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// RUN: %clang_cc1 %s -triple i386-pc-win32 -std=c++14 -fsyntax-only -Wno-unused-getter-return-value -Wno-unused-value -Wmicrosoft -verify -fms-extensions -fms-compatibility -fdelayed-template-parsing
/* Microsoft attribute tests */
[repeatable][source_annotation_attribute( Parameter|ReturnValue )]
struct SA_Post{ SA_Post(); int attr; };
[returnvalue:SA_Post( attr=1)]
int foo1([SA_Post(attr=1)] void *param);
namespace {
[returnvalue:SA_Post(attr=1)]
int foo2([SA_Post(attr=1)] void *param);
}
class T {
[returnvalue:SA_Post(attr=1)]
int foo3([SA_Post(attr=1)] void *param);
};
extern "C" {
[returnvalue:SA_Post(attr=1)]
int foo5([SA_Post(attr=1)] void *param);
}
class class_attr {
public:
class_attr([SA_Pre(Null=SA_No,NullTerminated=SA_Yes)] int a)
{
}
};
void uuidof_test1()
{
__uuidof(0);
}
typedef struct _GUID
{
unsigned long Data1;
unsigned short Data2;
unsigned short Data3;
unsigned char Data4[8];
} GUID;
struct __declspec(uuid(L"00000000-0000-0000-1234-000000000047")) uuid_attr_bad1 { };// expected-error {{'uuid' attribute requires a string}}
struct __declspec(uuid(3)) uuid_attr_bad2 { };// expected-error {{'uuid' attribute requires a string}}
struct __declspec(uuid("0000000-0000-0000-1234-0000500000047")) uuid_attr_bad3 { };// expected-error {{uuid attribute contains a malformed GUID}}
struct __declspec(uuid("0000000-0000-0000-Z234-000000000047")) uuid_attr_bad4 { };// expected-error {{uuid attribute contains a malformed GUID}}
struct __declspec(uuid("000000000000-0000-1234-000000000047")) uuid_attr_bad5 { };// expected-error {{uuid attribute contains a malformed GUID}}
[uuid("000000000000-0000-1234-000000000047")] struct uuid_attr_bad6 { };// expected-error {{uuid attribute contains a malformed GUID}}
__declspec(uuid("000000A0-0000-0000-C000-000000000046")) int i; // expected-warning {{'uuid' attribute only applies to structs, unions, classes, and enums}}
struct __declspec(uuid("000000A0-0000-0000-C000-000000000046"))
struct_with_uuid { };
struct struct_without_uuid { };
struct __declspec(uuid("000000A0-0000-0000-C000-000000000049"))
struct_with_uuid2;
[uuid("000000A0-0000-0000-C000-000000000049")] struct struct_with_uuid3; // expected-warning{{specifying 'uuid' as an ATL attribute is deprecated; use __declspec instead}}
struct
struct_with_uuid2 {} ;
enum __declspec(uuid("000000A0-0000-0000-C000-000000000046"))
enum_with_uuid { };
enum enum_without_uuid { };
int __declspec(uuid("000000A0-0000-0000-C000-000000000046")) inappropriate_uuid; // expected-warning {{'uuid' attribute only applies to}}
int uuid_sema_test()
{
struct_with_uuid var_with_uuid[1];
struct_without_uuid var_without_uuid[1];
__uuidof(struct_with_uuid);
__uuidof(struct_with_uuid2);
__uuidof(struct_with_uuid3);
__uuidof(struct_without_uuid); // expected-error {{cannot call operator __uuidof on a type with no GUID}}
__uuidof(struct_with_uuid*);
__uuidof(struct_without_uuid*); // expected-error {{cannot call operator __uuidof on a type with no GUID}}
__uuidof(struct_with_uuid[1]);
__uuidof(struct_with_uuid*[1]); // expected-error {{cannot call operator __uuidof on a type with no GUID}}
__uuidof(const struct_with_uuid[1][1]);
__uuidof(const struct_with_uuid*[1][1]); // expected-error {{cannot call operator __uuidof on a type with no GUID}}
__uuidof(enum_with_uuid);
__uuidof(enum_without_uuid); // expected-error {{cannot call operator __uuidof on a type with no GUID}}
__uuidof(enum_with_uuid*);
__uuidof(enum_without_uuid*); // expected-error {{cannot call operator __uuidof on a type with no GUID}}
__uuidof(enum_with_uuid[1]);
__uuidof(enum_with_uuid*[1]); // expected-error {{cannot call operator __uuidof on a type with no GUID}}
__uuidof(const enum_with_uuid[1][1]);
__uuidof(const enum_with_uuid*[1][1]); // expected-error {{cannot call operator __uuidof on a type with no GUID}}
__uuidof(var_with_uuid);
__uuidof(var_without_uuid);// expected-error {{cannot call operator __uuidof on a type with no GUID}}
__uuidof(var_with_uuid[1]);
__uuidof(var_without_uuid[1]);// expected-error {{cannot call operator __uuidof on a type with no GUID}}
__uuidof(&var_with_uuid[1]);
__uuidof(&var_without_uuid[1]);// expected-error {{cannot call operator __uuidof on a type with no GUID}}
__uuidof(0);
__uuidof(1);// expected-error {{cannot call operator __uuidof on a type with no GUID}}
}
