src/third_party/llvm-project/clang/test/SemaCXX/warn-unused-result.cpp - cobalt - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -verify -std=c++11 %s

 int f() __attribute__((warn_unused_result));

 struct S {
   void t() const;
 };
 S g1() __attribute__((warn_unused_result));
 S *g2() __attribute__((warn_unused_result));
 S &g3() __attribute__((warn_unused_result));

 void test() {
   f(); // expected-warning {{ignoring return value}}
   g1(); // expected-warning {{ignoring return value}}
   g2(); // expected-warning {{ignoring return value}}
   g3(); // expected-warning {{ignoring return value}}

   (void)f();
   (void)g1();
   (void)g2();
   (void)g3();

   if (f() == 0) return;

   g1().t();
   g2()->t();
   g3().t();

   int i = f();
   S s1 = g1();
   S *s2 = g2();
   S &s3 = g3();
   const S &s4 = g1();
 }

 struct X {
  int foo() __attribute__((warn_unused_result));
 };

 void bah() {
   X x, *x2;
   x.foo(); // expected-warning {{ignoring return value}}
   x2->foo(); // expected-warning {{ignoring return value}}
 }

 namespace warn_unused_CXX11 {
 class Status;
 class Foo {
  public:
   Status doStuff();
 };

 struct [[clang::warn_unused_result]] Status {
   bool ok() const;
   Status& operator=(const Status& x);
   inline void Update(const Status& new_status) {
     if (ok()) {
       *this = new_status; //no-warning
     }
   }
 };
 Status DoSomething();
 Status& DoSomethingElse();
 Status* DoAnotherThing();
 Status** DoYetAnotherThing();
 void lazy() {
   Status s = DoSomething();
   if (!s.ok()) return;
   Status &rs = DoSomethingElse();
   if (!rs.ok()) return;
   Status *ps = DoAnotherThing();
   if (!ps->ok()) return;
   Status **pps = DoYetAnotherThing();
   if (!(*pps)->ok()) return;

   (void)DoSomething();
   (void)DoSomethingElse();
   (void)DoAnotherThing();
   (void)DoYetAnotherThing();

   DoSomething(); // expected-warning {{ignoring return value}}
   DoSomethingElse();
   DoAnotherThing();
   DoYetAnotherThing();
 }

 template <typename T>
 class [[clang::warn_unused_result]] StatusOr {
 };
 StatusOr<int> doit();
 void test() {
   Foo f;
   f.doStuff(); // expected-warning {{ignoring return value}}
   doit(); // expected-warning {{ignoring return value}}

   auto func = []() { return Status(); };
   func(); // expected-warning {{ignoring return value}}
 }
 }

 namespace PR17587 {
 struct [[clang::warn_unused_result]] Status;

 struct Foo {
   Status Bar();
 };

 struct Status {};

 void Bar() {
   Foo f;
   f.Bar(); // expected-warning {{ignoring return value}}
 };

 }

 namespace PR18571 {
 // Unevaluated contexts should not trigger unused result warnings.
 template <typename T>
 auto foo(T) -> decltype(f(), bool()) { // Should not warn.
   return true;
 }

 void g() {
   foo(1);
 }
 }

 namespace std {
 class type_info { };
 }

 namespace {
 // The typeid expression operand is evaluated only when the expression type is
 // a glvalue of polymorphic class type.

 struct B {
   virtual void f() {}
 };

 struct D : B {
   void f() override {}
 };

 struct C {};

 void g() {
   // The typeid expression operand is evaluated only when the expression type is
   // a glvalue of polymorphic class type; otherwise the expression operand is not
   // evaluated and should not trigger a diagnostic.
   D d;
   C c;
   (void)typeid(f(), c); // Should not warn.
   (void)typeid(f(), d); // expected-warning {{ignoring return value}} expected-warning {{expression with side effects will be evaluated despite being used as an operand to 'typeid'}}

   // The sizeof expression operand is never evaluated.
   (void)sizeof(f(), c); // Should not warn.

    // The noexcept expression operand is never evaluated.
   (void)noexcept(f(), false); // Should not warn.
 }
 }

 namespace {
 // C++ Methods should warn even in their own class.
 struct [[clang::warn_unused_result]] S {
   S DoThing() { return {}; };
   S operator++(int) { return {}; };
   S operator--(int) { return {}; };
   // Improperly written prefix.
   S operator++() { return {}; };
   S operator--() { return {}; };
 };

 struct [[clang::warn_unused_result]] P {
   P DoThing() { return {}; };
 };

 P operator++(const P &, int) { return {}; };
 P operator--(const P &, int) { return {}; };
 // Improperly written prefix.
 P operator++(const P &) { return {}; };
 P operator--(const P &) { return {}; };

 void f() {
   S s;
   P p;
   s.DoThing(); // expected-warning {{ignoring return value}}
   p.DoThing(); // expected-warning {{ignoring return value}}
   // Only postfix is expected to warn when written correctly.
   s++; // expected-warning {{ignoring return value}}
   s--; // expected-warning {{ignoring return value}}
   p++; // expected-warning {{ignoring return value}}
   p--; // expected-warning {{ignoring return value}}
   // Improperly written prefix operators should still warn.
   ++s; // expected-warning {{ignoring return value}}
   --s; // expected-warning {{ignoring return value}}
   ++p; // expected-warning {{ignoring return value}}
   --p; // expected-warning {{ignoring return value}}

