clang-tools-extra/test/clang-tidy/bugprone-parent-virtual-call.cpp - external/github.com/llvm/llvm-project - Git at Google

 // RUN: %check_clang_tidy %s bugprone-parent-virtual-call %t

 extern int foo();

 class A {
 public:
   A() = default;
   virtual ~A() = default;

   virtual int virt_1() { return foo() + 1; }
   virtual int virt_2() { return foo() + 2; }

   int non_virt() { return foo() + 3; }
   static int stat() { return foo() + 4; }
 };

 class B : public A {
 public:
   B() = default;

   // Nothing to fix: calls to direct parent.
   int virt_1() override { return A::virt_1() + 3; }
   int virt_2() override { return A::virt_2() + 4; }
 };

 class C : public B {
 public:
   int virt_1() override { return A::virt_1() + B::virt_1(); }
   // CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A::virt_1' refers to a member overridden in subclass; did you mean 'B'? [bugprone-parent-virtual-call]
   // CHECK-FIXES:  int virt_1() override { return B::virt_1() + B::virt_1(); }
   int virt_2() override { return A::virt_1() + B::virt_1(); }
   // CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A::virt_1' {{.*}}; did you mean 'B'? {{.*}}
   // CHECK-FIXES:  int virt_2() override { return B::virt_1() + B::virt_1(); }

   // Test that non-virtual and static methods are not affected by this cherker.
   int method_c() { return A::stat() + A::non_virt(); }
 };

 // Check aliased type names
 using A1 = A;
 typedef A A2;
 #define A3 A

 class C2 : public B {
 public:
   int virt_1() override { return A1::virt_1() + A2::virt_1() + A3::virt_1(); }
   // CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A1::virt_1' {{.*}}; did you mean 'B'? {{.*}}
   // CHECK-MESSAGES: :[[@LINE-2]]:49: warning: qualified name 'A2::virt_1' {{.*}}; did you mean 'B'? {{.*}}
   // CHECK-MESSAGES: :[[@LINE-3]]:64: warning: qualified name 'A3::virt_1' {{.*}}; did you mean 'B'? {{.*}}
   // CHECK-FIXES:  int virt_1() override { return B::virt_1() + B::virt_1() + B::virt_1(); }
 };

 // Test that the check affects grand-grand..-parent calls too.
 class D : public C {
 public:
   int virt_1() override { return A::virt_1() + B::virt_1() + D::virt_1(); }
   // CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A::virt_1' {{.*}}; did you mean 'C'? {{.*}}
   // CHECK-MESSAGES: :[[@LINE-2]]:48: warning: qualified name 'B::virt_1' {{.*}}; did you mean 'C'? {{.*}}
   // CHECK-FIXES:  int virt_1() override { return C::virt_1() + C::virt_1() + D::virt_1(); }
   int virt_2() override { return A::virt_1() + B::virt_1() + D::virt_1(); }
   // CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A::virt_1' {{.*}}; did you mean 'C'? {{.*}}
   // CHECK-MESSAGES: :[[@LINE-2]]:48: warning: qualified name 'B::virt_1' {{.*}}; did you mean 'C'? {{.*}}
   // CHECK-FIXES:  int virt_2() override { return C::virt_1() + C::virt_1() + D::virt_1(); }
 };

 // Test classes in namespaces.
 namespace {
 class BN : public A {
 public:
   int virt_1() override { return A::virt_1() + 3; }
   int virt_2() override { return A::virt_2() + 4; }
 };
 } // namespace

 namespace N1 {
 class A {
 public:
   A() = default;
   virtual int virt_1() { return foo() + 1; }
   virtual int virt_2() { return foo() + 2; }
 };
 } // namespace N1

 namespace N2 {
 class BN : public N1::A {
 public:
   int virt_1() override { return A::virt_1() + 3; }
   int virt_2() override { return A::virt_2() + 4; }
 };
 } // namespace N2

 class CN : public BN {
 public:
   int virt_1() override { return A::virt_1() + BN::virt_1(); }
   // CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A::virt_1' {{.*}}; did you mean 'BN'? {{.*}}
   // CHECK-FIXES:  int virt_1() override { return BN::virt_1() + BN::virt_1(); }
   int virt_2() override { return A::virt_1() + BN::virt_1(); }
   // CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A::virt_1' {{.*}}; did you mean 'BN'? {{.*}}
   // CHECK-FIXES:  int virt_2() override { return BN::virt_1() + BN::virt_1(); }
 };

 class CNN : public N2::BN {
 public:
   int virt_1() override { return N1::A::virt_1() + N2::BN::virt_1(); }
   // CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'N1::A::virt_1' {{.*}}; did you mean 'N2::BN'? {{.*}}
   // CHECK-FIXES:  int virt_1() override { return N2::BN::virt_1() + N2::BN::virt_1(); }
   int virt_2() override { return N1::A::virt_1() + N2::BN::virt_1(); }
   // CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'N1::A::virt_1' {{.*}}; did you mean 'N2::BN'? {{.*}}
   // CHECK-FIXES:  int virt_2() override { return N2::BN::virt_1() + N2::BN::virt_1(); }
 };