template <class T>
void template_uuid()
{
T expr;
__uuidof(T);
__uuidof(expr);
}
template <class T, const GUID* g = &__uuidof(T)> // expected-note {{template parameter is declared here}}
class COM_CLASS_TEMPLATE { };
typedef COM_CLASS_TEMPLATE<struct_with_uuid, &*&__uuidof(struct_with_uuid)> COM_TYPE_1; // expected-warning {{non-type template argument containing a dereference operation is a Microsoft extension}}
typedef COM_CLASS_TEMPLATE<struct_with_uuid> COM_TYPE_2;
template <class T, const GUID& g>
class COM_CLASS_TEMPLATE_REF { };
typedef COM_CLASS_TEMPLATE_REF<struct_with_uuid, __uuidof(struct_with_uuid)> COM_TYPE_REF;
struct late_defined_uuid;
template<typename T>
void test_late_defined_uuid() {
__uuidof(late_defined_uuid);
}
struct __declspec(uuid("000000A0-0000-0000-C000-000000000049")) late_defined_uuid;
COM_CLASS_TEMPLATE_REF<int, __uuidof(struct_with_uuid)> good_template_arg;
COM_CLASS_TEMPLATE<int, __uuidof(struct_with_uuid)> bad_template_arg; // expected-error {{non-type template argument for template parameter of pointer type 'const GUID *' (aka 'const _GUID *') must have its address taken}}
namespace PR16911 {
struct __declspec(uuid("{12345678-1234-1234-1234-1234567890aB}")) uuid;
struct __declspec(uuid("{12345678-1234-1234-1234-1234567890aB}")) uuid2;
template <typename T, typename T2>
struct thing {
};
struct empty {};
struct inher : public thing<empty, uuid2> {};
struct __declspec(uuid("{12345678-1234-1234-1234-1234567890aB}")) uuid;
const struct _GUID *w = &__uuidof(inher); // expected-error{{cannot call operator __uuidof on a type with no GUID}}
const struct _GUID *x = &__uuidof(thing<uuid, inher>);
const struct _GUID *y = &__uuidof(thing<uuid2, uuid>); // expected-error{{cannot call operator __uuidof on a type with multiple GUIDs}}
thing<uuid2, uuid> thing_obj = thing<uuid2, uuid>();
const struct _GUID *z = &__uuidof(thing_obj); // expected-error{{cannot call operator __uuidof on a type with multiple GUIDs}}
}
class CtorCall {
public:
CtorCall& operator=(const CtorCall& that);
int a;
};
CtorCall& CtorCall::operator=(const CtorCall& that)
{
if (this != &that) {
this->CtorCall::~CtorCall();
this->CtorCall::CtorCall(that); // expected-warning {{explicit constructor calls are a Microsoft extension}}
}
return *this;
}
template <class A>
class C1 {
public:
template <int B>
class Iterator {
};
};
template<class T>
class C2 {
typename C1<T>:: /*template*/ Iterator<0> Mypos; // expected-warning {{use 'template' keyword to treat 'Iterator' as a dependent template name}}
};
template <class T>
void missing_template_keyword(){
typename C1<T>:: /*template*/ Iterator<0> Mypos; // expected-warning {{use 'template' keyword to treat 'Iterator' as a dependent template name}}
}
class AAAA {
typedef int D;
};
template <typename T>
class SimpleTemplate {};
template <class T>
void redundant_typename() {
typename T t;// expected-warning {{expected a qualified name after 'typename'}}
typename AAAA a;// expected-warning {{expected a qualified name after 'typename'}}
t = 3;
typedef typename T* pointerT;// expected-warning {{expected a qualified name after 'typename'}}
typedef typename SimpleTemplate<int> templateT;// expected-warning {{expected a qualified name after 'typename'}}
pointerT pT = &t;
*pT = 4;
int var;
int k = typename var;// expected-error {{expected a qualified name after 'typename'}}
}
template <typename T>
struct TypenameWrongPlace {
typename typedef T::D D;// expected-warning {{expected a qualified name after 'typename'}}
};
extern TypenameWrongPlace<AAAA> PR16925;
__interface MicrosoftInterface;
__interface MicrosoftInterface {
void foo1() = 0; // expected-note {{overridden virtual function is here}}
virtual void foo2() = 0;
};
__interface MicrosoftDerivedInterface : public MicrosoftInterface {
void foo1(); // expected-warning {{'foo1' overrides a member function but is not marked 'override'}}
void foo2() override;
void foo3();
};
void interface_test() {
MicrosoftInterface* a;
a->foo1();
MicrosoftDerivedInterface* b;
b->foo2();
}
__int64 x7 = __int64(0);
_int64 x8 = _int64(0);
static_assert(sizeof(_int64) == 8, "");
static_assert(sizeof(_int32) == 4, "");
