test/SemaObjCXX/arc-0x.mm - llvm-project/clang - Git at Google

 // RUN: %clang_cc1 -std=c++11 -fsyntax-only -fobjc-arc -fobjc-runtime-has-weak -fobjc-weak -verify -fblocks -fobjc-exceptions %s

 // "Move" semantics, trivial version.
 void move_it(__strong id &&from) {
   id to = static_cast<__strong id&&>(from);
 }

 // Deduction with 'auto'.
 @interface A
 + alloc;
 - init;
 @end

 // <rdar://problem/12031870>: don't warn about this
 extern "C" A* MakeA();

 // Ensure that deduction works with lifetime qualifiers.
 void deduction(id obj) {
   auto a = [[A alloc] init];
   __strong A** aPtr = &a;

   auto a2([[A alloc] init]);
   __strong A** aPtr2 = &a2;

   __strong id *idp = new auto(obj);

   __strong id array[17];
   for (auto x : array) { // expected-warning{{'auto' deduced as 'id' in declaration of 'x'}}
     __strong id *xPtr = &x;
   }

   @try {
   } @catch (auto e) { // expected-error {{'auto' not allowed in exception declaration}}
   }
 }

 // rdar://problem/11068137
 void test1a() {
   __autoreleasing id p; // expected-note 2 {{'p' declared here}}
   (void) [&p] {};
   (void) [p] {}; // expected-error {{cannot capture __autoreleasing variable in a lambda by copy}}
   (void) [=] { (void) p; }; // expected-error {{cannot capture __autoreleasing variable in a lambda by copy}}
 }
 void test1b() {
   __autoreleasing id v;
   __autoreleasing id &p = v; // expected-note 2 {{'p' declared here}}
   (void) [&p] {};
   (void) [p] {}; // expected-error {{cannot capture __autoreleasing variable in a lambda by copy}}
   (void) [=] { (void) p; }; // expected-error {{cannot capture __autoreleasing variable in a lambda by copy}}
 }
 void test1c() {
   __autoreleasing id v; // expected-note {{'v' declared here}}
   __autoreleasing id &p = v;
   (void) ^{ (void) p; };
   (void) ^{ (void) v; }; // expected-error {{cannot capture __autoreleasing variable in a block}}
 }


 // <rdar://problem/11319689>
 // warn when initializing an 'auto' variable with an 'id' initializer expression

 void testAutoId(id obj) {
   auto x = obj; // expected-warning{{'auto' deduced as 'id' in declaration of 'x'}}
 }

 @interface Array
 + (instancetype)new;
 - (id)objectAtIndex:(int)index;
 @end

 // ...but don't warn if it's coming from a template parameter.
 template<typename T, int N>
 void autoTemplateFunction(T param, id obj, Array *arr) {
   auto x = param; // no-warning
   auto y = obj; // expected-warning{{'auto' deduced as 'id' in declaration of 'y'}}
   auto z = [arr objectAtIndex:N]; // expected-warning{{'auto' deduced as 'id' in declaration of 'z'}}
 }

 void testAutoIdTemplate(id obj) {
   autoTemplateFunction<id, 2>(obj, obj, [Array new]); // no-warning
 }

 // rdar://12229679
 @interface NSObject @end
 typedef __builtin_va_list va_list;
 @interface MyClass : NSObject
 @end

 @implementation MyClass
 + (void)fooMethod:(id)firstArg, ... {
     va_list args;

