// RUN: %clang_cc1 -std=c++11 -fsyntax-only -Wno-nullability-declspec %s -verify -Wnullable-to-nonnull-conversion #if __has_feature(nullability) #else # error nullability feature should be defined #endif typedef decltype(nullptr) nullptr_t; class X { }; // Nullability applies to all pointer types. typedef int (X::* _Nonnull member_function_type_1)(int); typedef int X::* _Nonnull member_data_type_1; typedef nullptr_t _Nonnull nonnull_nullptr_t; // expected-error{{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'nullptr_t'}} // Nullability can move into member pointers (this is suppressing a warning). typedef _Nonnull int (X::* member_function_type_2)(int); typedef int (X::* _Nonnull member_function_type_3)(int); typedef _Nonnull int X::* member_data_type_2; // Adding non-null via a template. template struct AddNonNull { typedef _Nonnull T type; // expected-error{{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int'}} // expected-error@-1{{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'nullptr_t'}} }; typedef AddNonNull::type nonnull_int_ptr_1; typedef AddNonNull::type nonnull_int_ptr_2; // FIXME: check that it was overridden typedef AddNonNull::type nonnull_int_ptr_3; // expected-note{{in instantiation of template class}} typedef AddNonNull::type nonnull_non_pointer_1; // expected-note{{in instantiation of template class 'AddNonNull' requested here}} // Non-null checking within a template. template struct AddNonNull2 { typedef _Nonnull AddNonNull invalid1; // expected-error{{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'AddNonNull'}} typedef _Nonnull AddNonNull2 invalid2; // expected-error{{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'AddNonNull2'}} typedef _Nonnull AddNonNull2 invalid3; // expected-error{{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'AddNonNull2'}} typedef _Nonnull typename AddNonNull::type okay1; // Don't move past a dependent type even if we know that nullability // cannot apply to that specific dependent type. typedef _Nonnull AddNonNull (*invalid4); // expected-error{{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'AddNonNull'}} }; // Check passing null to a _Nonnull argument. void (*accepts_nonnull_1)(_Nonnull int *ptr); void (*& accepts_nonnull_2)(_Nonnull int *ptr) = accepts_nonnull_1; void (X::* accepts_nonnull_3)(_Nonnull int *ptr); void accepts_nonnull_4(_Nonnull int *ptr); void (&accepts_nonnull_5)(_Nonnull int *ptr) = accepts_nonnull_4; void test_accepts_nonnull_null_pointer_literal(X *x) { accepts_nonnull_1(0); // expected-warning{{null passed to a callee that requires a non-null argument}} accepts_nonnull_2(0); // expected-warning{{null passed to a callee that requires a non-null argument}} (x->*accepts_nonnull_3)(0); // expected-warning{{null passed to a callee that requires a non-null argument}} accepts_nonnull_4(0); // expected-warning{{null passed to a callee that requires a non-null argument}} accepts_nonnull_5(0); // expected-warning{{null passed to a callee that requires a non-null argument}} } template void test_accepts_nonnull_null_pointer_literal_template() { FP(0); // expected-warning{{null passed to a callee that requires a non-null argument}} } template void test_accepts_nonnull_null_pointer_literal_template<&accepts_nonnull_4>(); // expected-note{{instantiation of function template specialization}} void TakeNonnull(void *_Nonnull); // Check different forms of assignment to a nonull type from a nullable one. void AssignAndInitNonNull() { void *_Nullable nullable; void *_Nonnull p(nullable); // expected-warning{{implicit conversion from nullable pointer 'void * _Nullable' to non-nullable pointer type 'void * _Nonnull'}} void *_Nonnull p2{nullable}; // expected-warning{{implicit conversion from nullable pointer 'void * _Nullable' to non-nullable pointer type 'void * _Nonnull'}} void *_Nonnull p3 = {nullable}; // expected-warning{{implicit conversion from nullable pointer 'void * _Nullable' to non-nullable pointer type 'void * _Nonnull'}} void *_Nonnull p4 = nullable; // expected-warning{{implicit conversion from nullable pointer 'void * _Nullable' to non-nullable pointer type 'void * _Nonnull'}} void *_Nonnull nonnull; nonnull = nullable; // expected-warning{{implicit conversion from nullable pointer 'void * _Nullable' to non-nullable pointer type 'void * _Nonnull'}} nonnull = {nullable}; // expected-warning{{implicit conversion from nullable pointer 'void * _Nullable' to non-nullable pointer type 'void * _Nonnull'}} TakeNonnull(nullable); //expected-warning{{implicit conversion from nullable pointer 'void * _Nullable' to non-nullable pointer type 'void * _Nonnull}} TakeNonnull(nonnull); // OK } void *_Nullable ReturnNullable(); void AssignAndInitNonNullFromFn() { void *_Nonnull p(ReturnNullable()); // expected-warning{{implicit conversion from nullable pointer 'void * _Nullable' to non-nullable pointer type 'void * _Nonnull'}} void *_Nonnull p2{ReturnNullable()}; // expected-warning{{implicit conversion from nullable pointer 'void * _Nullable' to non-nullable pointer type 'void * _Nonnull'}} void *_Nonnull p3 = {ReturnNullable()}; // expected-warning{{implicit conversion from nullable pointer 'void * _Nullable' to non-nullable pointer type 'void * _Nonnull'}} void *_Nonnull p4 = ReturnNullable(); // expected-warning{{implicit conversion from nullable pointer 'void * _Nullable' to non-nullable pointer type 'void * _Nonnull'}} void *_Nonnull nonnull; nonnull = ReturnNullable(); // expected-warning{{implicit conversion from nullable pointer 'void * _Nullable' to non-nullable pointer type 'void * _Nonnull'}} nonnull = {ReturnNullable()}; // expected-warning{{implicit conversion from nullable pointer 'void * _Nullable' to non-nullable pointer type 'void * _Nonnull'}} TakeNonnull(ReturnNullable()); //expected-warning{{implicit conversion from nullable pointer 'void * _Nullable' to non-nullable pointer type 'void * _Nonnull}} }