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

 // RUN: %clang_cc1 -fsyntax-only -Wunused-private-field -Wused-but-marked-unused -Wno-uninitialized -verify -std=c++11 %s
 // RUN: %clang_cc1 -fsyntax-only -Wunused-private-field -Wused-but-marked-unused -Wno-uninitialized -verify -std=c++17 %s

 class NotFullyDefined {
  public:
   NotFullyDefined();
  private:
   int y;
 };

 class HasUndefinedNestedClass {
   class Undefined;
   int unused_;
 };

 class HasUndefinedPureVirtualDestructor {
   virtual ~HasUndefinedPureVirtualDestructor() = 0;
   int unused_;
 };

 class HasDefinedNestedClasses {
   class DefinedHere {};
   class DefinedOutside;
   int unused_; // expected-warning{{private field 'unused_' is not used}}
 };
 class HasDefinedNestedClasses::DefinedOutside {};

 class HasUndefinedFriendFunction {
   friend void undefinedFriendFunction();
   int unused_;
 };

 class HasUndefinedFriendClass {
   friend class NotFullyDefined;
   friend class NotDefined;
   int unused_;
 };

 class HasFriend {
   friend class FriendClass;
   friend void friendFunction(HasFriend f);
   int unused_; // expected-warning{{private field 'unused_' is not used}}
   int used_by_friend_class_;
   int used_by_friend_function_;
 };

 class ClassWithTemplateFriend {
   template <typename T> friend class TemplateFriend;
   int used_by_friend_;
   int unused_;
 };

 template <typename T> class TemplateFriend {
 public:
   TemplateFriend(ClassWithTemplateFriend my_friend) {
     int var = my_friend.used_by_friend_;
   }
 };

 class FriendClass {
   HasFriend my_friend_;
   void use() {
     my_friend_.used_by_friend_class_ = 42;
   }
 };

 void friendFunction(HasFriend my_friend) {
   my_friend.used_by_friend_function_ = 42;
 }

 class NonTrivialConstructor {
  public:
   NonTrivialConstructor() {}
 };

 class NonTrivialDestructor {
  public:
   ~NonTrivialDestructor() {}
 };

 class Trivial {
  public:
   Trivial() = default;
   Trivial(int a) {}
 };

 int side_effect() {
   return 42;
 }

 class A {
  public:
   A() : primitive_type_(42), default_initializer_(), other_initializer_(42),
         trivial_(), user_constructor_(42),
         initialized_with_side_effect_(side_effect()) {
     used_ = 42;
     attr_used_ = 42; // expected-warning{{'attr_used_' was marked unused but was used}}
   }

   A(int x, A* a) : pointer_(a) {}

  private:
   int primitive_type_; // expected-warning{{private field 'primitive_type_' is not used}}
   A* pointer_; // expected-warning{{private field 'pointer_' is not used}}
   int no_initializer_; // expected-warning{{private field 'no_initializer_' is not used}}
   int default_initializer_; // expected-warning{{private field 'default_initializer_' is not used}}
   int other_initializer_; // expected-warning{{private field 'other_initializer_' is not used}}
   int used_, unused_; // expected-warning{{private field 'unused_' is not used}}
   int in_class_initializer_ = 42; // expected-warning{{private field 'in_class_initializer_' is not used}}
   int in_class_initializer_with_side_effect_ = side_effect();
   Trivial trivial_initializer_ = Trivial(); // expected-warning{{private field 'trivial_initializer_' is not used}}
   Trivial non_trivial_initializer_ = Trivial(42);
   int initialized_with_side_effect_;
   static int static_fields_are_ignored_;

   Trivial trivial_; // expected-warning{{private field 'trivial_' is not used}}
   Trivial user_constructor_;
   NonTrivialConstructor non_trivial_constructor_;
   NonTrivialDestructor non_trivial_destructor_;

   int attr_ __attribute__((unused));
   int attr_used_ __attribute__((unused));
 };

 class EverythingUsed {
  public:
   EverythingUsed() : as_array_index_(0), var_(by_initializer_) {
     var_ = sizeof(sizeof_);
     int *use = &by_reference_;
     int test[2];
     test[as_array_index_] = 42;
     int EverythingUsed::*ptr = &EverythingUsed::by_pointer_to_member_;
   }

   template<class T>
   void useStuff(T t) {
     by_template_function_ = 42;
   }

  private:
   int var_;
   int sizeof_;
   int by_reference_;
   int by_template_function_;
   int as_array_index_;
   int by_initializer_;
   int by_pointer_to_member_;
 };

 class HasFeatureTest {
 #if __has_feature(attribute_unused_on_fields)
   int unused_; // expected-warning{{private field 'unused_' is not used}}
   int unused2_ __attribute__((unused)); // no-warning
 #endif
 };

 namespace templates {
 class B {
   template <typename T> void f(T t);
   int a;
 };
 }  // namespace templates

 namespace mutual_friends {
 // Undefined methods make mutual friends undefined.
 class A {
   int a;
   friend class B;
   void doSomethingToAOrB();
 };
 class B {
   int b;
   friend class A;
 };

