clang/test/SemaCXX/attr-musttail.cpp - llvm-project - Git at Google

 // RUN: %clang_cc1 -verify -fsyntax-only -fms-extensions -fcxx-exceptions -fopenmp -triple x86_64-linux %s

 int ReturnsInt1();
 int Func1() {
   [[clang::musttail]] ReturnsInt1();              // expected-error {{'musttail' attribute only applies to return statements}}
   [[clang::musttail(1, 2)]] return ReturnsInt1(); // expected-error {{'musttail' attribute takes no arguments}}
   [[clang::musttail]] return 5;                   // expected-error {{'musttail' attribute requires that the return value is the result of a function call}}
   [[clang::musttail]] return ReturnsInt1();
 }

 void NoFunctionCall() {
   [[clang::musttail]] return; // expected-error {{'musttail' attribute requires that the return value is the result of a function call}}
 }

 [[clang::musttail]] static int int_val = ReturnsInt1(); // expected-error {{'musttail' attribute cannot be applied to a declaration}}

 void NoParams(); // expected-note {{target function has different number of parameters (expected 1 but has 0)}}
 void TestParamArityMismatch(int x) {
   [[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
   return NoParams();  // expected-error {{cannot perform a tail call to function 'NoParams' because its signature is incompatible with the calling function}}
 }

 void LongParam(long x); // expected-note {{target function has type mismatch at 1st parameter (expected 'long' but has 'int')}}
 void TestParamTypeMismatch(int x) {
   [[clang::musttail]]  // expected-note {{tail call required by 'musttail' attribute here}}
   return LongParam(x); // expected-error {{cannot perform a tail call to function 'LongParam' because its signature is incompatible with the calling function}}
 }

 long ReturnsLong(); // expected-note {{target function has different return type ('int' expected but has 'long')}}
 int TestReturnTypeMismatch() {
   [[clang::musttail]]   // expected-note {{tail call required by 'musttail' attribute here}}
   return ReturnsLong(); // expected-error {{cannot perform a tail call to function 'ReturnsLong' because its signature is incompatible with the calling function}}
 }

 struct Struct1 {
   void MemberFunction(); // expected-note {{'MemberFunction' declared here}}
 };
 void TestNonMemberToMember() {
   Struct1 st;
   [[clang::musttail]]         // expected-note {{tail call required by 'musttail' attribute here}}
   return st.MemberFunction(); // expected-error {{non-member function cannot perform a tail call to non-static member function 'MemberFunction'}}
 }

 void ReturnsVoid(); // expected-note {{'ReturnsVoid' declared here}}
 struct Struct2 {
   void TestMemberToNonMember() {
     [[clang::musttail]]   // expected-note {{tail call required by 'musttail' attribute here}}
     return ReturnsVoid(); // expected-error{{non-static member function cannot perform a tail call to non-member function 'ReturnsVoid'}}
   }
 };

 class HasNonTrivialDestructor {
 public:
   ~HasNonTrivialDestructor() {}
   int ReturnsInt();
 };

 void ReturnsVoid2();
 void TestNonTrivialDestructorInScope() {
   HasNonTrivialDestructor foo;              // expected-note {{jump exits scope of variable with non-trivial destructor}}
   [[clang::musttail]] return ReturnsVoid(); // expected-error {{cannot perform a tail call from this return statement}}
 }

 int NonTrivialParam(HasNonTrivialDestructor x);
 int TestNonTrivialParam(HasNonTrivialDestructor x) {
   [[clang::musttail]] return NonTrivialParam(x); // expected-error {{tail call requires that the return value, all parameters, and any temporaries created by the expression are trivially destructible}}
 }

 HasNonTrivialDestructor ReturnsNonTrivialValue();
 HasNonTrivialDestructor TestReturnsNonTrivialValue() {
   // FIXME: the diagnostic cannot currently distinguish between needing to run a
   // destructor for the return value and needing to run a destructor for some
   // other temporary created in the return statement.
   [[clang::musttail]] return (ReturnsNonTrivialValue()); // expected-error {{tail call requires that the return value, all parameters, and any temporaries created by the expression are trivially destructible}}
 }

