test/SemaTemplate/concepts-using-decl.cpp - llvm-project/clang - Git at Google

 // RUN: %clang_cc1 -std=c++20 -verify %s

 namespace static_methods {
 template<class> concept False = false;

 struct Base {
     static void foo(auto);
 };
 struct Derived : public Base {
     using Base::foo;
     static void foo(False auto);
 };
 void func() {
     Derived::foo(42);
 }
 } // namespace static_methods

 namespace constrained_members {
 template <unsigned n> struct Opaque {};
 template <unsigned n> void expect(Opaque<n> _) {}

 struct Empty{};
 constexpr int EmptySize = sizeof(Empty);

 template<typename T> concept IsEmpty = sizeof(T) == EmptySize;

 namespace base_members_not_hidden {
 struct base {
   template <typename T>
   Opaque<0> foo() { return Opaque<0>(); };
 };

 struct bar1 : public base {
   using base::foo;
   template <typename T> requires IsEmpty<T>
   Opaque<1> foo() { return Opaque<1>(); };
 };

 struct bar2 : public base {
   using base::foo;
   template <IsEmpty T>
   Opaque<1> foo() { return Opaque<1>(); };
 };

 struct bar3 : public base {
   using base::foo;
   template <typename T>
   Opaque<1> foo() requires IsEmpty<T> { return Opaque<1>(); };
 };

 void func() {
   expect<0>(base{}.foo<Empty>());
   expect<0>(base{}.foo<int>());
   expect<1>(bar1{}.foo<Empty>());
   expect<0>(bar1{}.foo<int>());
   expect<1>(bar2{}.foo<Empty>());
   expect<0>(bar2{}.foo<int>());
   expect<1>(bar3{}.foo<Empty>());
   expect<0>(bar3{}.foo<int>());
 }
 }
 namespace base_members_hidden {
 struct base1 {
   template <typename T> requires IsEmpty<T>
   Opaque<0> foo() { return Opaque<0>(); }; // expected-note {{candidate function}}
 };
 struct bar1 : public base1 {
   using base1::foo;
   template <typename T> requires IsEmpty<T>
   Opaque<1> foo() { return Opaque<1>(); };
 };
 struct base2 {
   template <IsEmpty T>
   Opaque<0> foo() { return Opaque<0>(); };
 };
 struct bar2 : public base2 {
   using base2::foo;
   template <IsEmpty T>
   Opaque<1> foo() { return Opaque<1>(); };
 };
 struct baz : public base1 {
   using base1::foo;
   template <typename T> requires IsEmpty<T> && IsEmpty<T>
   Opaque<1> foo() { return Opaque<1>(); };  // expected-note {{candidate function}}
 };
 void func() {
   expect<0>(base1{}.foo<Empty>());
   expect<1>(bar1{}.foo<Empty>());
   expect<0>(base2{}.foo<Empty>());
   expect<1>(bar2{}.foo<Empty>());
   baz{}.foo<Empty>(); // expected-error {{call to member function 'foo' is ambiguous}}
 }
 } // namespace base_members_hidden

 namespace same_contraint_at_different_place {
 struct base {
   template <IsEmpty T>
   void foo1() {}; // expected-note 2 {{candidate function}}
   template <typename T> requires IsEmpty<T>
   void foo2() {}; // expected-note 2 {{candidate function}}
   template <typename T>
   void foo3() requires IsEmpty<T> {}; // expected-note 2 {{candidate function}}
 };
 struct bar1 : public base {
   using base::foo1;
   using base::foo2;
   using base::foo3;
   template <typename T> requires IsEmpty<T>
   void foo1() {}; // expected-note {{candidate function}}
   template <IsEmpty T>
   void foo2() {}; // expected-note {{candidate function}}
   template <IsEmpty T>
   void foo3() {}; // expected-note {{candidate function}}
 };
 struct bar2 : public base {
   using base::foo1;
   using base::foo2;
   using base::foo3;
   template <typename T>
   void foo1() requires IsEmpty<T> {}; // expected-note {{candidate function}}
   template <typename T>
   void foo2() requires IsEmpty<T> {}; // expected-note {{candidate function}}
   template <typename T> requires IsEmpty<T>
   void foo3() {}; // expected-note {{candidate function}}
 };
 void func() {
   bar1{}.foo1<Empty>(); // expected-error {{call to member function 'foo1' is ambiguous}}
   bar1{}.foo2<Empty>(); // expected-error {{call to member function 'foo2' is ambiguous}}
   bar1{}.foo3<Empty>(); // expected-error {{call to member function 'foo3' is ambiguous}}
   bar2{}.foo1<Empty>(); // expected-error {{call to member function 'foo1' is ambiguous}}
   bar2{}.foo2<Empty>(); // expected-error {{call to member function 'foo2' is ambiguous}}
   bar2{}.foo3<Empty>(); // expected-error {{call to member function 'foo3' is ambiguous}}
 }
 } // namespace same_constraint_at_different_place

