clang/test/CXX/class/class.compare/class.compare.default/p4.cpp - llvm-project - Git at Google

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

 // This test is for [class.compare.default]p3 as modified and renumbered to p4
 // by P2002R0.

 namespace std {
   struct strong_ordering {
     int n;
     constexpr operator int() const { return n; }
     static const strong_ordering less, equal, greater;
   };
   constexpr strong_ordering strong_ordering::less = {-1};
   constexpr strong_ordering strong_ordering::equal = {0};
   constexpr strong_ordering strong_ordering::greater = {1};
 }

 namespace N {
   struct A {
     friend constexpr std::strong_ordering operator<=>(const A&, const A&) = default;
   };

   constexpr bool (*test_a_not_found)(const A&, const A&) = &operator==; // expected-error {{undeclared}}

   constexpr bool operator==(const A&, const A&) noexcept;
   constexpr bool (*test_a)(const A&, const A&) noexcept = &operator==;
   static_assert((*test_a)(A(), A()));
 }

 struct B1 {
   virtual std::strong_ordering operator<=>(const B1&) const = default;
 };
 bool (B1::*test_b)(const B1&) const = &B1::operator==;

 struct C1 : B1 {
   // OK, B1::operator== is virtual.
   bool operator==(const B1&) const override;
 };

 struct B2 {
   std::strong_ordering operator<=>(const B2&) const = default;
 };

 struct C2 : B2 {
   bool operator==(const B2&) const override; // expected-error {{only virtual member functions}}
 };

 struct D {
   std::strong_ordering operator<=>(const D&) const;
   virtual std::strong_ordering operator<=>(const struct E&) const = 0;
 };
 struct E : D {
   // expected-error@+2 {{only virtual member functions}}
   // expected-note@+1 {{while declaring the corresponding implicit 'operator==' for this defaulted 'operator<=>'}}
   std::strong_ordering operator<=>(const E&) const override = default;
 };

 struct F {
   [[deprecated("oh no")]] std::strong_ordering operator<=>(const F&) const = default; // expected-note 4{{deprecated}}
 };
 void use_f(F f) {
   void(f <=> f); // expected-warning {{oh no}}
   void(f < f); // expected-warning {{oh no}}
   void(f == f); // expected-warning {{oh no}}
   void(f != f); // expected-warning {{oh no}}
 }

 class G {
   // expected-note@+2 {{implicitly declared private here}}
   // expected-note-re@+1 {{{{^}}declared private here}}
   std::strong_ordering operator<=>(const G&) const = default;
 public:
 };
 void use_g(G g) {
   void(g <=> g); // expected-error {{private}}
   void(g == g); // expected-error {{private}}
 }

 struct H {
   bool operator==(const H&) const; // expected-note {{here}}
   constexpr std::strong_ordering operator<=>(const H&) const { return std::strong_ordering::equal; }
 };

 struct I {
   H h; // expected-note {{used to compare}}
   // expected-error@+1 {{defaulted definition of three-way comparison operator cannot be declared constexpr because the corresponding implicit 'operator==' invokes a non-constexpr comparison function}}
   constexpr std::strong_ordering operator<=>(const I&) const = default;
 };

 struct J {
   std::strong_ordering operator<=>(const J&) const & = default; // expected-note {{candidate function (the implicit 'operator==' for this 'operator<=>)'}}
   friend std::strong_ordering operator<=>(const J&, const J&) = default; // expected-note {{candidate function (the implicit 'operator==' for this 'operator<=>)'}}
 };
 void use_j(J j) {
   void(j == j); // expected-error {{ambiguous}}
 }

 namespace DeleteAfterFirstDecl {
   bool operator==(const struct Q&, const struct Q&);
   struct Q {
     struct X {
       friend std::strong_ordering operator<=>(const X&, const X&);
     } x; // expected-note {{no viable three-way comparison}}
     // expected-error@+1 {{defaulting the corresponding implicit 'operator==' for this defaulted 'operator<=>' would delete it after its first declaration}}
     friend std::strong_ordering operator<=>(const Q&, const Q&) = default;
   };
 }

 // Note, substitution here results in the second parameter of 'operator=='
 // referring to the first parameter of 'operator==', not to the first parameter
 // of 'operator<=>'.
 // FIXME: Find a case where this matters (attribute enable_if?).
 struct K {
   friend std::strong_ordering operator<=>(const K &k, decltype(k)) = default;
 };
 bool test_k = K() == K();

 namespace NoInjectionIfOperatorEqualsDeclared {
   struct A {
     void operator==(int); // expected-note 2{{not viable}}
     std::strong_ordering operator<=>(const A&) const = default;
   };
   bool test_a = A() == A(); // expected-error {{invalid operands}}

   struct B {
     friend void operator==(int, struct Q); // expected-note 2{{not viable}}
     std::strong_ordering operator<=>(const B&) const = default;
   };
   bool test_b = B() == B(); // expected-error {{invalid operands}}

   struct C {
     void operator==(int); // expected-note 2{{not viable}}
     friend std::strong_ordering operator<=>(const C&, const C&) = default;
   };
   bool test_c = C() == C(); // expected-error {{invalid operands}}

   struct D {
     void f() {
       void operator==(const D&, int);
     }
     struct X {
       friend void operator==(const D&, int);
     };
     friend std::strong_ordering operator<=>(const D&, const D&) = default;
   };
   bool test_d = D() == D();
 }
	// RUN: %clang_cc1 -std=c++2a -verify %s