 HasNonTrivialDestructor TestReturnsNonTrivialNonFunctionCall() {
   [[clang::musttail]] return HasNonTrivialDestructor(); // expected-error {{'musttail' attribute requires that the return value is the result of a function call}}
 }

 struct UsesPointerToMember {
   void (UsesPointerToMember::*p_mem)(); // expected-note {{'p_mem' declared here}}
 };
 void TestUsesPointerToMember(UsesPointerToMember *foo) {
   // "this" pointer cannot double as first parameter.
   [[clang::musttail]]            // expected-note {{tail call required by 'musttail' attribute here}}
   return (foo->*(foo->p_mem))(); // expected-error {{non-member function cannot perform a tail call to pointer-to-member function 'p_mem'}}
 }

 void ReturnsVoid2();
 void TestNestedClass() {
   HasNonTrivialDestructor foo;
   class Nested {
     __attribute__((noinline)) static void NestedMethod() {
       // Outer non-trivial destructor does not affect nested class.
       [[clang::musttail]] return ReturnsVoid2();
     }
   };
 }

 template <class T>
 T TemplateFunc(T x) { // expected-note{{target function has different return type ('long' expected but has 'int')}}
   return x ? 5 : 10;
 }
 int OkTemplateFunc(int x) {
   [[clang::musttail]] return TemplateFunc<int>(x);
 }
 template <class T>
 T BadTemplateFunc(T x) {
   [[clang::musttail]]          // expected-note {{tail call required by 'musttail' attribute here}}
   return TemplateFunc<int>(x); // expected-error {{cannot perform a tail call to function 'TemplateFunc' because its signature is incompatible with the calling function}}
 }
 long TestBadTemplateFunc(long x) {
   return BadTemplateFunc<long>(x); // expected-note {{in instantiation of}}
 }

 void IntParam(int x);
 void TestVLA(int x) {
   HasNonTrivialDestructor vla[x];         // expected-note {{jump exits scope of variable with non-trivial destructor}}
   [[clang::musttail]] return IntParam(x); // expected-error {{cannot perform a tail call from this return statement}}
 }

 void TestNonTrivialDestructorSubArg(int x) {
   [[clang::musttail]] return IntParam(NonTrivialParam(HasNonTrivialDestructor())); // expected-error {{tail call requires that the return value, all parameters, and any temporaries created by the expression are trivially destructible}}
 }

 void VariadicFunction(int x, ...);
 void TestVariadicFunction(int x, ...) {
   [[clang::musttail]] return VariadicFunction(x); // expected-error {{'musttail' attribute may not be used with variadic functions}}
 }

 int TakesIntParam(int x);     // expected-note {{target function has type mismatch at 1st parameter (expected 'int' but has 'short')}}
 int TakesShortParam(short x); // expected-note {{target function has type mismatch at 1st parameter (expected 'short' but has 'int')}}
 int TestIntParamMismatch(int x) {
   [[clang::musttail]]        // expected-note {{tail call required by 'musttail' attribute here}}
   return TakesShortParam(x); // expected-error {{cannot perform a tail call to function 'TakesShortParam' because its signature is incompatible with the calling function}}
 }
 int TestIntParamMismatch2(short x) {
   [[clang::musttail]]      // expected-note {{tail call required by 'musttail' attribute here}}
   return TakesIntParam(x); // expected-error {{cannot perform a tail call to function 'TakesIntParam' because its signature is incompatible with the calling function}}
 }

 struct TestClassMismatch1 {
   void ToFunction(); // expected-note{{target function is a member of different class (expected 'TestClassMismatch2' but has 'TestClassMismatch1')}}
 };
 TestClassMismatch1 *tcm1;
 struct TestClassMismatch2 {
   void FromFunction() {
     [[clang::musttail]]        // expected-note {{tail call required by 'musttail' attribute here}}
     return tcm1->ToFunction(); // expected-error {{cannot perform a tail call to function 'ToFunction' because its signature is incompatible with the calling function}}
   }
 };

 __regcall int RegCallReturnsInt(); // expected-note {{target function has calling convention regcall (expected cdecl)}}
 int TestMismatchCallingConvention() {
   [[clang::musttail]]         // expected-note {{tail call required by 'musttail' attribute here}}
   return RegCallReturnsInt(); // expected-error {{cannot perform a tail call to function 'RegCallReturnsInt' because it uses an incompatible calling convention}}
 }

 int TestNonCapturingLambda() {
   auto lambda = []() { return 12; }; // expected-note {{'operator()' declared here}}
   [[clang::musttail]]                // expected-note {{tail call required by 'musttail' attribute here}}
   return lambda();                   // expected-error {{non-member function cannot perform a tail call to non-static member function 'operator()'}}