     __builtin_va_arg(args, id);
 }
 @end

 namespace rdar12078752 {
   void f() {
     NSObject* o =0;
     __autoreleasing decltype(o) o2 = o;
     __autoreleasing auto o3 = o;
   }
 }

 namespace test_err_arc_array_param_no_ownership {
   template <class T>
   void func(T a) {}

   void test() {
     func([](A *a[]){}); // expected-error{{must explicitly describe intended ownership of an object array parameter}}
     func(^(A *a[]){}); // expected-error{{must explicitly describe intended ownership of an object array parameter}}
   }
 }

 namespace test_union {
   // Implicitly-declared special functions of a union are deleted by default if
   // ARC is enabled and the union has an ObjC pointer field.
   union U0 {
     id f0; // expected-note 6 {{'U0' is implicitly deleted because variant field 'f0' is an ObjC pointer}}
   };

   union U1 {
     __weak id f0; // expected-note 12 {{'U1' is implicitly deleted because variant field 'f0' is an ObjC pointer}}
     U1() = default; // expected-warning {{explicitly defaulted default constructor is implicitly deleted}} expected-note {{explicitly defaulted function was implicitly deleted here}}
     ~U1() = default; // expected-warning {{explicitly defaulted destructor is implicitly deleted}} expected-note {{explicitly defaulted function was implicitly deleted here}}
     U1(const U1 &) = default; // expected-warning {{explicitly defaulted copy constructor is implicitly deleted}} expected-note 2 {{explicitly defaulted function was implicitly deleted here}}
     U1(U1 &&) = default; // expected-warning {{explicitly defaulted move constructor is implicitly deleted}}
     U1 & operator=(const U1 &) = default; // expected-warning {{explicitly defaulted copy assignment operator is implicitly deleted}} expected-note 2 {{explicitly defaulted function was implicitly deleted here}}
     U1 & operator=(U1 &&) = default; // expected-warning {{explicitly defaulted move assignment operator is implicitly deleted}}
   };

   id getStrong();

   // If the ObjC pointer field of a union has a default member initializer, the
   // implicitly-declared default constructor of the union is not deleted by
   // default.
   union U2 {
     id f0 = getStrong(); // expected-note 4 {{'U2' is implicitly deleted because variant field 'f0' is an ObjC pointer}}
     ~U2();
   };

   // It's fine if the user has explicitly defined the special functions.
   union U3 {
     id f0;
     U3();
     ~U3();
     U3(const U3 &);
     U3(U3 &&);
     U3 & operator=(const U3 &);
     U3 & operator=(U3 &&);
   };

   // ObjC pointer fields in anonymous union fields delete the defaulted special
   // functions of the containing class.
   struct S0 {
     union {
       id f0; // expected-note 6 {{'' is implicitly deleted because variant field 'f0' is an ObjC pointer}}
       char f1;
     };
   };

   struct S1 {
     union {
       union { // expected-note {{copy constructor of 'S1' is implicitly deleted because field '' has a deleted copy constructor}} expected-note {{copy assignment operator of 'S1' is implicitly deleted because field '' has a deleted copy assignment operator}} expected-note 4 {{'S1' is implicitly deleted because field '' has a deleted}}
         id f0; // expected-note 2 {{'' is implicitly deleted because variant field 'f0' is an ObjC pointer}}
         char f1;
       };
       int f2;
     };
   };

   struct S2 {
     union {
       // FIXME: the note should say 'f0' is causing the special functions to be deleted.
       struct { // expected-note 6 {{'S2' is implicitly deleted because variant field '' has a non-trivial}}
         id f0;
         int f1;
       };
       int f2;
     };
     int f3;
   };

   U0 *x0;
   U1 *x1;
   U2 *x2;
   U3 *x3;
   S0 *x4;
   S1 *x5;
   S2 *x6;

   static union { // expected-error {{call to implicitly-deleted default constructor of}}
     id g0; // expected-note {{default constructor of '' is implicitly deleted because variant field 'g0' is an ObjC pointer}}
   };

   static union { // expected-error {{call to implicitly-deleted default constructor of}}
     union { // expected-note {{default constructor of '' is implicitly deleted because field '' has a deleted default constructor}}
       union { // expected-note {{default constructor of '' is implicitly deleted because field '' has a deleted default constructor}}
         __weak id g1; // expected-note {{default constructor of '' is implicitly deleted because variant field 'g1' is an ObjC pointer}}
         int g2;
       };
       int g3;
     };
     int g4;
   };

