llvm-project/clang/test/SemaCXX/MicrosoftExtensions.cpp
Richard Trieu c06b35c97e Allow operator delete to be an invalid Decl.
Do not discard invalid Decl when searching for the operator delete function.
The lookup for this function always expects to find a result, so sometimes the
invalid Decl is the only choice possible.  This fixes PR34109.

llvm-svn: 310435
2017-08-09 02:03:59 +00:00

539 lines
15 KiB
C++

// RUN: %clang_cc1 %s -triple i686-pc-win32 -fsyntax-only -Wmicrosoft -Wc++11-extensions -Wno-long-long -verify -fms-extensions -fexceptions -fcxx-exceptions -DTEST1
// RUN: %clang_cc1 -std=c++98 %s -triple i686-pc-win32 -fsyntax-only -Wmicrosoft -Wc++11-extensions -Wno-long-long -verify -fms-extensions -fexceptions -fcxx-exceptions -DTEST1
// RUN: %clang_cc1 -std=c++11 %s -triple i686-pc-win32 -fsyntax-only -Wmicrosoft -Wc++11-extensions -Wno-long-long -verify -fms-extensions -fexceptions -fcxx-exceptions -DTEST1
// RUN: %clang_cc1 %s -triple i686-pc-win32 -fsyntax-only -Wmicrosoft -Wc++11-extensions -Wno-long-long -verify -fexceptions -fcxx-exceptions -DTEST2
// RUN: %clang_cc1 %s -triple i686-pc-win32 -fsyntax-only -std=c++11 -fms-compatibility -verify -DTEST3
#if TEST1
// Microsoft doesn't validate exception specification.
namespace microsoft_exception_spec {
void foo(); // expected-note {{previous declaration}}
void foo() throw(); // expected-warning {{exception specification in declaration does not match previous declaration}}
void r6() throw(...); // expected-note {{previous declaration}}
void r6() throw(int); // expected-warning {{exception specification in declaration does not match previous declaration}}
struct Base {
virtual void f2();
virtual void f3() throw(...);
};
struct Derived : Base {
virtual void f2() throw(...);
virtual void f3();
};
class A {
virtual ~A() throw();
#if __cplusplus <= 199711L
// expected-note@-2 {{overridden virtual function is here}}
#endif
};
class B : public A {
virtual ~B();
#if __cplusplus <= 199711L
// expected-warning@-2 {{exception specification of overriding function is more lax than base version}}
#endif
};
}
// MSVC allows type definition in anonymous union and struct
struct A
{
union
{
int a;
struct B // expected-warning {{types declared in an anonymous union are a Microsoft extension}}
{
int c;
} d;
union C // expected-warning {{types declared in an anonymous union are a Microsoft extension}}
{
int e;
int ee;
} f;
typedef int D; // expected-warning {{types declared in an anonymous union are a Microsoft extension}}
struct F; // expected-warning {{types declared in an anonymous union are a Microsoft extension}}
};
struct
{
int a2;
struct B2 // expected-warning {{types declared in an anonymous struct are a Microsoft extension}}
{
int c2;
} d2;
union C2 // expected-warning {{types declared in an anonymous struct are a Microsoft extension}}
{
int e2;
int ee2;
} f2;
typedef int D2; // expected-warning {{types declared in an anonymous struct are a Microsoft extension}}
struct F2; // expected-warning {{types declared in an anonymous struct are a Microsoft extension}}
};
};
// __stdcall handling
struct M {
int __stdcall addP();
float __stdcall subtractP();
};
// __unaligned handling
typedef char __unaligned *aligned_type;
typedef struct UnalignedTag { int f; } __unaligned *aligned_type2;
typedef char __unaligned aligned_type3;
struct aligned_type4 {
int i;
};
__unaligned int aligned_type4::*p1_aligned_type4 = &aligned_type4::i;
int aligned_type4::* __unaligned p2_aligned_type4 = &aligned_type4::i;
__unaligned int aligned_type4::* __unaligned p3_aligned_type4 = &aligned_type4::i;
void (aligned_type4::*__unaligned p4_aligned_type4)();
// Check that __unaligned qualifier can be used for overloading
void foo_unaligned(int *arg) {}
void foo_unaligned(__unaligned int *arg) {}
void foo_unaligned(int arg) {} // expected-note {{previous definition is here}}
void foo_unaligned(__unaligned int arg) {} // expected-error {{redefinition of 'foo_unaligned'}}
class A_unaligned {};
class B_unaligned : public A_unaligned {};