 // Test multiple inheritance fixes
 class AA {
 public:
   AA() = default;
   virtual ~AA() = default;

   virtual int virt_1() { return foo() + 1; }
   virtual int virt_2() { return foo() + 2; }

   int non_virt() { return foo() + 3; }
   static int stat() { return foo() + 4; }
 };

 class BB_1 : virtual public AA {
 public:
   BB_1() = default;

   // Nothing to fix: calls to parent.
   int virt_1() override { return AA::virt_1() + 3; }
   int virt_2() override { return AA::virt_2() + 4; }
 };

 class BB_2 : virtual public AA {
 public:
   BB_2() = default;
   int virt_1() override { return AA::virt_1() + 3; }
 };

 class CC : public BB_1, public BB_2 {
 public:
   int virt_1() override { return AA::virt_1() + 3; }
   // CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'AA::virt_1' refers to a member overridden in subclasses; did you mean 'BB_1' or 'BB_2'? {{.*}}
   // No fix available due to multiple choice of parent class.
 };

 // Test that virtual method is not diagnosed as not overridden in parent.
 class BI : public A {
 public:
   BI() = default;
 };

 class CI : BI {
   int virt_1() override { return A::virt_1(); }
 };

 // Test templated classes.
 template <class F> class BF : public A {
 public:
   int virt_1() override { return A::virt_1() + 3; }
 };

 // Test templated parent class.
 class CF : public BF<int> {
 public:
   int virt_1() override { return A::virt_1(); }
   // CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A::virt_1' {{.*}}; did you mean 'BF'? {{.*}}
 };

 // Test both templated class and its parent class.
 template <class F> class DF : public BF<F> {
 public:
   DF() = default;
   int virt_1() override { return A::virt_1(); }
   // CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A::virt_1' {{.*}}; did you mean 'BF'? {{.*}}
 };

 // Just to instantiate DF<F>.
 int bar() { return (new DF<int>())->virt_1(); }
	// RUN: %check_clang_tidy %s bugprone-parent-virtual-call %t

	extern int foo();

	class A {
	public:
	A() = default;
	virtual ~A() = default;

	virtual int virt_1() { return foo() + 1; }
	virtual int virt_2() { return foo() + 2; }

	int non_virt() { return foo() + 3; }
	static int stat() { return foo() + 4; }
	};

	class B : public A {
	public:
	B() = default;

	// Nothing to fix: calls to direct parent.
	int virt_1() override { return A::virt_1() + 3; }
	int virt_2() override { return A::virt_2() + 4; }
	};

	class C : public B {
	public:
	int virt_1() override { return A::virt_1() + B::virt_1(); }
	// CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A::virt_1' refers to a member overridden in subclass; did you mean 'B'? [bugprone-parent-virtual-call]
	// CHECK-FIXES: int virt_1() override { return B::virt_1() + B::virt_1(); }
	int virt_2() override { return A::virt_1() + B::virt_1(); }
	// CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A::virt_1' {{.}}; did you mean 'B'? {{.}}
	// CHECK-FIXES: int virt_2() override { return B::virt_1() + B::virt_1(); }

	// Test that non-virtual and static methods are not affected by this cherker.
	int method_c() { return A::stat() + A::non_virt(); }
	};

	// Check aliased type names
	using A1 = A;
	typedef A A2;
	#define A3 A

	class C2 : public B {
	public:
	int virt_1() override { return A1::virt_1() + A2::virt_1() + A3::virt_1(); }
	// CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A1::virt_1' {{.}}; did you mean 'B'? {{.}}
	// CHECK-MESSAGES: :[[@LINE-2]]:49: warning: qualified name 'A2::virt_1' {{.}}; did you mean 'B'? {{.}}
	// CHECK-MESSAGES: :[[@LINE-3]]:64: warning: qualified name 'A3::virt_1' {{.}}; did you mean 'B'? {{.}}
	// CHECK-FIXES: int virt_1() override { return B::virt_1() + B::virt_1() + B::virt_1(); }
	};