   void testDefaultConstructor() {
     U0 t0; // expected-error {{call to implicitly-deleted default constructor}}
     U1 t1; // expected-error {{call to implicitly-deleted default constructor}}
     U2 t2;
     U3 t3;
     S0 t4; // expected-error {{call to implicitly-deleted default constructor}}
     S1 t5; // expected-error {{call to implicitly-deleted default constructor}}
     S2 t6; // expected-error {{call to implicitly-deleted default constructor}}
   }

   void testDestructor(U0 *u0, U1 *u1, U2 *u2, U3 *u3, S0 *s0, S1 *s1, S2 *s2) {
     delete u0; // expected-error {{attempt to use a deleted function}}
     delete u1; // expected-error {{attempt to use a deleted function}}
     delete u2;
     delete u3;
     delete s0; // expected-error {{attempt to use a deleted function}}
     delete s1; // expected-error {{attempt to use a deleted function}}
     delete s2; // expected-error {{attempt to use a deleted function}}
   }

   void testCopyConstructor(U0 *u0, U1 *u1, U2 *u2, U3 *u3, S0 *s0, S1 *s1, S2 *s2) {
     U0 t0(*u0); // expected-error {{call to implicitly-deleted copy constructor}}
     U1 t1(*u1); // expected-error {{call to implicitly-deleted copy constructor}}
     U2 t2(*u2); // expected-error {{call to implicitly-deleted copy constructor}}
     U3 t3(*u3);
     S0 t4(*s0); // expected-error {{call to implicitly-deleted copy constructor}}
     S1 t5(*s1); // expected-error {{call to implicitly-deleted copy constructor}}
     S2 t6(*s2); // expected-error {{call to implicitly-deleted copy constructor}}
   }

   void testCopyAssignment(U0 *u0, U1 *u1, U2 *u2, U3 *u3, S0 *s0, S1 *s1, S2 *s2) {
     *x0 = *u0; // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
     *x1 = *u1; // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
     *x2 = *u2; // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
     *x3 = *u3;
     *x4 = *s0; // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
     *x5 = *s1; // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
     *x6 = *s2; // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
   }

   // The diagnostics below refer to the deleted copy constructors and assignment
   // operators since defaulted move constructors and assignment operators that are
   // defined as deleted are ignored by overload resolution.

   void testMoveConstructor(U0 *u0, U1 *u1, U2 *u2, U3 *u3, S0 *s0, S1 *s1, S2 *s2) {
     U0 t0(static_cast<U0 &&>(*u0)); // expected-error {{call to implicitly-deleted copy constructor}}
     U1 t1(static_cast<U1 &&>(*u1)); // expected-error {{call to implicitly-deleted copy constructor}}
     U2 t2(static_cast<U2 &&>(*u2)); // expected-error {{call to implicitly-deleted copy constructor}}
     U3 t3(static_cast<U3 &&>(*u3));
     S0 t4(static_cast<S0 &&>(*s0)); // expected-error {{call to implicitly-deleted copy constructor}}
     S1 t5(static_cast<S1 &&>(*s1)); // expected-error {{call to implicitly-deleted copy constructor}}
     S2 t6(static_cast<S2 &&>(*s2)); // expected-error {{call to implicitly-deleted copy constructor}}
   }

   void testMoveAssignment(U0 *u0, U1 *u1, U2 *u2, U3 *u3, S0 *s0, S1 *s1, S2 *s2) {
     *x0 = static_cast<U0 &&>(*u0); // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
     *x1 = static_cast<U1 &&>(*u1); // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
     *x2 = static_cast<U2 &&>(*u2); // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
     *x3 = static_cast<U3 &&>(*u3);
     *x4 = static_cast<S0 &&>(*s0); // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
     *x5 = static_cast<S1 &&>(*s1); // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
     *x6 = static_cast<S2 &&>(*s2); // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
   }
 }
	// RUN: %clang_cc1 -std=c++11 -fsyntax-only -fobjc-arc -fobjc-runtime-has-weak -fobjc-weak -verify -fblocks -fobjc-exceptions %s