   // This works.
   auto lambda_fptr = static_cast<int (*)()>(lambda);
   [[clang::musttail]] return lambda_fptr();
   [[clang::musttail]] return (+lambda)();
 }

 int TestCapturingLambda() {
   int x;
   auto lambda = [x]() { return 12; }; // expected-note {{'operator()' declared here}}
   [[clang::musttail]]                 // expected-note {{tail call required by 'musttail' attribute here}}
   return lambda();                    // expected-error {{non-member function cannot perform a tail call to non-static member function 'operator()'}}
 }

 int TestNonTrivialTemporary(int) {
   [[clang::musttail]] return TakesIntParam(HasNonTrivialDestructor().ReturnsInt()); // expected-error {{tail call requires that the return value, all parameters, and any temporaries created by the expression are trivially destructible}}
 }

 void ReturnsVoid();
 struct TestDestructor {
   ~TestDestructor() {
     [[clang::musttail]]   // expected-note {{tail call required by 'musttail' attribute here}}
     return ReturnsVoid(); // expected-error {{destructor '~TestDestructor' must not return void expression}}  // expected-error {{cannot perform a tail call from a destructor}}
   }
 };

 struct ClassWithDestructor { // expected-note {{target destructor is declared here}}
   void TestExplicitDestructorCall() {
     [[clang::musttail]]                  // expected-note {{tail call required by 'musttail' attribute here}}
     return this->~ClassWithDestructor(); // expected-error {{cannot perform a tail call to a destructor}}
   }
 };

 struct HasNonTrivialCopyConstructor {
   HasNonTrivialCopyConstructor(const HasNonTrivialCopyConstructor &);
 };
 HasNonTrivialCopyConstructor ReturnsClassByValue();
 HasNonTrivialCopyConstructor TestNonElidableCopyConstructor() {
   // This is an elidable constructor, but when it is written explicitly
   // we decline to elide it.
   [[clang::musttail]] return HasNonTrivialCopyConstructor(ReturnsClassByValue()); // expected-error{{'musttail' attribute requires that the return value is the result of a function call}}
 }

 struct ClassWithConstructor {
   ClassWithConstructor() = default; // expected-note {{target constructor is declared here}}
 };
 void TestExplicitConstructorCall(ClassWithConstructor a) {
   [[clang::musttail]]                                    // expected-note {{tail call required by 'musttail' attribute here}}
   return a.ClassWithConstructor::ClassWithConstructor(); // expected-error{{cannot perform a tail call to a constructor}}  expected-warning{{explicit constructor calls are a Microsoft extension}}
 }

 void TestStatementExpression() {
   ({
     HasNonTrivialDestructor foo;               // expected-note {{jump exits scope of variable with non-trivial destructor}}
     [[clang::musttail]] return ReturnsVoid2(); // expected-error {{cannot perform a tail call from this return statement}}
   });
 }

 struct MyException {};
 void TestTryBlock() {
   try {                                        // expected-note {{jump exits try block}}
     [[clang::musttail]] return ReturnsVoid2(); // expected-error {{cannot perform a tail call from this return statement}}
   } catch (MyException &e) {
   }
 }

 using IntFunctionType = int();
 IntFunctionType *ReturnsIntFunction();
 long TestRValueFunctionPointer() {
   [[clang::musttail]]            // expected-note {{tail call required by 'musttail' attribute here}}
   return ReturnsIntFunction()(); // expected-error{{cannot perform a tail call to function because its signature is incompatible with the calling function}}  // expected-note{{target function has different return type ('long' expected but has 'int')}}
 }

 void TestPseudoDestructor() {
   int n;
   using T = int;
   [[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
   return n.~T();      // expected-error{{cannot perform a tail call to a destructor}}
 }

 struct StructPMF {
   typedef void (StructPMF::*PMF)();
   static void TestReturnsPMF();
 };

