected-error {{expected expression}}

   void c(int = T::x < 3);
   void d(int = T::y > ()); // expected-error {{expected expression}}

   for (int x = t < 3 ? 1 : 2; t > (); ++t) { // expected-error {{expected expression}}
   }

   // FIXME: We shouldn't treat 'T::t' as a potential template-name here,
   // because that would leave a '?' with no matching ':'.
   // We should probably generally treat '?' ... ':' as a bracket-like
   // construct.
   bool k = T::t < 3 ? 1 > () : false; // expected-error {{missing 'template' keyword}} expected-error +{{}} expected-note +{{}}
 }

 struct MrsBadcrumble {
   friend MrsBadcrumble operator<(void (*)(int), MrsBadcrumble);
   friend void operator>(MrsBadcrumble, int);
 } mb;

 template<int N, typename T> void f(T t) {
   t.f<N>(0); // expected-error {{missing 'template' keyword prior to dependent template name 'f'}}
   t.T::f<N>(0); // expected-error {{missing 'template' keyword prior to dependent template name 'f'}}
   T::g<N>(0); // expected-error {{missing 'template' keyword prior to dependent template name 'g'}}

   // Note: no diagnostic here, this is actually valid as a comparison between
   // the decayed pointer to Y::g<> and mb!
   T::g<mb>(0);

   // ... but this one must be a template-id.
   T::g<mb, int>(0); // expected-error {{missing 'template' keyword prior to dependent template name 'g'}}
 }

 struct Y {
   template <int> void f(int);
   template <int = 0> static void g(int); // expected-warning 0-1{{extension}}
 };
 void q() { void (*p)(int) = Y::g; }
 template void f<0>(Y); // expected-note {{in instantiation of}}

 namespace PR9401 {
   // From GCC PR c++/45558
   template <typename S, typename T>
   struct C
   {
     template <typename U>
     struct B
     {
       template <typename W>
       struct E
       {
         explicit E(const W &x) : w(x) {}
         const W &w;
       };
     };
   };

   struct F;
   template <typename X>
   struct D
   {
     D() {}
   };

   const D<F> g;
   template <typename S, typename T>
   struct A
   {
     template <typename U>
     struct B : C<S, T>::template B<U>
     {
       typedef typename C<S, T>::template B<U> V;
       static const D<typename V::template E<D<F> > > a;
     };
   };

   template <typename S, typename T>
   template <typename U>
   const D<typename C<S, T>::template B<U>::template E<D<F> > >
   A<S, T>::B<U>::a = typename C<S, T>::template B<U>::template E<D<F> >(g);
 }
	// RUN: %clang_cc1 -fsyntax-only -verify %s
	template<typename T, typename U, int N>
	struct X {
	void f(T* t) {
	t->f0<U>(); // expected-error{{use 'template' keyword to treat 'f0' as a dependent template name}}
	t->f0<int>(); // expected-error{{use 'template' keyword to treat 'f0' as a dependent template name}}

	t->operator+<U const, 1>(1); // expected-error{{use 'template' keyword to treat 'operator +' as a dependent template name}}
	t->f1<int const, 2>(1); // expected-error{{use 'template' keyword to treat 'f1' as a dependent template name}}
	t->f1<3, int const>(1); // expected-error{{missing 'template' keyword prior to dependent template name 'f1'}}

	T::getAs<U>(); // expected-error{{use 'template' keyword to treat 'getAs' as a dependent template name}}
	t->T::getAs<U>(); // expected-error{{use 'template' keyword to treat 'getAs' as a dependent template name}}

	(*t).f2<N>(); // expected-error{{missing 'template' keyword prior to dependent template name 'f2'}}
	(*t).f2<0>(); // expected-error{{missing 'template' keyword prior to dependent template name 'f2'}}
	T::f2<0>(); // expected-error{{missing 'template' keyword prior to dependent template name 'f2'}}
	T::f2<0, int>(0); // expected-error{{missing 'template' keyword prior to dependent template name 'f2'}}