	// "Move" semantics, trivial version.
	void move_it(__strong id &&from) {
	id to = static_cast<__strong id&&>(from);
	}

	// Deduction with 'auto'.
	@interface A
	+ alloc;
	- init;
	@end

	// <rdar://problem/12031870>: don't warn about this
	extern "C" A* MakeA();

	// Ensure that deduction works with lifetime qualifiers.
	void deduction(id obj) {
	auto a = [[A alloc] init];
	__strong A** aPtr = &a;

	auto a2([[A alloc] init]);
	__strong A** aPtr2 = &a2;

	__strong id *idp = new auto(obj);

	__strong id array[17];
	for (auto x : array) { // expected-warning{{'auto' deduced as 'id' in declaration of 'x'}}
	__strong id *xPtr = &x;
	}

	@try {
	} @catch (auto e) { // expected-error {{'auto' not allowed in exception declaration}}
	}
	}

	// rdar://problem/11068137
	void test1a() {
	__autoreleasing id p; // expected-note 2 {{'p' declared here}}
	(void) [&p] {};
	(void) [p] {}; // expected-error {{cannot capture __autoreleasing variable in a lambda by copy}}
	(void) [=] { (void) p; }; // expected-error {{cannot capture __autoreleasing variable in a lambda by copy}}
	}
	void test1b() {
	__autoreleasing id v;
	__autoreleasing id &p = v; // expected-note 2 {{'p' declared here}}
	(void) [&p] {};
	(void) [p] {}; // expected-error {{cannot capture __autoreleasing variable in a lambda by copy}}
	(void) [=] { (void) p; }; // expected-error {{cannot capture __autoreleasing variable in a lambda by copy}}
	}
	void test1c() {
	__autoreleasing id v; // expected-note {{'v' declared here}}
	__autoreleasing id &p = v;
	(void) ^{ (void) p; };
	(void) ^{ (void) v; }; // expected-error {{cannot capture __autoreleasing variable in a block}}
	}


	// <rdar://problem/11319689>
	// warn when initializing an 'auto' variable with an 'id' initializer expression

	void testAutoId(id obj) {
	auto x = obj; // expected-warning{{'auto' deduced as 'id' in declaration of 'x'}}
	}

	@interface Array
	+ (instancetype)new;
	- (id)objectAtIndex:(int)index;
	@end

	// ...but don't warn if it's coming from a template parameter.
	template<typename T, int N>
	void autoTemplateFunction(T param, id obj, Array *arr) {
	auto x = param; // no-warning
	auto y = obj; // expected-warning{{'auto' deduced as 'id' in declaration of 'y'}}
	auto z = [arr objectAtIndex:N]; // expected-warning{{'auto' deduced as 'id' in declaration of 'z'}}
	}

	void testAutoIdTemplate(id obj) {
	autoTemplateFunction<id, 2>(obj, obj, [Array new]); // no-warning
	}

	// rdar://12229679
	@interface NSObject @end
	typedef __builtin_va_list va_list;
	@interface MyClass : NSObject
	@end

	@implementation MyClass
	+ (void)fooMethod:(id)firstArg, ... {
	va_list args;

