// RUN: %clang_cc1 -std=c++11 -fsyntax-only -verify -Wno-objc-root-class %s struct X { void f() const; ~X(); }; @interface A { X x_; } - (const X&)x; - (void)setx:(const X&)other; @end @implementation A - (const X&)x { return x_; } - (void)setx:(const X&)other { x_ = other; } - (void)method { self.x.f(); } @end // rdar://problem/10444030 @interface Test2 - (void) setY: (int) y; - (int) z; @end void test2(Test2 *a) { auto y = a.y; // expected-error {{no getter method for read from property}} auto z = a.z; } // rdar://problem/10672108 @interface Test3 - (int) length; @end void test3(Test3 *t) { char vla[t.length] = {}; // expected-error {{variable-sized object may not be initialized}} char *heaparray = new char[t.length]; } // <rdar://problem/10672501> namespace std { template<typename T> void count(); } @interface Test4 - (X&) prop; @end void test4(Test4 *t) { (void)const_cast<const X&>(t.prop); (void)dynamic_cast<X&>(t.prop); (void)reinterpret_cast<int&>(t.prop); } @interface Test5 { @public int count; } @property int count; @end void test5(Test5* t5) { if (t5.count < 2) { } if (t5->count < 2) { } } @interface Test6 + (Class)class; - (Class)class; @end void test6(Test6 *t6) { Class x = t6.class; Class x2 = Test6.class; } template<typename T> void test6_template(T *t6) { Class x = t6.class; } template void test6_template(Test6*); // rdar://problem/10965735 struct Test7PointerMaker { operator char *() const; }; @interface Test7 - (char*) implicit_property; - (char) bad_implicit_property; - (Test7PointerMaker) implicit_struct_property; @property int *explicit_property; @property int bad_explicit_property; @property Test7PointerMaker explicit_struct_property; @end void test7(Test7 *ptr) { delete ptr.implicit_property; delete ptr.bad_implicit_property; // expected-error {{cannot delete expression of type 'char'}} delete ptr.explicit_property; delete ptr.bad_explicit_property; // expected-error {{cannot delete expression of type 'int'}} delete ptr.implicit_struct_property; delete ptr.explicit_struct_property; } // Make sure the returned value from property assignment is void, // because there isn't any other viable way to handle it for // non-trivial classes. class NonTrivial1 { public: ~NonTrivial1(); }; class NonTrivial2 { public: NonTrivial2(); NonTrivial2(const NonTrivial2&); }; @interface TestNonTrivial @property(assign, nonatomic) NonTrivial1 p1; @property(assign, nonatomic) NonTrivial2 p2; @end TestNonTrivial *TestNonTrivialObj; extern void* VoidType; extern decltype(TestNonTrivialObj.p1 = NonTrivial1())* VoidType; extern decltype(TestNonTrivialObj.p2 = NonTrivial2())* VoidType; // rdar://13332183 namespace test9 { struct CString { const char *_data; char operator[](int i) const { return _data[i]; } }; } @interface Test9 @property test9::CString name; @end namespace test9 { char test(Test9 *t) { return t.name[0]; } } namespace test10 { struct A { operator const char*(); }; struct B { operator const char*(); }; } @interface Test10 @property test10::A a; @property test10::B b; @property int index; @end namespace test10 { void test(Test10 *t) { (void) t.a[6]; (void) 6[t.b]; (void) "help"[t.index]; (void) t.index["help"]; (void) t.a[t.index]; (void) t.index[t.b]; } } // <rdar://problem/14354144> @interface PropertyOfItself @property (readonly, nonatomic) PropertyOfItself x; // expected-error {{interface type cannot be statically allocated}} @end @implementation PropertyOfItself @synthesize x; @end // rdar://14654207 struct CGSize { double width; double height; }; typedef struct CGSize CGSize; struct CGRect { CGSize origin; CGSize size; }; typedef struct CGRect CGRect; typedef CGRect NSRect; void HappySetFrame(NSRect frame) {} __attribute__((objc_root_class)) @interface NSObject @property CGRect frame; @end @implementation NSObject - (void) nothing { HappySetFrame({{0,0}, {13,14}}); [self setFrame: {{0,0}, {13,14}}]; self.frame = {{0,0}, {13,14}}; self.frame = (CGRect){{3,5}, {13,14}}; } @end