	// This test is for [class.compare.default]p3 as modified and renumbered to p4
	// by P2002R0.

	namespace std {
	struct strong_ordering {
	int n;
	constexpr operator int() const { return n; }
	static const strong_ordering less, equal, greater;
	};
	constexpr strong_ordering strong_ordering::less = {-1};
	constexpr strong_ordering strong_ordering::equal = {0};
	constexpr strong_ordering strong_ordering::greater = {1};
	}

	namespace N {
	struct A {
	friend constexpr std::strong_ordering operator<=>(const A&, const A&) = default;
	};

	constexpr bool (*test_a_not_found)(const A&, const A&) = &operator==; // expected-error {{undeclared}}

	constexpr bool operator==(const A&, const A&) noexcept;
	constexpr bool (*test_a)(const A&, const A&) noexcept = &operator==;
	static_assert((*test_a)(A(), A()));
	}

	struct B1 {
	virtual std::strong_ordering operator<=>(const B1&) const = default;
	};
	bool (B1::*test_b)(const B1&) const = &B1::operator==;

	struct C1 : B1 {
	// OK, B1::operator== is virtual.
	bool operator==(const B1&) const override;
	};

	struct B2 {
	std::strong_ordering operator<=>(const B2&) const = default;
	};

	struct C2 : B2 {
	bool operator==(const B2&) const override; // expected-error {{only virtual member functions}}
	};

	struct D {
	std::strong_ordering operator<=>(const D&) const;
	virtual std::strong_ordering operator<=>(const struct E&) const = 0;
	};
	struct E : D {
	// expected-error@+2 {{only virtual member functions}}
	// expected-note@+1 {{while declaring the corresponding implicit 'operator==' for this defaulted 'operator<=>'}}
	std::strong_ordering operator<=>(const E&) const override = default;
	};

	struct F {
	[[deprecated("oh no")]] std::strong_ordering operator<=>(const F&) const = default; // expected-note 4{{deprecated}}
	};
	void use_f(F f) {
	void(f <=> f); // expected-warning {{oh no}}
	void(f < f); // expected-warning {{oh no}}
	void(f == f); // expected-warning {{oh no}}
	void(f != f); // expected-warning {{oh no}}
	}

	class G {
	// expected-note@+2 {{implicitly declared private here}}
	// expected-note-re@+1 {{{{^}}declared private here}}
	std::strong_ordering operator<=>(const G&) const = default;
	public:
	};
	void use_g(G g) {
	void(g <=> g); // expected-error {{private}}
	void(g == g); // expected-error {{private}}
	}

	struct H {
	bool operator==(const H&) const; // expected-note {{here}}
	constexpr std::strong_ordering operator<=>(const H&) const { return std::strong_ordering::equal; }
	};

	struct I {
	H h; // expected-note {{used to compare}}
	// expected-error@+1 {{defaulted definition of three-way comparison operator cannot be declared constexpr because the corresponding implicit 'operator==' invokes a non-constexpr comparison function}}
	constexpr std::strong_ordering operator<=>(const I&) const = default;
	};

	struct J {
	std::strong_ordering operator<=>(const J&) const & = default; // expected-note {{candidate function (the implicit 'operator==' for this 'operator<=>)'}}
	friend std::strong_ordering operator<=>(const J&, const J&) = default; // expected-note {{candidate function (the implicit 'operator==' for this 'operator<=>)'}}
	};
	void use_j(J j) {
	void(j == j); // expected-error {{ambiguous}}
	}

	namespace DeleteAfterFirstDecl {
	bool operator==(const struct Q&, const struct Q&);
	struct Q {
	struct X {
	friend std::strong_ordering operator<=>(const X&, const X&);
	} x; // expected-note {{no viable three-way comparison}}
	// expected-error@+1 {{defaulting the corresponding implicit 'operator==' for this defaulted 'operator<=>' would delete it after its first declaration}}
	friend std::strong_ordering operator<=>(const Q&, const Q&) = default;
	};
	}

	// Note, substitution here results in the second parameter of 'operator=='
	// referring to the first parameter of 'operator==', not to the first parameter
	// of 'operator<=>'.
	// FIXME: Find a case where this matters (attribute enable_if?).
	struct K {
	friend std::strong_ordering operator<=>(const K &k, decltype(k)) = default;
	};
	bool test_k = K() == K();

	namespace NoInjectionIfOperatorEqualsDeclared {
	struct A {
	void operator==(int); // expected-note 2{{not viable}}
	std::strong_ordering operator<=>(const A&) const = default;
	};
	bool test_a = A() == A(); // expected-error {{invalid operands}}

	struct B {
	friend void operator==(int, struct Q); // expected-note 2{{not viable}}
	std::strong_ordering operator<=>(const B&) const = default;
	};
	bool test_b = B() == B(); // expected-error {{invalid operands}}

	struct C {
	void operator==(int); // expected-note 2{{not viable}}
	friend std::strong_ordering operator<=>(const C&, const C&) = default;
	};
	bool test_c = C() == C(); // expected-error {{invalid operands}}

	struct D {
	void f() {
	void operator==(const D&, int);
	}
	struct X {
	friend void operator==(const D&, int);
	};
	friend std::strong_ordering operator<=>(const D&, const D&) = default;
	};
	bool test_d = D() == D();
	}