	__builtin_va_arg(args, id);
	}
	@end

	namespace rdar12078752 {
	void f() {
	NSObject* o =0;
	__autoreleasing decltype(o) o2 = o;
	__autoreleasing auto o3 = o;
	}
	}

	namespace test_err_arc_array_param_no_ownership {
	template <class T>
	void func(T a) {}

	void test() {
	func([](A *a[]){}); // expected-error{{must explicitly describe intended ownership of an object array parameter}}
	func(^(A *a[]){}); // expected-error{{must explicitly describe intended ownership of an object array parameter}}
	}
	}

	namespace test_union {
	// Implicitly-declared special functions of a union are deleted by default if
	// ARC is enabled and the union has an ObjC pointer field.
	union U0 {
	id f0; // expected-note 6 {{'U0' is implicitly deleted because variant field 'f0' is an ObjC pointer}}
	};

	union U1 {
	__weak id f0; // expected-note 12 {{'U1' is implicitly deleted because variant field 'f0' is an ObjC pointer}}
	U1() = default; // expected-warning {{explicitly defaulted default constructor is implicitly deleted}} expected-note {{explicitly defaulted function was implicitly deleted here}}
	~U1() = default; // expected-warning {{explicitly defaulted destructor is implicitly deleted}} expected-note {{explicitly defaulted function was implicitly deleted here}}
	U1(const U1 &) = default; // expected-warning {{explicitly defaulted copy constructor is implicitly deleted}} expected-note 2 {{explicitly defaulted function was implicitly deleted here}}
	U1(U1 &&) = default; // expected-warning {{explicitly defaulted move constructor is implicitly deleted}}
	U1 & operator=(const U1 &) = default; // expected-warning {{explicitly defaulted copy assignment operator is implicitly deleted}} expected-note 2 {{explicitly defaulted function was implicitly deleted here}}
	U1 & operator=(U1 &&) = default; // expected-warning {{explicitly defaulted move assignment operator is implicitly deleted}}
	};

	id getStrong();

	// If the ObjC pointer field of a union has a default member initializer, the
	// implicitly-declared default constructor of the union is not deleted by
	// default.
	union U2 {
	id f0 = getStrong(); // expected-note 4 {{'U2' is implicitly deleted because variant field 'f0' is an ObjC pointer}}
	~U2();
	};

	// It's fine if the user has explicitly defined the special functions.
	union U3 {
	id f0;
	U3();
	~U3();
	U3(const U3 &);
	U3(U3 &&);
	U3 & operator=(const U3 &);
	U3 & operator=(U3 &&);
	};

	// ObjC pointer fields in anonymous union fields delete the defaulted special
	// functions of the containing class.
	struct S0 {
	union {
	id f0; // expected-note 6 {{'' is implicitly deleted because variant field 'f0' is an ObjC pointer}}
	char f1;
	};
	};

	struct S1 {
	union {
	union { // expected-note {{copy constructor of 'S1' is implicitly deleted because field '' has a deleted copy constructor}} expected-note {{copy assignment operator of 'S1' is implicitly deleted because field '' has a deleted copy assignment operator}} expected-note 4 {{'S1' is implicitly deleted because field '' has a deleted}}
	id f0; // expected-note 2 {{'' is implicitly deleted because variant field 'f0' is an ObjC pointer}}
	char f1;
	};
	int f2;
	};
	};

	struct S2 {
	union {
	// FIXME: the note should say 'f0' is causing the special functions to be deleted.
	struct { // expected-note 6 {{'S2' is implicitly deleted because variant field '' has a non-trivial}}
	id f0;
	int f1;
	};
	int f2;
	};
	int f3;
	};

	U0 *x0;
	U1 *x1;
	U2 *x2;
	U3 *x3;
	S0 *x4;
	S1 *x5;
	S2 *x6;

	static union { // expected-error {{call to implicitly-deleted default constructor of}}
	id g0; // expected-note {{default constructor of '' is implicitly deleted because variant field 'g0' is an ObjC pointer}}
	};

	static union { // expected-error {{call to implicitly-deleted default constructor of}}
	union { // expected-note {{default constructor of '' is implicitly deleted because field '' has a deleted default constructor}}
	union { // expected-note {{default constructor of '' is implicitly deleted because field '' has a deleted default constructor}}
	__weak id g1; // expected-note {{default constructor of '' is implicitly deleted because variant field 'g1' is an ObjC pointer}}
	int g2;
	};
	int g3;
	};
	int g4;
	};