int foo_unaligned(__unaligned A_unaligned *arg) { return 0; }
void *foo_unaligned(B_unaligned *arg) { return 0; }
void test_unaligned() {
int *p1 = 0;
foo_unaligned(p1);
__unaligned int *p2 = 0;
foo_unaligned(p2);
__unaligned B_unaligned *p3 = 0;
int p4 = foo_unaligned(p3);
B_unaligned *p5 = p3; // expected-error {{cannot initialize a variable of type 'B_unaligned *' with an lvalue of type '__unaligned B_unaligned *'}}
__unaligned B_unaligned *p6 = p3;
p1_aligned_type4 = p2_aligned_type4;
p2_aligned_type4 = p1_aligned_type4; // expected-error {{assigning to 'int aligned_type4::*' from incompatible type '__unaligned int aligned_type4::*'}}
p3_aligned_type4 = p1_aligned_type4;
__unaligned int a[10];
int *b = a; // expected-error {{cannot initialize a variable of type 'int *' with an lvalue of type '__unaligned int [10]'}}
}
// Test from PR27367
// We should accept assignment of an __unaligned pointer to a non-__unaligned
// pointer to void
typedef struct _ITEMIDLIST { int i; } ITEMIDLIST;
typedef ITEMIDLIST __unaligned *LPITEMIDLIST;
extern "C" __declspec(dllimport) void __stdcall CoTaskMemFree(void* pv);
__inline void FreeIDListArray(LPITEMIDLIST *ppidls) {
CoTaskMemFree(*ppidls);
__unaligned int *x = 0;
void *y = x;
}
// Test from PR27666
// We should accept type conversion of __unaligned to non-__unaligned references
typedef struct in_addr {
public:
in_addr(in_addr &a) {} // expected-note {{candidate constructor not viable: no known conversion from '__unaligned IN_ADDR *' (aka '__unaligned in_addr *') to 'in_addr &' for 1st argument; dereference the argument with *}}
in_addr(in_addr *a) {} // expected-note {{candidate constructor not viable: 1st argument ('__unaligned IN_ADDR *' (aka '__unaligned in_addr *')) would lose __unaligned qualifier}}
} IN_ADDR;
void f(IN_ADDR __unaligned *a) {
IN_ADDR local_addr = *a;
IN_ADDR local_addr2 = a; // expected-error {{no viable conversion from '__unaligned IN_ADDR *' (aka '__unaligned in_addr *') to 'IN_ADDR' (aka 'in_addr')}}
}
template<typename T> void h1(T (__stdcall M::* const )()) { }
void m1() {
h1<int>(&M::addP);
h1(&M::subtractP);
}
namespace signed_hex_i64 {
void f(long long); // expected-note {{candidate function}}
void f(int); // expected-note {{candidate function}}
void g() {
// This used to be controlled by -fms-extensions, but it is now under
// -fms-compatibility.
f(0xffffffffffffffffLL); // expected-error {{call to 'f' is ambiguous}}
f(0xffffffffffffffffi64);
}
}
// Enumeration types with a fixed underlying type.
const int seventeen = 17;
typedef int Int;
struct X0 {
enum E1 : Int { SomeOtherValue } field;
#if __cplusplus <= 199711L
// expected-warning@-2 {{enumeration types with a fixed underlying type are a C++11 extension}}
#endif
enum E1 : seventeen;
};
#if __cplusplus <= 199711L
// expected-warning@+2 {{enumeration types with a fixed underlying type are a C++11 extension}}
#endif
enum : long long {
SomeValue = 0x100000000
};
class AAA {
__declspec(dllimport) void f(void) { }
void f2(void); // expected-note{{previous declaration is here}}
};
__declspec(dllimport) void AAA::f2(void) { // expected-error{{dllimport cannot be applied to non-inline function definition}}
// expected-error@-1{{redeclaration of 'AAA::f2' cannot add 'dllimport' attribute}}
}
template <class T>
class BB {
public:
void f(int g = 10 ); // expected-note {{previous definition is here}}
};
template <class T>
void BB<T>::f(int g = 0) { } // expected-warning {{redefinition of default argument}}
extern void static_func();
void static_func(); // expected-note {{previous declaration is here}}
static void static_func() // expected-warning {{redeclaring non-static 'static_func' as static is a Microsoft extension}}
{
}
extern const int static_var; // expected-note {{previous declaration is here}}
static const int static_var = 3; // expected-warning {{redeclaring non-static 'static_var' as static is a Microsoft extension}}
void pointer_to_integral_type_conv(char* ptr) {
char ch = (char)ptr;
short sh = (short)ptr;
ch = (char)ptr;
sh = (short)ptr;
// These are valid C++.