	// Test that the check affects grand-grand..-parent calls too.
	class D : public C {
	public:
	int virt_1() override { return A::virt_1() + B::virt_1() + D::virt_1(); }
	// CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A::virt_1' {{.}}; did you mean 'C'? {{.}}
	// CHECK-MESSAGES: :[[@LINE-2]]:48: warning: qualified name 'B::virt_1' {{.}}; did you mean 'C'? {{.}}
	// CHECK-FIXES: int virt_1() override { return C::virt_1() + C::virt_1() + D::virt_1(); }
	int virt_2() override { return A::virt_1() + B::virt_1() + D::virt_1(); }
	// CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A::virt_1' {{.}}; did you mean 'C'? {{.}}
	// CHECK-MESSAGES: :[[@LINE-2]]:48: warning: qualified name 'B::virt_1' {{.}}; did you mean 'C'? {{.}}
	// CHECK-FIXES: int virt_2() override { return C::virt_1() + C::virt_1() + D::virt_1(); }
	};

	// Test classes in namespaces.
	namespace {
	class BN : public A {
	public:
	int virt_1() override { return A::virt_1() + 3; }
	int virt_2() override { return A::virt_2() + 4; }
	};
	} // namespace

	namespace N1 {
	class A {
	public:
	A() = default;
	virtual int virt_1() { return foo() + 1; }
	virtual int virt_2() { return foo() + 2; }
	};
	} // namespace N1

	namespace N2 {
	class BN : public N1::A {
	public:
	int virt_1() override { return A::virt_1() + 3; }
	int virt_2() override { return A::virt_2() + 4; }
	};
	} // namespace N2

	class CN : public BN {
	public:
	int virt_1() override { return A::virt_1() + BN::virt_1(); }
	// CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A::virt_1' {{.}}; did you mean 'BN'? {{.}}
	// CHECK-FIXES: int virt_1() override { return BN::virt_1() + BN::virt_1(); }
	int virt_2() override { return A::virt_1() + BN::virt_1(); }
	// CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A::virt_1' {{.}}; did you mean 'BN'? {{.}}
	// CHECK-FIXES: int virt_2() override { return BN::virt_1() + BN::virt_1(); }
	};

	class CNN : public N2::BN {
	public:
	int virt_1() override { return N1::A::virt_1() + N2::BN::virt_1(); }
	// CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'N1::A::virt_1' {{.}}; did you mean 'N2::BN'? {{.}}
	// CHECK-FIXES: int virt_1() override { return N2::BN::virt_1() + N2::BN::virt_1(); }
	int virt_2() override { return N1::A::virt_1() + N2::BN::virt_1(); }
	// CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'N1::A::virt_1' {{.}}; did you mean 'N2::BN'? {{.}}
	// CHECK-FIXES: int virt_2() override { return N2::BN::virt_1() + N2::BN::virt_1(); }
	};

	// Test multiple inheritance fixes
	class AA {
	public:
	AA() = default;
	virtual ~AA() = default;

	virtual int virt_1() { return foo() + 1; }
	virtual int virt_2() { return foo() + 2; }

	int non_virt() { return foo() + 3; }
	static int stat() { return foo() + 4; }
	};

	class BB_1 : virtual public AA {
	public:
	BB_1() = default;

	// Nothing to fix: calls to parent.
	int virt_1() override { return AA::virt_1() + 3; }
	int virt_2() override { return AA::virt_2() + 4; }
	};

	class BB_2 : virtual public AA {
	public:
	BB_2() = default;
	int virt_1() override { return AA::virt_1() + 3; }
	};

	class CC : public BB_1, public BB_2 {
	public:
	int virt_1() override { return AA::virt_1() + 3; }
	// CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'AA::virt_1' refers to a member overridden in subclasses; did you mean 'BB_1' or 'BB_2'? {{.*}}
	// No fix available due to multiple choice of parent class.
	};

	// Test that virtual method is not diagnosed as not overridden in parent.
	class BI : public A {
	public:
	BI() = default;
	};

	class CI : BI {
	int virt_1() override { return A::virt_1(); }
	};

	// Test templated classes.
	template <class F> class BF : public A {
	public:
	int virt_1() override { return A::virt_1() + 3; }
	};

	// Test templated parent class.
	class CF : public BF<int> {
	public:
	int virt_1() override { return A::virt_1(); }
	// CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A::virt_1' {{.}}; did you mean 'BF'? {{.}}
	};

	// Test both templated class and its parent class.
	template <class F> class DF : public BF<F> {
	public:
	DF() = default;
	int virt_1() override { return A::virt_1(); }
	// CHECK-MESSAGES: :[[@LINE-1]]:34: warning: qualified name 'A::virt_1' {{.}}; did you mean 'BF'? {{.}}
	};

	// Just to instantiate DF<F>.
	int bar() { return (new DF<int>())->virt_1(); }