 // Undefined friends do not make a mutual friend undefined.
 class C {
   int c;
   void doSomethingElse() {}
   friend class E;
   friend class D;
 };
 class D {
   int d; // expected-warning{{private field 'd' is not used}}
   friend class C;
 };

 // Undefined nested classes make mutual friends undefined.
 class F {
   int f;
   class G;
   friend class H;
 };
 class H {
   int h;
   friend class F;
 };
 }  // namespace mutual_friends

 namespace anonymous_structs_unions {
 class A {
  private:
   // FIXME: Look at the DeclContext for anonymous structs/unions.
   union {
     int *Aligner;
     unsigned char Data[8];
   };
 };
 union S {
  private:
   int *Aligner;
   unsigned char Data[8];
 };
 }  // namespace anonymous_structs_unions

 namespace pr13413 {
 class A {
   A() : p_(__null), b_(false), a_(this), p2_(nullptr) {}
   void* p_;  // expected-warning{{private field 'p_' is not used}}
   bool b_;  // expected-warning{{private field 'b_' is not used}}
   A* a_;  // expected-warning{{private field 'a_' is not used}}
   void* p2_;  // expected-warning{{private field 'p2_' is not used}}
 };
 }

 namespace pr13543 {
   void f(int);
   void f(char);
   struct S {
     S() : p(&f) {}
   private:
     void (*p)(int); // expected-warning{{private field 'p' is not used}}
   };

   struct A { int n; };
   struct B {
     B() : a(A()) {}
     B(char) {}
     B(int n) : a{n}, b{(f(n), 0)} {}
   private:
     A a = A(); // expected-warning{{private field 'a' is not used}}
     A b;
   };

   struct X { ~X(); };
   class C {
     X x[4]; // no-warning
   };
 }

 class implicit_special_member {
 public:
   static implicit_special_member make() { return implicit_special_member(); }

 private:
   int n; // expected-warning{{private field 'n' is not used}}
 };

 class defaulted_special_member {
 public:
   defaulted_special_member(const defaulted_special_member&) = default;

 private:
   int n; // expected-warning{{private field 'n' is not used}}
 };
	// RUN: %clang_cc1 -fsyntax-only -Wunused-private-field -Wused-but-marked-unused -Wno-uninitialized -verify -std=c++11 %s
	// RUN: %clang_cc1 -fsyntax-only -Wunused-private-field -Wused-but-marked-unused -Wno-uninitialized -verify -std=c++17 %s

	class NotFullyDefined {
	public:
	NotFullyDefined();
	private:
	int y;
	};

	class HasUndefinedNestedClass {
	class Undefined;
	int unused_;
	};

	class HasUndefinedPureVirtualDestructor {
	virtual ~HasUndefinedPureVirtualDestructor() = 0;
	int unused_;
	};

	class HasDefinedNestedClasses {
	class DefinedHere {};
	class DefinedOutside;
	int unused_; // expected-warning{{private field 'unused_' is not used}}
	};
	class HasDefinedNestedClasses::DefinedOutside {};

	class HasUndefinedFriendFunction {
	friend void undefinedFriendFunction();
	int unused_;
	};

	class HasUndefinedFriendClass {
	friend class NotFullyDefined;
	friend class NotDefined;
	int unused_;
	};

	class HasFriend {
	friend class FriendClass;
	friend void friendFunction(HasFriend f);
	int unused_; // expected-warning{{private field 'unused_' is not used}}
	int used_by_friend_class_;
	int used_by_friend_function_;
	};

	class ClassWithTemplateFriend {
	template <typename T> friend class TemplateFriend;
	int used_by_friend_;
	int unused_;
	};

	template <typename T> class TemplateFriend {
	public:
	TemplateFriend(ClassWithTemplateFriend my_friend) {
	int var = my_friend.used_by_friend_;
	}
	};

	class FriendClass {
	HasFriend my_friend_;
	void use() {
	my_friend_.used_by_friend_class_ = 42;
	}
	};

	void friendFunction(HasFriend my_friend) {
	my_friend.used_by_friend_function_ = 42;
	}

	class NonTrivialConstructor {
	public:
	NonTrivialConstructor() {}
	};

	class NonTrivialDestructor {
	public:
	~NonTrivialDestructor() {}
	};

	class Trivial {
	public:
	Trivial() = default;
	Trivial(int a) {}
	};

	int side_effect() {
	return 42;
	}

	class A {
	public:
	A() : primitive_type_(42), default_initializer_(), other_initializer_(42),
	trivial_(), user_constructor_(42),
	initialized_with_side_effect_(side_effect()) {
	used_ = 42;
	attr_used_ = 42; // expected-warning{{'attr_used_' was marked unused but was used}}
	}