 StructPMF *St;
 StructPMF::PMF ReturnsPMF();
 void StructPMF::TestReturnsPMF() {
   [[clang::musttail]]           // expected-note{{tail call required by 'musttail' attribute here}}
   return (St->*ReturnsPMF())(); // expected-error{{static member function cannot perform a tail call to pointer-to-member function}}
 }

 // These tests are merely verifying that we don't crash with incomplete or
 // erroneous ASTs. These cases crashed the compiler in early iterations.

 struct TestBadPMF {
   int (TestBadPMF::*pmf)();
   void BadPMF() {
     [[clang::musttail]] return ((*this)->*pmf)(); // expected-error {{left hand operand to ->* must be a pointer to class compatible with the right hand operand, but is 'TestBadPMF'}}
   }
 };

 namespace ns {}
 void TestCallNonValue() {
   [[clang::musttail]] return ns; // expected-error {{unexpected namespace name 'ns': expected expression}}
 }
	// RUN: %clang_cc1 -verify -fsyntax-only -fms-extensions -fcxx-exceptions -fopenmp -triple x86_64-linux %s

	int ReturnsInt1();
	int Func1() {
	[[clang::musttail]] ReturnsInt1(); // expected-error {{'musttail' attribute only applies to return statements}}
	[[clang::musttail(1, 2)]] return ReturnsInt1(); // expected-error {{'musttail' attribute takes no arguments}}
	[[clang::musttail]] return 5; // expected-error {{'musttail' attribute requires that the return value is the result of a function call}}
	[[clang::musttail]] return ReturnsInt1();
	}

	void NoFunctionCall() {
	[[clang::musttail]] return; // expected-error {{'musttail' attribute requires that the return value is the result of a function call}}
	}

	[[clang::musttail]] static int int_val = ReturnsInt1(); // expected-error {{'musttail' attribute cannot be applied to a declaration}}

	void NoParams(); // expected-note {{target function has different number of parameters (expected 1 but has 0)}}
	void TestParamArityMismatch(int x) {
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return NoParams(); // expected-error {{cannot perform a tail call to function 'NoParams' because its signature is incompatible with the calling function}}
	}

	void LongParam(long x); // expected-note {{target function has type mismatch at 1st parameter (expected 'long' but has 'int')}}
	void TestParamTypeMismatch(int x) {
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return LongParam(x); // expected-error {{cannot perform a tail call to function 'LongParam' because its signature is incompatible with the calling function}}
	}

	long ReturnsLong(); // expected-note {{target function has different return type ('int' expected but has 'long')}}
	int TestReturnTypeMismatch() {
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return ReturnsLong(); // expected-error {{cannot perform a tail call to function 'ReturnsLong' because its signature is incompatible with the calling function}}
	}

	struct Struct1 {
	void MemberFunction(); // expected-note {{'MemberFunction' declared here}}
	};
	void TestNonMemberToMember() {
	Struct1 st;
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return st.MemberFunction(); // expected-error {{non-member function cannot perform a tail call to non-static member function 'MemberFunction'}}
	}

	void ReturnsVoid(); // expected-note {{'ReturnsVoid' declared here}}
	struct Struct2 {
	void TestMemberToNonMember() {
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return ReturnsVoid(); // expected-error{{non-static member function cannot perform a tail call to non-member function 'ReturnsVoid'}}
	}
	};

	class HasNonTrivialDestructor {
	public:
	~HasNonTrivialDestructor() {}
	int ReturnsInt();
	};

	void ReturnsVoid2();
	void TestNonTrivialDestructorInScope() {
	HasNonTrivialDestructor foo; // expected-note {{jump exits scope of variable with non-trivial destructor}}
	[[clang::musttail]] return ReturnsVoid(); // expected-error {{cannot perform a tail call from this return statement}}
	}

	int NonTrivialParam(HasNonTrivialDestructor x);
	int TestNonTrivialParam(HasNonTrivialDestructor x) {
	[[clang::musttail]] return NonTrivialParam(x); // expected-error {{tail call requires that the return value, all parameters, and any temporaries created by the expression are trivially destructible}}
	}

	HasNonTrivialDestructor ReturnsNonTrivialValue();
	HasNonTrivialDestructor TestReturnsNonTrivialValue() {
	// FIXME: the diagnostic cannot currently distinguish between needing to run a
	// destructor for the return value and needing to run a destructor for some
	// other temporary created in the return statement.
	[[clang::musttail]] return (ReturnsNonTrivialValue()); // expected-error {{tail call requires that the return value, all parameters, and any temporaries created by the expression are trivially destructible}}
	}

