// RUN: rm -rf %t // RUN: %clang_cc1 -fmodules -x objective-c++ -fmodule-cache-path %t -fmodule-name=module_private_left -emit-module %S/Inputs/module.map // RUN: %clang_cc1 -fmodules -x objective-c++ -fmodule-cache-path %t -fmodule-name=module_private_right -emit-module %S/Inputs/module.map // RUN: %clang_cc1 -fmodules -x objective-c++ -fmodule-cache-path %t %s -verify // FIXME: When we have a syntax for modules in C++, use that. @__experimental_modules_import module_private_left; @__experimental_modules_import module_private_right; void test() { int &ir = f0(1.0); // okay: f0() from 'right' is not visible } int test_broken() { HiddenStruct hidden; // \ // expected-error{{must use 'struct' tag to refer to type 'HiddenStruct' in this scope}} \ // expected-error{{definition of 'struct HiddenStruct' must be imported}} // expected-note@3 {{previous definition is here}} Integer i; // expected-error{{unknown type name 'Integer'}} int *ip = 0; f1(ip); // expected-error{{use of undeclared identifier 'f1'}} vector<int> vec; // expected-error{{use of undeclared identifier 'vector'}} \ // expected-error{{expected '(' for function-style cast or type construction}} \ // expected-error{{use of undeclared identifier 'vec'}} VisibleStruct vs; vs.field = 0; // expected-error{{no member named 'field' in 'VisibleStruct'}} vs.setField(1); // expected-error{{no member named 'setField' in 'VisibleStruct'}} return hidden_var; // expected-error{{use of undeclared identifier 'hidden_var'}} } // Check for private redeclarations of public entities. template<typename T> class public_class_template; template<typename T> __module_private__ class public_class_template; typedef int public_typedef; typedef __module_private__ int public_typedef; extern int public_var; extern __module_private__ int public_var; void public_func(); __module_private__ void public_func(); template<typename T> void public_func_template(); template<typename T> __module_private__ void public_func_template(); struct public_struct; __module_private__ struct public_struct; // Check for attempts to make specializations private template<> __module_private__ void public_func_template<int>(); // expected-error{{template specialization cannot be declared __module_private__}} template<typename T> struct public_class { struct inner_struct; static int static_var; friend __module_private__ void public_func_friend(); friend __module_private__ struct public_struct_friend; }; template<> __module_private__ struct public_class<int>::inner_struct { }; // expected-error{{member specialization cannot be declared __module_private__}} template<> __module_private__ int public_class<int>::static_var = 17; // expected-error{{member specialization cannot be declared __module_private__}} template<> __module_private__ struct public_class<float> { }; // expected-error{{template specialization cannot be declared __module_private__}} template<typename T> __module_private__ struct public_class<T *> { }; // expected-error{{partial specialization cannot be declared __module_private__}} // Check for attempts to make parameters and variables with automatic // storage module-private. void local_var_private(__module_private__ int param) { // expected-error{{parameter 'param' cannot be declared __module_private__}} __module_private__ struct Local { int x, y; } local; //expected-error{{local variable 'local' cannot be declared __module_private__}} __module_private__ struct OtherLocal { int x; }; // expected-error{{local struct cannot be declared __module_private__}} typedef __module_private__ int local_typedef; // expected-error{{typedef 'local_typedef' cannot be declared __module_private__}} } // Check struct size struct LikeVisibleStruct { int field; virtual void setField(int f); }; int check_struct_size[sizeof(VisibleStruct) == sizeof(LikeVisibleStruct)? 1 : -1];