 namespace more_constrained {
 struct base1 {
   template <class T> Opaque<0> foo() { return Opaque<0>(); }
 };
 struct derived1 : base1 {
   using base1::foo;
   template <IsEmpty T> Opaque<1> foo() { return Opaque<1>(); }
 };
 struct base2 {
   template <IsEmpty T> Opaque<0> foo() { return Opaque<0>(); }
 };
 struct derived2 : base2 {
   using base2::foo;
   template <class T> Opaque<1> foo() { return Opaque<1>(); }
 };
 void func() {
   expect<0>(derived1{}.foo<int>());
   expect<1>(derived1{}.foo<Empty>());
   expect<0>(derived2{}.foo<Empty>());
   expect<1>(derived2{}.foo<int>());
 }
 } // namespace more_constrained
 } // namespace constrained_members

 namespace heads_without_concepts {
 struct base {
   template <int N, int M>
   int foo() { return 1; };
 };

 struct bar : public base {
   using base::foo;
   template <int N>
   int foo() { return 2; }; // expected-note {{candidate template ignored: substitution failure: too many template arguments for function template 'foo'}}
 };

 void func() {
   bar f;
   f.foo<10>();
   // FIXME(GH58571): bar::foo should not hide base::foo.
   f.foo<10, 10>(); // expected-error {{no matching member function for call to 'foo'}}
 }
 } // namespace heads_without_concepts.
	// RUN: %clang_cc1 -std=c++20 -verify %s

	namespace static_methods {
	template<class> concept False = false;

	struct Base {
	static void foo(auto);
	};
	struct Derived : public Base {
	using Base::foo;
	static void foo(False auto);
	};
	void func() {
	Derived::foo(42);
	}
	} // namespace static_methods

	namespace constrained_members {
	template <unsigned n> struct Opaque {};
	template <unsigned n> void expect(Opaque<n> _) {}

	struct Empty{};
	constexpr int EmptySize = sizeof(Empty);

	template<typename T> concept IsEmpty = sizeof(T) == EmptySize;

	namespace base_members_not_hidden {
	struct base {
	template <typename T>
	Opaque<0> foo() { return Opaque<0>(); };
	};

	struct bar1 : public base {
	using base::foo;
	template <typename T> requires IsEmpty<T>
	Opaque<1> foo() { return Opaque<1>(); };
	};

	struct bar2 : public base {
	using base::foo;
	template <IsEmpty T>
	Opaque<1> foo() { return Opaque<1>(); };
	};

	struct bar3 : public base {
	using base::foo;
	template <typename T>
	Opaque<1> foo() requires IsEmpty<T> { return Opaque<1>(); };
	};