static_assert(sizeof(_int16) == 2, "");
static_assert(sizeof(_int8) == 1, "");
int __identifier(generic) = 3;
int __identifier(int) = 4;
struct __identifier(class) { __identifier(class) *__identifier(for); };
__identifier(class) __identifier(struct) = { &__identifier(struct) };
int __identifier for; // expected-error {{missing '(' after '__identifier'}}
int __identifier(else} = __identifier(for); // expected-error {{missing ')' after identifier}} expected-note {{to match this '('}}
#define identifier_weird(x) __identifier(x
int k = identifier_weird(if)); // expected-error {{use of undeclared identifier 'if'}}
extern int __identifier(and);
void f() {
__identifier(() // expected-error {{cannot convert '(' token to an identifier}}
__identifier(void) // expected-error {{use of undeclared identifier 'void'}}
__identifier()) // expected-error {{cannot convert ')' token to an identifier}}
// FIXME: We should pick a friendlier display name for this token kind.
__identifier(1) // expected-error {{cannot convert <numeric_constant> token to an identifier}}
__identifier(+) // expected-error {{cannot convert '+' token to an identifier}}
__identifier("foo") // expected-error {{cannot convert <string_literal> token to an identifier}}
__identifier(;) // expected-error {{cannot convert ';' token to an identifier}}
}
class inline_definition_pure_spec {
virtual int f() = 0 { return 0; }// expected-warning {{function definition with pure-specifier is a Microsoft extension}}
virtual int f2() = 0;
};
struct pure_virtual_dtor {
virtual ~pure_virtual_dtor() = 0;
};
pure_virtual_dtor::~pure_virtual_dtor() { }
struct pure_virtual_dtor_inline {
virtual ~pure_virtual_dtor_inline() = 0 { }// expected-warning {{function definition with pure-specifier is a Microsoft extension}}
};
template<typename T> struct pure_virtual_dtor_template {
virtual ~pure_virtual_dtor_template() = 0;
};
template<typename T> pure_virtual_dtor_template<T>::~pure_virtual_dtor_template() {}
template struct pure_virtual_dtor_template<int>;
template<typename T> struct pure_virtual_dtor_template_inline {
virtual ~pure_virtual_dtor_template_inline() = 0 {}
// expected-warning@-1 2{{function definition with pure-specifier is a Microsoft extension}}
};
template struct pure_virtual_dtor_template_inline<int>;
// expected-note@-1 {{in instantiation of member function}}
int main () {
// Necessary to force instantiation in -fdelayed-template-parsing mode.
test_late_defined_uuid<int>();
redundant_typename<int>();
missing_template_keyword<int>();
}
namespace access_protected_PTM {
class A {
protected:
void f(); // expected-note {{must name member using the type of the current context 'access_protected_PTM::B'}}
};
class B : public A{
public:
void test_access();
static void test_access_static();
};
void B::test_access() {
&A::f; // expected-error {{'f' is a protected member of 'access_protected_PTM::A'}}
}
void B::test_access_static() {
&A::f;
}
}
namespace Inheritance {
class __single_inheritance A;
class __multiple_inheritance B;
class __virtual_inheritance C;
}
struct StructWithProperty {
__declspec(property) int V0; // expected-error {{expected '(' after 'property'}}
__declspec(property()) int V1; // expected-error {{property does not specify a getter or a putter}}
__declspec(property(set)) int V2; // expected-error {{putter for property must be specified as 'put', not 'set'}} expected-error {{expected '=' after 'set'}}
__declspec(property(ptu)) int V3; // expected-error {{missing 'get=' or 'put='}}
__declspec(property(ptu=PutV)) int V4; // expected-error {{expected 'get' or 'put' in property declaration}}
__declspec(property(get)) int V5; // expected-error {{expected '=' after 'get'}}
__declspec(property(get&)) int V6; // expected-error {{expected '=' after 'get'}}
__declspec(property(get=)) int V7; // expected-error {{expected name of accessor method}}
__declspec(property(get=GetV)) int V8; // no-warning
__declspec(property(get=GetV=)) int V9; // expected-error {{expected ',' or ')' at end of property accessor list}}
__declspec(property(get=GetV,)) int V10; // expected-error {{expected 'get' or 'put' in property declaration}}
__declspec(property(get=GetV,put=SetV)) int V11; // no-warning
__declspec(property(get=GetV,put=SetV,get=GetV)) int V12; // expected-error {{property declaration specifies 'get' accessor twice}}
__declspec(property(get=GetV)) int V13 = 3; // expected-error {{property declaration cannot have a default member initializer}}
int GetV() { return 123; }