bool b = (bool)ptr;
b = static_cast<bool>(ptr);
// This is bad.
b = reinterpret_cast<bool>(ptr); // expected-error {{cast from pointer to smaller type 'bool' loses information}}
}
struct PR11150 {
class X {
virtual void f() = 0;
};
int array[__is_abstract(X)? 1 : -1];
};
void f() { int __except = 0; }
void ::f(); // expected-warning{{extra qualification on member 'f'}}
class C {
C::C(); // expected-warning{{extra qualification on member 'C'}}
};
struct StructWithProperty {
__declspec(property(get=GetV)) int V1;
__declspec(property(put=SetV)) int V2;
__declspec(property(get=GetV, put=SetV_NotExist)) int V3;
__declspec(property(get=GetV_NotExist, put=SetV)) int V4;
__declspec(property(get=GetV, put=SetV)) int V5;
int GetV() { return 123; }
void SetV(int i) {}
};
void TestProperty() {
StructWithProperty sp;
int i = sp.V2; // expected-error{{no getter defined for property 'V2'}}
sp.V1 = 12; // expected-error{{no setter defined for property 'V1'}}
int j = sp.V4; // expected-error{{no member named 'GetV_NotExist' in 'StructWithProperty'}} expected-error{{cannot find suitable getter for property 'V4'}}
sp.V3 = 14; // expected-error{{no member named 'SetV_NotExist' in 'StructWithProperty'}} expected-error{{cannot find suitable setter for property 'V3'}}
int k = sp.V5;
sp.V5 = k++;
}
/* 4 tests for PseudoObject, begin */
struct SP1
{
bool operator()() { return true; }
};
struct SP2
{
__declspec(property(get=GetV)) SP1 V;
SP1 GetV() { return SP1(); }
};
void TestSP2() {
SP2 sp2;
bool b = sp2.V();
}
struct SP3 {
template <class T>
void f(T t) {}
};
template <class T>
struct SP4
{
__declspec(property(get=GetV)) int V;
int GetV() { return 123; }
void f() { SP3 s2; s2.f(V); }
};
void TestSP4() {
SP4<int> s;
s.f();
}
template <class T>
struct SP5
{
__declspec(property(get=GetV)) T V;
int GetV() { return 123; }
void f() { int *p = new int[V]; }
};
template <class T>
struct SP6
{
public:
__declspec(property(get=GetV)) T V;
T GetV() { return 123; }
void f() { int t = V; }
};
void TestSP6() {
SP6<int> c;
c.f();
}
/* 4 tests for PseudoObject, end */
// Property access: explicit, implicit, with Qualifier
struct SP7 {
__declspec(property(get=GetV, put=SetV)) int V;
int GetV() { return 123; }
void SetV(int v) {}
void ImplicitAccess() { int i = V; V = i; }
void ExplicitAccess() { int i = this->V; this->V = i; }
};
struct SP8: public SP7 {
void AccessWithQualifier() { int i = SP7::V; SP7::V = i; }
};
// Property usage
template <class T>
struct SP9 {
__declspec(property(get=GetV, put=SetV)) T V;
T GetV() { return 0; }
void SetV(T v) {}
bool f() { V = this->V; return V < this->V; }
void g() { V++; }
void h() { V*=2; }
};
struct SP10 {
SP10(int v) {}
bool operator<(const SP10& v) { return true; }
SP10 operator*(int v) { return *this; }
SP10 operator+(int v) { return *this; }
SP10& operator=(const SP10& v) { return *this; }
};
void TestSP9() {
SP9<int> c;
int i = c.V; // Decl initializer
i = c.V; // Binary op operand
c.SetV(c.V); // CallExpr arg
int *p = new int[c.V + 1]; // Array size
p[c.V] = 1; // Array index
c.V = 123; // Setter
c.V++; // Unary op operand
c.V *= 2; // Unary op operand
SP9<int*> c2;
c2.V[0] = 123; // Array
SP9<SP10> c3;
c3.f(); // Overloaded binary op operand
c3.g(); // Overloaded incdec op operand
c3.h(); // Overloaded unary op operand
}
union u {
int *i1;
int &i2; // expected-warning {{union member 'i2' has reference type 'int &', which is a Microsoft extension}}
};
// Property getter using reference.