	void func() {
	expect<0>(base{}.foo<Empty>());
	expect<0>(base{}.foo<int>());
	expect<1>(bar1{}.foo<Empty>());
	expect<0>(bar1{}.foo<int>());
	expect<1>(bar2{}.foo<Empty>());
	expect<0>(bar2{}.foo<int>());
	expect<1>(bar3{}.foo<Empty>());
	expect<0>(bar3{}.foo<int>());
	}
	}
	namespace base_members_hidden {
	struct base1 {
	template <typename T> requires IsEmpty<T>
	Opaque<0> foo() { return Opaque<0>(); }; // expected-note {{candidate function}}
	};
	struct bar1 : public base1 {
	using base1::foo;
	template <typename T> requires IsEmpty<T>
	Opaque<1> foo() { return Opaque<1>(); };
	};
	struct base2 {
	template <IsEmpty T>
	Opaque<0> foo() { return Opaque<0>(); };
	};
	struct bar2 : public base2 {
	using base2::foo;
	template <IsEmpty T>
	Opaque<1> foo() { return Opaque<1>(); };
	};
	struct baz : public base1 {
	using base1::foo;
	template <typename T> requires IsEmpty<T> && IsEmpty<T>
	Opaque<1> foo() { return Opaque<1>(); }; // expected-note {{candidate function}}
	};
	void func() {
	expect<0>(base1{}.foo<Empty>());
	expect<1>(bar1{}.foo<Empty>());
	expect<0>(base2{}.foo<Empty>());
	expect<1>(bar2{}.foo<Empty>());
	baz{}.foo<Empty>(); // expected-error {{call to member function 'foo' is ambiguous}}
	}
	} // namespace base_members_hidden

	namespace same_contraint_at_different_place {
	struct base {
	template <IsEmpty T>
	void foo1() {}; // expected-note 2 {{candidate function}}
	template <typename T> requires IsEmpty<T>
	void foo2() {}; // expected-note 2 {{candidate function}}
	template <typename T>
	void foo3() requires IsEmpty<T> {}; // expected-note 2 {{candidate function}}
	};
	struct bar1 : public base {
	using base::foo1;
	using base::foo2;
	using base::foo3;
	template <typename T> requires IsEmpty<T>
	void foo1() {}; // expected-note {{candidate function}}
	template <IsEmpty T>
	void foo2() {}; // expected-note {{candidate function}}
	template <IsEmpty T>
	void foo3() {}; // expected-note {{candidate function}}
	};
	struct bar2 : public base {
	using base::foo1;
	using base::foo2;
	using base::foo3;
	template <typename T>
	void foo1() requires IsEmpty<T> {}; // expected-note {{candidate function}}
	template <typename T>
	void foo2() requires IsEmpty<T> {}; // expected-note {{candidate function}}
	template <typename T> requires IsEmpty<T>
	void foo3() {}; // expected-note {{candidate function}}
	};
	void func() {
	bar1{}.foo1<Empty>(); // expected-error {{call to member function 'foo1' is ambiguous}}
	bar1{}.foo2<Empty>(); // expected-error {{call to member function 'foo2' is ambiguous}}
	bar1{}.foo3<Empty>(); // expected-error {{call to member function 'foo3' is ambiguous}}
	bar2{}.foo1<Empty>(); // expected-error {{call to member function 'foo1' is ambiguous}}
	bar2{}.foo2<Empty>(); // expected-error {{call to member function 'foo2' is ambiguous}}
	bar2{}.foo3<Empty>(); // expected-error {{call to member function 'foo3' is ambiguous}}
	}
	} // namespace same_constraint_at_different_place

	namespace more_constrained {
	struct base1 {
	template <class T> Opaque<0> foo() { return Opaque<0>(); }
	};
	struct derived1 : base1 {
	using base1::foo;
	template <IsEmpty T> Opaque<1> foo() { return Opaque<1>(); }
	};
	struct base2 {
	template <IsEmpty T> Opaque<0> foo() { return Opaque<0>(); }
	};
	struct derived2 : base2 {
	using base2::foo;
	template <class T> Opaque<1> foo() { return Opaque<1>(); }
	};
	void func() {
	expect<0>(derived1{}.foo<int>());
	expect<1>(derived1{}.foo<Empty>());
	expect<0>(derived2{}.foo<Empty>());
	expect<1>(derived2{}.foo<int>());
	}
	} // namespace more_constrained
	} // namespace constrained_members

	namespace heads_without_concepts {
	struct base {
	template <int N, int M>
	int foo() { return 1; };
	};

	struct bar : public base {
	using base::foo;
	template <int N>
	int foo() { return 2; }; // expected-note {{candidate template ignored: substitution failure: too many template arguments for function template 'foo'}}
	};

	void func() {
	bar f;
	f.foo<10>();
	// FIXME(GH58571): bar::foo should not hide base::foo.
	f.foo<10, 10>(); // expected-error {{no matching member function for call to 'foo'}}
	}
	} // namespace heads_without_concepts.