llvm-project/clang/test/Parser/MicrosoftExtensions.cpp

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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); // expected-error {{you need to include <guiddef.h> before using the '__uuidof' operator}}
}
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 {} ;
__uuidof() and declspec(uuid("...")) should be allowed on enumeration types Although not specifically mentioned in the documentation, MSVC accepts __uuidof(…) and declspec(uuid("…")) attributes on enumeration types in addition to structs/classes. This is meaningful, as such types *do* have associated UUIDs in ActiveX typelibs, and such attributes are included by default in the wrappers generated by their #import construct, so they are not particularly unusual. clang currently rejects the declspec with a –Wignored-attributes warning, and errors on __uuidof() with “cannot call operator __uuidof on a type with no GUID” (because it rejected the uuid attribute, and therefore finds no value). This is causing problems for us while trying to use clang-tidy on a codebase that makes heavy use of ActiveX. I believe I have found the relevant places to add this functionality, this patch adds this case to clang’s implementation of these MS extensions. patch is against r285994 (or actually the git mirror 80464680ce). Both include an update to test/Parser/MicrosoftExtensions.cpp to exercise the new functionality. This is my first time contributing to LLVM, so if I’ve missed anything else needed to prepare this for review just let me know! __uuidof: https://msdn.microsoft.com/en-us/library/zaah6a61.aspx declspec(uuid("…")): https://msdn.microsoft.com/en-us/library/3b6wkewa.aspx #import: https://msdn.microsoft.com/en-us/library/8etzzkb6.aspx Reviewers: aaron.ballman, majnemer, rnk Differential Revision: https://reviews.llvm.org/D26846 llvm-svn: 289567
2016-12-14 02:58:09 +08:00
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}}
__uuidof() and declspec(uuid("...")) should be allowed on enumeration types Although not specifically mentioned in the documentation, MSVC accepts __uuidof(…) and declspec(uuid("…")) attributes on enumeration types in addition to structs/classes. This is meaningful, as such types *do* have associated UUIDs in ActiveX typelibs, and such attributes are included by default in the wrappers generated by their #import construct, so they are not particularly unusual. clang currently rejects the declspec with a –Wignored-attributes warning, and errors on __uuidof() with “cannot call operator __uuidof on a type with no GUID” (because it rejected the uuid attribute, and therefore finds no value). This is causing problems for us while trying to use clang-tidy on a codebase that makes heavy use of ActiveX. I believe I have found the relevant places to add this functionality, this patch adds this case to clang’s implementation of these MS extensions. patch is against r285994 (or actually the git mirror 80464680ce). Both include an update to test/Parser/MicrosoftExtensions.cpp to exercise the new functionality. This is my first time contributing to LLVM, so if I’ve missed anything else needed to prepare this for review just let me know! __uuidof: https://msdn.microsoft.com/en-us/library/zaah6a61.aspx declspec(uuid("…")): https://msdn.microsoft.com/en-us/library/3b6wkewa.aspx #import: https://msdn.microsoft.com/en-us/library/8etzzkb6.aspx Reviewers: aaron.ballman, majnemer, rnk Differential Revision: https://reviews.llvm.org/D26846 llvm-svn: 289567
2016-12-14 02:58:09 +08:00
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() and declspec(uuid("...")) should be allowed on enumeration types Although not specifically mentioned in the documentation, MSVC accepts __uuidof(…) and declspec(uuid("…")) attributes on enumeration types in addition to structs/classes. This is meaningful, as such types *do* have associated UUIDs in ActiveX typelibs, and such attributes are included by default in the wrappers generated by their #import construct, so they are not particularly unusual. clang currently rejects the declspec with a –Wignored-attributes warning, and errors on __uuidof() with “cannot call operator __uuidof on a type with no GUID” (because it rejected the uuid attribute, and therefore finds no value). This is causing problems for us while trying to use clang-tidy on a codebase that makes heavy use of ActiveX. I believe I have found the relevant places to add this functionality, this patch adds this case to clang’s implementation of these MS extensions. patch is against r285994 (or actually the git mirror 80464680ce). Both include an update to test/Parser/MicrosoftExtensions.cpp to exercise the new functionality. This is my first time contributing to LLVM, so if I’ve missed anything else needed to prepare this for review just let me know! __uuidof: https://msdn.microsoft.com/en-us/library/zaah6a61.aspx declspec(uuid("…")): https://msdn.microsoft.com/en-us/library/3b6wkewa.aspx #import: https://msdn.microsoft.com/en-us/library/8etzzkb6.aspx Reviewers: aaron.ballman, majnemer, rnk Differential Revision: https://reviews.llvm.org/D26846 llvm-svn: 289567
2016-12-14 02:58:09 +08:00
__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 of type 'const _GUID' is not a constant expression}}
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}}
};
int main () {
// Necessary to force instantiation in -fdelayed-template-parsing mode.
test_late_defined_uuid<int>();
redundant_typename<int>();
missing_template_keyword<int>();
}
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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'}}
};
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class B : public A{
public:
void test_access();
static void test_access_static();
};
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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 an in-class 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([] {});
}