void SetV(int v) {}
};
void TestProperty() {
StructWithProperty sp;
sp.V8;
sp.V8 = 0; // expected-error {{no setter defined for property 'V8'}}
int i = sp.V11;
sp.V11 = i++;
sp.V11 += 8;
sp.V11++;
++sp.V11;
}
//expected-warning@+1 {{C++ operator 'and' (aka '&&') used as a macro name}}
#define and foo
struct __declspec(uuid("00000000-0000-0000-C000-000000000046")) __declspec(novtable) IUnknown {};
typedef bool (__stdcall __stdcall *blarg)(int);
void local_callconv() {
bool (__stdcall *p)(int);
}
struct S7 {
int foo() { return 12; }
__declspec(property(get=foo) deprecated) int t; // expected-note {{'t' has been explicitly marked deprecated here}}
};
// Technically, this is legal (though it does nothing)
__declspec() void quux( void ) {
struct S7 s;
int i = s.t; // expected-warning {{'t' is deprecated}}
}
void *_alloca(int);
void foo(void) {
__declspec(align(16)) int *buffer = (int *)_alloca(9);
}
template <int *>
struct NullptrArg {};
NullptrArg<nullptr> a;
// Ignored type qualifiers after comma in declarator lists
typedef int ignored_quals_dummy1, const volatile __ptr32 __ptr64 __w64 __unaligned __sptr __uptr ignored_quals1; // expected-warning {{qualifiers after comma in declarator list are ignored}}
typedef void(*ignored_quals_dummy2)(), __fastcall ignored_quals2; // expected-warning {{qualifiers after comma in declarator list are ignored}}
typedef void(*ignored_quals_dummy3)(), __stdcall ignored_quals3; // expected-warning {{qualifiers after comma in declarator list are ignored}}
typedef void(*ignored_quals_dummy4)(), __thiscall ignored_quals4; // expected-warning {{qualifiers after comma in declarator list are ignored}}
typedef void(*ignored_quals_dummy5)(), __cdecl ignored_quals5; // expected-warning {{qualifiers after comma in declarator list are ignored}}
typedef void(*ignored_quals_dummy6)(), __vectorcall ignored_quals6; // expected-warning {{qualifiers after comma in declarator list are ignored}}
namespace {
bool f(int);
template <typename T>
struct A {
constexpr A(T t) {
__assume(f(t)); // expected-warning{{the argument to '__assume' has side effects that will be discarded}}
}
constexpr bool g() { return false; }
};
constexpr A<int> h() {
A<int> b(0); // expected-note {{in instantiation of member function}}
return b;
}
static_assert(h().g() == false, "");
}
namespace {
__declspec(align(16)) struct align_before_key1 {};
__declspec(align(16)) struct align_before_key2 {} align_before_key2_var;
__declspec(align(16)) struct align_before_key3 {} *align_before_key3_var;
static_assert(__alignof(struct align_before_key1) == 16, "");
static_assert(__alignof(struct align_before_key2) == 16, "");
static_assert(__alignof(struct align_before_key3) == 16, "");
}
namespace PR24027 {
struct S {
template <typename T>
S(T);
} f([] {});
}
namespace pr36638 {
// Make sure we accept __unaligned method qualifiers on member function
// pointers.
struct A;
void (A::*mp1)(int) __unaligned;
}
namespace enum_class {
// MSVC allows opaque-enum-declaration syntax anywhere an
// elaborated-type-specifier can appear.
// FIXME: Most of these are missing warnings.
enum E0 *p0; // expected-warning {{Microsoft extension}}
enum class E1 : int *p1;
enum E2 : int *p2;
enum class E3 *p3;
auto f4() -> enum class E4 { return {}; }
auto f5() -> enum E5 : int { return {}; } // FIXME: MSVC rejects this and crashes if the body is {}.
auto f6() -> enum E6 { return {}; } // expected-warning {{Microsoft extension}}
// MSVC does not perform disambiguation for a colon that could introduce an
// enum-base or a bit-field.
enum E {};
struct S {
enum E : int(1); // expected-error {{anonymous bit-field}}
enum E : int : 1; // OK, bit-field
enum F : int a = {}; // OK, default member initializer
// MSVC produces a "C4353 constant 0 as function expression" for this,
// considering the final {} to be part of the bit-width. We follow P0683R1
// and treat it as a default member initializer.
enum E : int : int{}{}; // expected-error {{anonymous bit-field cannot have a default member initializer}}
};
}