	HasNonTrivialDestructor TestReturnsNonTrivialNonFunctionCall() {
	[[clang::musttail]] return HasNonTrivialDestructor(); // expected-error {{'musttail' attribute requires that the return value is the result of a function call}}
	}

	struct UsesPointerToMember {
	void (UsesPointerToMember::*p_mem)(); // expected-note {{'p_mem' declared here}}
	};
	void TestUsesPointerToMember(UsesPointerToMember *foo) {
	// "this" pointer cannot double as first parameter.
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return (foo->*(foo->p_mem))(); // expected-error {{non-member function cannot perform a tail call to pointer-to-member function 'p_mem'}}
	}

	void ReturnsVoid2();
	void TestNestedClass() {
	HasNonTrivialDestructor foo;
	class Nested {
	__attribute__((noinline)) static void NestedMethod() {
	// Outer non-trivial destructor does not affect nested class.
	[[clang::musttail]] return ReturnsVoid2();
	}
	};
	}

	template <class T>
	T TemplateFunc(T x) { // expected-note{{target function has different return type ('long' expected but has 'int')}}
	return x ? 5 : 10;
	}
	int OkTemplateFunc(int x) {
	[[clang::musttail]] return TemplateFunc<int>(x);
	}
	template <class T>
	T BadTemplateFunc(T x) {
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return TemplateFunc<int>(x); // expected-error {{cannot perform a tail call to function 'TemplateFunc' because its signature is incompatible with the calling function}}
	}
	long TestBadTemplateFunc(long x) {
	return BadTemplateFunc<long>(x); // expected-note {{in instantiation of}}
	}

	void IntParam(int x);
	void TestVLA(int x) {
	HasNonTrivialDestructor vla[x]; // expected-note {{jump exits scope of variable with non-trivial destructor}}
	[[clang::musttail]] return IntParam(x); // expected-error {{cannot perform a tail call from this return statement}}
	}

	void TestNonTrivialDestructorSubArg(int x) {
	[[clang::musttail]] return IntParam(NonTrivialParam(HasNonTrivialDestructor())); // expected-error {{tail call requires that the return value, all parameters, and any temporaries created by the expression are trivially destructible}}
	}

	void VariadicFunction(int x, ...);
	void TestVariadicFunction(int x, ...) {
	[[clang::musttail]] return VariadicFunction(x); // expected-error {{'musttail' attribute may not be used with variadic functions}}
	}

	int TakesIntParam(int x); // expected-note {{target function has type mismatch at 1st parameter (expected 'int' but has 'short')}}
	int TakesShortParam(short x); // expected-note {{target function has type mismatch at 1st parameter (expected 'short' but has 'int')}}
	int TestIntParamMismatch(int x) {
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return TakesShortParam(x); // expected-error {{cannot perform a tail call to function 'TakesShortParam' because its signature is incompatible with the calling function}}
	}
	int TestIntParamMismatch2(short x) {
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return TakesIntParam(x); // expected-error {{cannot perform a tail call to function 'TakesIntParam' because its signature is incompatible with the calling function}}
	}

	struct TestClassMismatch1 {
	void ToFunction(); // expected-note{{target function is a member of different class (expected 'TestClassMismatch2' but has 'TestClassMismatch1')}}
	};
	TestClassMismatch1 *tcm1;
	struct TestClassMismatch2 {
	void FromFunction() {
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return tcm1->ToFunction(); // expected-error {{cannot perform a tail call to function 'ToFunction' because its signature is incompatible with the calling function}}
	}
	};

	__regcall int RegCallReturnsInt(); // expected-note {{target function has calling convention regcall (expected cdecl)}}
	int TestMismatchCallingConvention() {
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return RegCallReturnsInt(); // expected-error {{cannot perform a tail call to function 'RegCallReturnsInt' because it uses an incompatible calling convention}}
	}

	int TestNonCapturingLambda() {
	auto lambda = []() { return 12; }; // expected-note {{'operator()' declared here}}
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return lambda(); // expected-error {{non-member function cannot perform a tail call to non-static member function 'operator()'}}

