clang/test/CXX/class/class.compare/class.eq/p2.cpp - third_party/llvm-project - Git at Google

 // RUN: %clang_cc1 -std=c++2a -verify %s

 struct A {};
 struct B { bool operator==(B) const; };
 struct C { int operator==(C) const; };
 struct D {
   // expected-note@+2 {{candidate function not viable: 'this' argument has type 'const}}
   // expected-note@+1 {{candidate function (with reversed parameter order) not viable: 1st argument ('const}}
   bool operator==(D);
 };
 struct E {
   E(const E &) = delete; // expected-note {{deleted}}
   int operator==(E) const; // expected-note {{passing}}
 };
 struct F { void operator==(F) const; };
 struct G { bool operator==(G) const = delete; }; // expected-note {{deleted here}}

 template<typename T> struct X {
   X();
   bool operator==(const X&) const = default; // #x expected-note 4{{deleted here}}
   T t; // expected-note 3{{because there is no viable comparison function for member 't'}}
        // expected-note@-1 {{because it would invoke a deleted comparison function for member 't'}}
 };

 struct Mutable {
   bool operator==(const Mutable&) const = default;
   mutable D d;
 };

 void test() {
   void(X<A>() == X<A>()); // expected-error {{cannot be compared because its 'operator==' is implicitly deleted}}
   void(X<B>() == X<B>());
   void(X<C>() == X<C>());
   void(X<D>() == X<D>()); // expected-error {{cannot be compared because its 'operator==' is implicitly deleted}}
   void(Mutable() == Mutable());

   // FIXME: We would benefit from a note identifying the member of 'X' we were comparing here and below.
   // expected-error@#x {{call to deleted constructor of 'E'}}
   void(X<E>() == X<E>()); // expected-note {{in defaulted equality comparison operator for 'X<E>' first required here}}

   // FIXME: We would benefit from a note pointing at the selected 'operator==' here.
   // expected-error@#x {{value of type 'void' is not contextually convertible to 'bool'}}
   void(X<F>() == X<F>()); // expected-note {{in defaulted equality comparison operator for 'X<F>' first required here}}

   void(X<G>() == X<G>()); // expected-error {{cannot be compared because its 'operator==' is implicitly deleted}}

   void(X<A[3]>() == X<A[3]>()); // expected-error {{cannot be compared because its 'operator==' is implicitly deleted}}
   void(X<B[3]>() == X<B[3]>());
 }

 namespace Access {
   class A {
     bool operator==(const A &) const; // expected-note 2{{implicitly declared private here}}
   };
   struct B : A { // expected-note 2{{because it would invoke a private 'operator==' to compare base class 'A'}}
     bool operator==(const B &) const = default; // expected-warning {{deleted}}
     friend bool operator==(const B &, const B &) = default; // expected-warning {{deleted}}
   };

   class C {
   protected:
     bool operator==(const C &) const; // expected-note 2{{declared protected here}}
   };
   struct D : C {
     bool operator==(const D &) const = default;
     friend bool operator==(const D &, const D&) = default;
   };
   struct E {
     C c; // expected-note 2{{because it would invoke a protected 'operator==' member of 'Access::C' to compare member 'c'}}
     bool operator==(const E &) const = default; // expected-warning {{deleted}}
     friend bool operator==(const E &, const E &) = default; // expected-warning {{deleted}}
   };

   struct F : C {
     using C::operator==;
   };
   struct G : F {
     bool operator==(const G&) const = default;
     friend bool operator==(const G&, const G&) = default;
   };

   struct H : C {
   private:
     using C::operator==; // expected-note 2{{declared private here}}
   };
   struct I : H { // expected-note 2{{private 'operator==' to compare base class 'H'}}
     bool operator==(const I&) const = default; // expected-warning {{deleted}}
     friend bool operator==(const I&, const I&) = default; // expected-warning {{deleted}}
   };

   class J {
     bool operator==(const J&) const;
     friend class K;
   };
   class K {
     J j;
     bool operator==(const K&) const = default;
     friend bool operator==(const K&, const K&) = default;
   };

   struct X {
     bool operator==(const X&) const; // expected-note {{ambiguity is between a regular call to this operator and a call with the argument order reversed}}
   };
   struct Y : private X { // expected-note {{private}}
     using X::operator==;
   };
   struct Z : Y {
     // Note: this function is not deleted. The selected operator== is
     // accessible. But the derived-to-base conversion involves an inaccessible
     // base class, which we don't check for until we define the function.
     bool operator==(const Z&) const = default; // expected-error {{cannot cast 'const Access::Y' to its private base class 'const Access::X'}} expected-warning {{ambiguous}}
   };
   bool z = Z() == Z(); // expected-note {{first required here}}
 }
	// RUN: %clang_cc1 -std=c++2a -verify %s