   // Silencing the warning by cast to void still works.
   (void)s.DoThing();
   (void)s++;
   (void)p++;
   (void)++s;
   (void)++p;
 }
 } // namespace
	// RUN: %clang_cc1 -fsyntax-only -verify -std=c++11 %s

	int f() __attribute__((warn_unused_result));

	struct S {
	void t() const;
	};
	S g1() __attribute__((warn_unused_result));
	S *g2() __attribute__((warn_unused_result));
	S &g3() __attribute__((warn_unused_result));

	void test() {
	f(); // expected-warning {{ignoring return value}}
	g1(); // expected-warning {{ignoring return value}}
	g2(); // expected-warning {{ignoring return value}}
	g3(); // expected-warning {{ignoring return value}}

	(void)f();
	(void)g1();
	(void)g2();
	(void)g3();

	if (f() == 0) return;

	g1().t();
	g2()->t();
	g3().t();

	int i = f();
	S s1 = g1();
	S *s2 = g2();
	S &s3 = g3();
	const S &s4 = g1();
	}

	struct X {
	int foo() __attribute__((warn_unused_result));
	};

	void bah() {
	X x, *x2;
	x.foo(); // expected-warning {{ignoring return value}}
	x2->foo(); // expected-warning {{ignoring return value}}
	}

	namespace warn_unused_CXX11 {
	class Status;
	class Foo {
	public:
	Status doStuff();
	};

	struct [[clang::warn_unused_result]] Status {
	bool ok() const;
	Status& operator=(const Status& x);
	inline void Update(const Status& new_status) {
	if (ok()) {
	*this = new_status; //no-warning
	}
	}
	};
	Status DoSomething();
	Status& DoSomethingElse();
	Status* DoAnotherThing();
	Status** DoYetAnotherThing();
	void lazy() {
	Status s = DoSomething();
	if (!s.ok()) return;
	Status &rs = DoSomethingElse();
	if (!rs.ok()) return;
	Status *ps = DoAnotherThing();
	if (!ps->ok()) return;
	Status **pps = DoYetAnotherThing();
	if (!(*pps)->ok()) return;

	(void)DoSomething();
	(void)DoSomethingElse();
	(void)DoAnotherThing();
	(void)DoYetAnotherThing();

	DoSomething(); // expected-warning {{ignoring return value}}
	DoSomethingElse();
	DoAnotherThing();
	DoYetAnotherThing();
	}

	template <typename T>
	class [[clang::warn_unused_result]] StatusOr {
	};
	StatusOr<int> doit();
	void test() {
	Foo f;
	f.doStuff(); // expected-warning {{ignoring return value}}
	doit(); // expected-warning {{ignoring return value}}

	auto func = []() { return Status(); };
	func(); // expected-warning {{ignoring return value}}
	}
	}

	namespace PR17587 {
	struct [[clang::warn_unused_result]] Status;

	struct Foo {
	Status Bar();
	};

	struct Status {};

	void Bar() {
	Foo f;
	f.Bar(); // expected-warning {{ignoring return value}}
	};

	}

	namespace PR18571 {
	// Unevaluated contexts should not trigger unused result warnings.
	template <typename T>
	auto foo(T) -> decltype(f(), bool()) { // Should not warn.
	return true;
	}

	void g() {
	foo(1);
	}
	}

	namespace std {
	class type_info { };
	}

	namespace {
	// The typeid expression operand is evaluated only when the expression type is
	// a glvalue of polymorphic class type.

	struct B {
	virtual void f() {}
	};

	struct D : B {
	void f() override {}
	};

	struct C {};

	void g() {
	// The typeid expression operand is evaluated only when the expression type is
	// a glvalue of polymorphic class type; otherwise the expression operand is not
	// evaluated and should not trigger a diagnostic.
	D d;
	C c;
	(void)typeid(f(), c); // Should not warn.
	(void)typeid(f(), d); // expected-warning {{ignoring return value}} expected-warning {{expression with side effects will be evaluated despite being used as an operand to 'typeid'}}

	// The sizeof expression operand is never evaluated.
	(void)sizeof(f(), c); // Should not warn.

	// The noexcept expression operand is never evaluated.
	(void)noexcept(f(), false); // Should not warn.
	}
	}

	namespace {
	// C++ Methods should warn even in their own class.
	struct [[clang::warn_unused_result]] S {
	S DoThing() { return {}; };
	S operator++(int) { return {}; };
	S operator--(int) { return {}; };
	// Improperly written prefix.
	S operator++() { return {}; };
	S operator--() { return {}; };
	};

	struct [[clang::warn_unused_result]] P {
	P DoThing() { return {}; };
	};

	P operator++(const P &, int) { return {}; };
	P operator--(const P &, int) { return {}; };
	// Improperly written prefix.
	P operator++(const P &) { return {}; };
	P operator--(const P &) { return {}; };

	void f() {
	S s;
	P p;
	s.DoThing(); // expected-warning {{ignoring return value}}
	p.DoThing(); // expected-warning {{ignoring return value}}
	// Only postfix is expected to warn when written correctly.
	s++; // expected-warning {{ignoring return value}}
	s--; // expected-warning {{ignoring return value}}
	p++; // expected-warning {{ignoring return value}}
	p--; // expected-warning {{ignoring return value}}
	// Improperly written prefix operators should still warn.
	++s; // expected-warning {{ignoring return value}}
	--s; // expected-warning {{ignoring return value}}
	++p; // expected-warning {{ignoring return value}}
	--p; // expected-warning {{ignoring return value}}

	// Silencing the warning by cast to void still works.
	(void)s.DoThing();
	(void)s++;
	(void)p++;
	(void)++s;
	(void)++p;
	}
	} // namespace