	void testDefaultConstructor() {
	U0 t0; // expected-error {{call to implicitly-deleted default constructor}}
	U1 t1; // expected-error {{call to implicitly-deleted default constructor}}
	U2 t2;
	U3 t3;
	S0 t4; // expected-error {{call to implicitly-deleted default constructor}}
	S1 t5; // expected-error {{call to implicitly-deleted default constructor}}
	S2 t6; // expected-error {{call to implicitly-deleted default constructor}}
	}

	void testDestructor(U0 u0, U1 u1, U2 u2, U3 u3, S0 s0, S1 s1, S2 *s2) {
	delete u0; // expected-error {{attempt to use a deleted function}}
	delete u1; // expected-error {{attempt to use a deleted function}}
	delete u2;
	delete u3;
	delete s0; // expected-error {{attempt to use a deleted function}}
	delete s1; // expected-error {{attempt to use a deleted function}}
	delete s2; // expected-error {{attempt to use a deleted function}}
	}

	void testCopyConstructor(U0 u0, U1 u1, U2 u2, U3 u3, S0 s0, S1 s1, S2 *s2) {
	U0 t0(*u0); // expected-error {{call to implicitly-deleted copy constructor}}
	U1 t1(*u1); // expected-error {{call to implicitly-deleted copy constructor}}
	U2 t2(*u2); // expected-error {{call to implicitly-deleted copy constructor}}
	U3 t3(*u3);
	S0 t4(*s0); // expected-error {{call to implicitly-deleted copy constructor}}
	S1 t5(*s1); // expected-error {{call to implicitly-deleted copy constructor}}
	S2 t6(*s2); // expected-error {{call to implicitly-deleted copy constructor}}
	}

	void testCopyAssignment(U0 u0, U1 u1, U2 u2, U3 u3, S0 s0, S1 s1, S2 *s2) {
	x0 = u0; // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
	x1 = u1; // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
	x2 = u2; // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
	x3 = u3;
	x4 = s0; // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
	x5 = s1; // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
	x6 = s2; // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
	}

	// The diagnostics below refer to the deleted copy constructors and assignment
	// operators since defaulted move constructors and assignment operators that are
	// defined as deleted are ignored by overload resolution.

	void testMoveConstructor(U0 u0, U1 u1, U2 u2, U3 u3, S0 s0, S1 s1, S2 *s2) {
	U0 t0(static_cast<U0 &&>(*u0)); // expected-error {{call to implicitly-deleted copy constructor}}
	U1 t1(static_cast<U1 &&>(*u1)); // expected-error {{call to implicitly-deleted copy constructor}}
	U2 t2(static_cast<U2 &&>(*u2)); // expected-error {{call to implicitly-deleted copy constructor}}
	U3 t3(static_cast<U3 &&>(*u3));
	S0 t4(static_cast<S0 &&>(*s0)); // expected-error {{call to implicitly-deleted copy constructor}}
	S1 t5(static_cast<S1 &&>(*s1)); // expected-error {{call to implicitly-deleted copy constructor}}
	S2 t6(static_cast<S2 &&>(*s2)); // expected-error {{call to implicitly-deleted copy constructor}}
	}

	void testMoveAssignment(U0 u0, U1 u1, U2 u2, U3 u3, S0 s0, S1 s1, S2 *s2) {
	x0 = static_cast<U0 &&>(u0); // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
	x1 = static_cast<U1 &&>(u1); // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
	x2 = static_cast<U2 &&>(u2); // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
	x3 = static_cast<U3 &&>(u3);
	x4 = static_cast<S0 &&>(s0); // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
	x5 = static_cast<S1 &&>(s1); // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
	x6 = static_cast<S2 &&>(s2); // expected-error {{cannot be assigned because its copy assignment operator is implicitly deleted}}
	}
	}