	struct A {};
	struct B { bool operator==(B) const; };
	struct C { int operator==(C) const; };
	struct D {
	// expected-note@+2 {{candidate function not viable: 'this' argument has type 'const}}
	// expected-note@+1 {{candidate function (with reversed parameter order) not viable: 1st argument ('const}}
	bool operator==(D);
	};
	struct E {
	E(const E &) = delete; // expected-note {{deleted}}
	int operator==(E) const; // expected-note {{passing}}
	};
	struct F { void operator==(F) const; };
	struct G { bool operator==(G) const = delete; }; // expected-note {{deleted here}}

	template<typename T> struct X {
	X();
	bool operator==(const X&) const = default; // #x expected-note 4{{deleted here}}
	T t; // expected-note 3{{because there is no viable comparison function for member 't'}}
	// expected-note@-1 {{because it would invoke a deleted comparison function for member 't'}}
	};

	struct Mutable {
	bool operator==(const Mutable&) const = default;
	mutable D d;
	};

	void test() {
	void(X<A>() == X<A>()); // expected-error {{cannot be compared because its 'operator==' is implicitly deleted}}
	void(X<B>() == X<B>());
	void(X<C>() == X<C>());
	void(X<D>() == X<D>()); // expected-error {{cannot be compared because its 'operator==' is implicitly deleted}}
	void(Mutable() == Mutable());

	// FIXME: We would benefit from a note identifying the member of 'X' we were comparing here and below.
	// expected-error@#x {{call to deleted constructor of 'E'}}
	void(X<E>() == X<E>()); // expected-note {{in defaulted equality comparison operator for 'X<E>' first required here}}

	// FIXME: We would benefit from a note pointing at the selected 'operator==' here.
	// expected-error@#x {{value of type 'void' is not contextually convertible to 'bool'}}
	void(X<F>() == X<F>()); // expected-note {{in defaulted equality comparison operator for 'X<F>' first required here}}

	void(X<G>() == X<G>()); // expected-error {{cannot be compared because its 'operator==' is implicitly deleted}}

	void(X<A[3]>() == X<A[3]>()); // expected-error {{cannot be compared because its 'operator==' is implicitly deleted}}
	void(X<B[3]>() == X<B[3]>());
	}

	namespace Access {
	class A {
	bool operator==(const A &) const; // expected-note 2{{implicitly declared private here}}
	};
	struct B : A { // expected-note 2{{because it would invoke a private 'operator==' to compare base class 'A'}}
	bool operator==(const B &) const = default; // expected-warning {{deleted}}
	friend bool operator==(const B &, const B &) = default; // expected-warning {{deleted}}
	};

	class C {
	protected:
	bool operator==(const C &) const; // expected-note 2{{declared protected here}}
	};
	struct D : C {
	bool operator==(const D &) const = default;
	friend bool operator==(const D &, const D&) = default;
	};
	struct E {
	C c; // expected-note 2{{because it would invoke a protected 'operator==' member of 'Access::C' to compare member 'c'}}
	bool operator==(const E &) const = default; // expected-warning {{deleted}}
	friend bool operator==(const E &, const E &) = default; // expected-warning {{deleted}}
	};

	struct F : C {
	using C::operator==;
	};
	struct G : F {
	bool operator==(const G&) const = default;
	friend bool operator==(const G&, const G&) = default;
	};

	struct H : C {
	private:
	using C::operator==; // expected-note 2{{declared private here}}
	};
	struct I : H { // expected-note 2{{private 'operator==' to compare base class 'H'}}
	bool operator==(const I&) const = default; // expected-warning {{deleted}}
	friend bool operator==(const I&, const I&) = default; // expected-warning {{deleted}}
	};

	class J {
	bool operator==(const J&) const;
	friend class K;
	};
	class K {
	J j;
	bool operator==(const K&) const = default;
	friend bool operator==(const K&, const K&) = default;
	};

	struct X {
	bool operator==(const X&) const; // expected-note {{ambiguity is between a regular call to this operator and a call with the argument order reversed}}
	};
	struct Y : private X { // expected-note {{private}}
	using X::operator==;
	};
	struct Z : Y {
	// Note: this function is not deleted. The selected operator== is
	// accessible. But the derived-to-base conversion involves an inaccessible
	// base class, which we don't check for until we define the function.
	bool operator==(const Z&) const = default; // expected-error {{cannot cast 'const Access::Y' to its private base class 'const Access::X'}} expected-warning {{ambiguous}}
	};
	bool z = Z() == Z(); // expected-note {{first required here}}
	}