	// This works.
	auto lambda_fptr = static_cast<int (*)()>(lambda);
	[[clang::musttail]] return lambda_fptr();
	[[clang::musttail]] return (+lambda)();
	}

	int TestCapturingLambda() {
	int x;
	auto lambda = [x]() { return 12; }; // expected-note {{'operator()' declared here}}
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return lambda(); // expected-error {{non-member function cannot perform a tail call to non-static member function 'operator()'}}
	}

	int TestNonTrivialTemporary(int) {
	[[clang::musttail]] return TakesIntParam(HasNonTrivialDestructor().ReturnsInt()); // expected-error {{tail call requires that the return value, all parameters, and any temporaries created by the expression are trivially destructible}}
	}

	void ReturnsVoid();
	struct TestDestructor {
	~TestDestructor() {
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return ReturnsVoid(); // expected-error {{destructor '~TestDestructor' must not return void expression}} // expected-error {{cannot perform a tail call from a destructor}}
	}
	};

	struct ClassWithDestructor { // expected-note {{target destructor is declared here}}
	void TestExplicitDestructorCall() {
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return this->~ClassWithDestructor(); // expected-error {{cannot perform a tail call to a destructor}}
	}
	};

	struct HasNonTrivialCopyConstructor {
	HasNonTrivialCopyConstructor(const HasNonTrivialCopyConstructor &);
	};
	HasNonTrivialCopyConstructor ReturnsClassByValue();
	HasNonTrivialCopyConstructor TestNonElidableCopyConstructor() {
	// This is an elidable constructor, but when it is written explicitly
	// we decline to elide it.
	[[clang::musttail]] return HasNonTrivialCopyConstructor(ReturnsClassByValue()); // expected-error{{'musttail' attribute requires that the return value is the result of a function call}}
	}

	struct ClassWithConstructor {
	ClassWithConstructor() = default; // expected-note {{target constructor is declared here}}
	};
	void TestExplicitConstructorCall(ClassWithConstructor a) {
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return a.ClassWithConstructor::ClassWithConstructor(); // expected-error{{cannot perform a tail call to a constructor}} expected-warning{{explicit constructor calls are a Microsoft extension}}
	}

	void TestStatementExpression() {
	({
	HasNonTrivialDestructor foo; // expected-note {{jump exits scope of variable with non-trivial destructor}}
	[[clang::musttail]] return ReturnsVoid2(); // expected-error {{cannot perform a tail call from this return statement}}
	});
	}

	struct MyException {};
	void TestTryBlock() {
	try { // expected-note {{jump exits try block}}
	[[clang::musttail]] return ReturnsVoid2(); // expected-error {{cannot perform a tail call from this return statement}}
	} catch (MyException &e) {
	}
	}

	using IntFunctionType = int();
	IntFunctionType *ReturnsIntFunction();
	long TestRValueFunctionPointer() {
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return ReturnsIntFunction()(); // expected-error{{cannot perform a tail call to function because its signature is incompatible with the calling function}} // expected-note{{target function has different return type ('long' expected but has 'int')}}
	}

	void TestPseudoDestructor() {
	int n;
	using T = int;
	[[clang::musttail]] // expected-note {{tail call required by 'musttail' attribute here}}
	return n.~T(); // expected-error{{cannot perform a tail call to a destructor}}
	}

	struct StructPMF {
	typedef void (StructPMF::*PMF)();
	static void TestReturnsPMF();
	};

	StructPMF *St;
	StructPMF::PMF ReturnsPMF();
	void StructPMF::TestReturnsPMF() {
	[[clang::musttail]] // expected-note{{tail call required by 'musttail' attribute here}}
	return (St->*ReturnsPMF())(); // expected-error{{static member function cannot perform a tail call to pointer-to-member function}}
	}

	// These tests are merely verifying that we don't crash with incomplete or
	// erroneous ASTs. These cases crashed the compiler in early iterations.

	struct TestBadPMF {
	int (TestBadPMF::*pmf)();
	void BadPMF() {
	[[clang::musttail]] return ((this)->pmf)(); // expected-error {{left hand operand to ->* must be a pointer to class compatible with the right hand operand, but is 'TestBadPMF'}}
	}
	};

	namespace ns {}
	void TestCallNonValue() {
	[[clang::musttail]] return ns; // expected-error {{unexpected namespace name 'ns': expected expression}}
	}