	A(int x, A* a) : pointer_(a) {}

	private:
	int primitive_type_; // expected-warning{{private field 'primitive_type_' is not used}}
	A* pointer_; // expected-warning{{private field 'pointer_' is not used}}
	int no_initializer_; // expected-warning{{private field 'no_initializer_' is not used}}
	int default_initializer_; // expected-warning{{private field 'default_initializer_' is not used}}
	int other_initializer_; // expected-warning{{private field 'other_initializer_' is not used}}
	int used_, unused_; // expected-warning{{private field 'unused_' is not used}}
	int in_class_initializer_ = 42; // expected-warning{{private field 'in_class_initializer_' is not used}}
	int in_class_initializer_with_side_effect_ = side_effect();
	Trivial trivial_initializer_ = Trivial(); // expected-warning{{private field 'trivial_initializer_' is not used}}
	Trivial non_trivial_initializer_ = Trivial(42);
	int initialized_with_side_effect_;
	static int static_fields_are_ignored_;

	Trivial trivial_; // expected-warning{{private field 'trivial_' is not used}}
	Trivial user_constructor_;
	NonTrivialConstructor non_trivial_constructor_;
	NonTrivialDestructor non_trivial_destructor_;

	int attr_ __attribute__((unused));
	int attr_used_ __attribute__((unused));
	};

	class EverythingUsed {
	public:
	EverythingUsed() : as_array_index_(0), var_(by_initializer_) {
	var_ = sizeof(sizeof_);
	int *use = &by_reference_;
	int test[2];
	test[as_array_index_] = 42;
	int EverythingUsed::*ptr = &EverythingUsed::by_pointer_to_member_;
	}

	template<class T>
	void useStuff(T t) {
	by_template_function_ = 42;
	}

	private:
	int var_;
	int sizeof_;
	int by_reference_;
	int by_template_function_;
	int as_array_index_;
	int by_initializer_;
	int by_pointer_to_member_;
	};

	class HasFeatureTest {
	#if __has_feature(attribute_unused_on_fields)
	int unused_; // expected-warning{{private field 'unused_' is not used}}
	int unused2_ __attribute__((unused)); // no-warning
	#endif
	};

	namespace templates {
	class B {
	template <typename T> void f(T t);
	int a;
	};
	} // namespace templates

	namespace mutual_friends {
	// Undefined methods make mutual friends undefined.
	class A {
	int a;
	friend class B;
	void doSomethingToAOrB();
	};
	class B {
	int b;
	friend class A;
	};

	// Undefined friends do not make a mutual friend undefined.
	class C {
	int c;
	void doSomethingElse() {}
	friend class E;
	friend class D;
	};
	class D {
	int d; // expected-warning{{private field 'd' is not used}}
	friend class C;
	};

	// Undefined nested classes make mutual friends undefined.
	class F {
	int f;
	class G;
	friend class H;
	};
	class H {
	int h;
	friend class F;
	};
	} // namespace mutual_friends

	namespace anonymous_structs_unions {
	class A {
	private:
	// FIXME: Look at the DeclContext for anonymous structs/unions.
	union {
	int *Aligner;
	unsigned char Data[8];
	};
	};
	union S {
	private:
	int *Aligner;
	unsigned char Data[8];
	};
	} // namespace anonymous_structs_unions

	namespace pr13413 {
	class A {
	A() : p_(__null), b_(false), a_(this), p2_(nullptr) {}
	void* p_; // expected-warning{{private field 'p_' is not used}}
	bool b_; // expected-warning{{private field 'b_' is not used}}
	A* a_; // expected-warning{{private field 'a_' is not used}}
	void* p2_; // expected-warning{{private field 'p2_' is not used}}
	};
	}

	namespace pr13543 {
	void f(int);
	void f(char);
	struct S {
	S() : p(&f) {}
	private:
	void (*p)(int); // expected-warning{{private field 'p' is not used}}
	};

	struct A { int n; };
	struct B {
	B() : a(A()) {}
	B(char) {}
	B(int n) : a{n}, b{(f(n), 0)} {}
	private:
	A a = A(); // expected-warning{{private field 'a' is not used}}
	A b;
	};

	struct X { ~X(); };
	class C {
	X x[4]; // no-warning
	};
	}

	class implicit_special_member {
	public:
	static implicit_special_member make() { return implicit_special_member(); }

	private:
	int n; // expected-warning{{private field 'n' is not used}}
	};

	class defaulted_special_member {
	public:
	defaulted_special_member(const defaulted_special_member&) = default;

	private:
	int n; // expected-warning{{private field 'n' is not used}}
	};