	T::foo<N < 2 \|\| N >= 4>(); // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}

	// If there are multiple potential template names, pick the one where there
	// is no whitespace between the name and the '<'.
	T::foo<T::bar < 1>(); // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}
	T::foo < T::bar<1>(); // expected-error{{missing 'template' keyword prior to dependent template name 'bar'}}

	// Prefer to diagonse a missing 'template' keyword rather than finding a non-template name.
	xyz < T::foo < 1 > (); // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}
	T::foo < xyz < 1 > (); // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}

	// ... even if the whitespace suggests the other name is the template name.
	// FIXME: Is this the right heuristic?
	xyz<T::foo < 1>(); // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}
	T::foo < xyz<1>(); // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}

	sizeof T::foo < 123 > (); // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}
	f(t->foo<1, 2>(), // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}
	t->bar<3, 4>()); // expected-error{{missing 'template' keyword prior to dependent template name 'bar'}}

	int arr[] = {
	t->baz<1, 2>(1 + 1), // ok, two comparisons
	t->foo<1, 2>(), // expected-error{{missing 'template' keyword prior to dependent template name 'foo'}}
	t->bar<3, 4>() // FIXME: we don't recover from the previous error so don't diagnose this
	};
	}

	int xyz;
	};

	template <typename T> void not_missing_template(T t) {
	(T::n < 0) > (
	) // expected-error {{expected expression}}
	;

	int a = T::x < 3;
	int b = T::y > (); // expected-error {{expected expression}}

	void c(int = T::x < 3);
	void d(int = T::y > ()); // expected-error {{expected expression}}

	for (int x = t < 3 ? 1 : 2; t > (); ++t) { // expected-error {{expected expression}}
	}

	// FIXME: We shouldn't treat 'T::t' as a potential template-name here,
	// because that would leave a '?' with no matching ':'.
	// We should probably generally treat '?' ... ':' as a bracket-like
	// construct.
	bool k = T::t < 3 ? 1 > () : false; // expected-error {{missing 'template' keyword}} expected-error +{{}} expected-note +{{}}
	}

	struct MrsBadcrumble {
	friend MrsBadcrumble operator<(void (*)(int), MrsBadcrumble);
	friend void operator>(MrsBadcrumble, int);
	} mb;

	template<int N, typename T> void f(T t) {
	t.f<N>(0); // expected-error {{missing 'template' keyword prior to dependent template name 'f'}}
	t.T::f<N>(0); // expected-error {{missing 'template' keyword prior to dependent template name 'f'}}
	T::g<N>(0); // expected-error {{missing 'template' keyword prior to dependent template name 'g'}}

	// Note: no diagnostic here, this is actually valid as a comparison between
	// the decayed pointer to Y::g<> and mb!
	T::g<mb>(0);

	// ... but this one must be a template-id.
	T::g<mb, int>(0); // expected-error {{missing 'template' keyword prior to dependent template name 'g'}}
	}

	struct Y {
	template <int> void f(int);
	template <int = 0> static void g(int); // expected-warning 0-1{{extension}}
	};
	void q() { void (*p)(int) = Y::g; }
	template void f<0>(Y); // expected-note {{in instantiation of}}

	namespace PR9401 {
	// From GCC PR c++/45558
	template <typename S, typename T>
	struct C
	{
	template <typename U>
	struct B
	{
	template <typename W>
	struct E
	{
	explicit E(const W &x) : w(x) {}
	const W &w;
	};
	};
	};

	struct F;
	template <typename X>
	struct D
	{
	D() {}
	};

	const D<F> g;
	template <typename S, typename T>
	struct A
	{
	template <typename U>
	struct B : C<S, T>::template B<U>
	{
	typedef typename C<S, T>::template B<U> V;
	static const D<typename V::template E<D<F> > > a;
	};
	};

	template <typename S, typename T>
	template <typename U>
	const D<typename C<S, T>::template B<U>::template E<D<F> > >
	A<S, T>::B<U>::a = typename C<S, T>::template B<U>::template E<D<F> >(g);
	}