struct SP11 {
__declspec(property(get=GetV)) int V;
int _v;
int& GetV() { return _v; }
void UseV();
void TakePtr(int *) {}
void TakeRef(int &) {}
void TakeVal(int) {}
};
void SP11::UseV() {
TakePtr(&V);
TakeRef(V);
TakeVal(V);
}
struct StructWithUnnamedMember {
__declspec(property(get=GetV)) int : 10; // expected-error {{anonymous property is not supported}}
};
struct MSPropertyClass {
int get() { return 42; }
int __declspec(property(get = get)) n;
};
int *f(MSPropertyClass &x) {
return &x.n; // expected-error {{address of property expression requested}}
}
int MSPropertyClass::*g() {
return &MSPropertyClass::n; // expected-error {{address of property expression requested}}
}
namespace rdar14250378 {
class Bar {};
namespace NyNamespace {
class Foo {
public:
Bar* EnsureBar();
};
class Baz : public Foo {
public:
friend class Bar;
};
Bar* Foo::EnsureBar() {
return 0;
}
}
}
// expected-error@+1 {{'sealed' keyword not permitted with interface types}}
__interface InterfaceWithSealed sealed {
};
struct SomeBase {
virtual void OverrideMe();
// expected-note@+2 {{overridden virtual function is here}}
// expected-warning@+1 {{'sealed' keyword is a Microsoft extension}}
virtual void SealedFunction() sealed; // expected-note {{overridden virtual function is here}}
};
// expected-note@+2 {{'SealedType' declared here}}
// expected-warning@+1 {{'sealed' keyword is a Microsoft extension}}
struct SealedType sealed : SomeBase {
// expected-error@+2 {{declaration of 'SealedFunction' overrides a 'sealed' function}}
// FIXME. warning can be suppressed if we're also issuing error for overriding a 'final' function.
virtual void SealedFunction(); // expected-warning {{'SealedFunction' overrides a member function but is not marked 'override'}}
#if __cplusplus <= 199711L
// expected-warning@+2 {{'override' keyword is a C++11 extension}}
#endif
virtual void OverrideMe() override;
};
// expected-error@+1 {{base 'SealedType' is marked 'sealed'}}
struct InheritFromSealed : SealedType {};
void AfterClassBody() {
// expected-warning@+1 {{attribute 'deprecated' is ignored, place it after "struct" to apply attribute to type declaration}}
struct D {} __declspec(deprecated);
struct __declspec(align(4)) S {} __declspec(align(8)) s1;
S s2;
_Static_assert(__alignof(S) == 4, "");
_Static_assert(__alignof(s1) == 8, "");
_Static_assert(__alignof(s2) == 4, "");
}
namespace PR24246 {
template <typename TX> struct A {
template <bool> struct largest_type_select;
// expected-warning@+1 {{explicit specialization of 'largest_type_select' within class scope is a Microsoft extension}}
template <> struct largest_type_select<false> {
blah x; // expected-error {{unknown type name 'blah'}}
};
};
}
namespace PR25265 {
struct S {
int fn() throw(); // expected-note {{previous declaration is here}}
};
int S::fn() { return 0; } // expected-warning {{is missing exception specification}}
}
class PR34109_class {
PR34109_class() {}
virtual ~PR34109_class() {}
};
void operator delete(void *) throw();
// expected-note@-1 {{previous declaration is here}}
__declspec(dllexport) void operator delete(void *) throw();
// expected-error@-1 {{redeclaration of 'operator delete' cannot add 'dllexport' attribute}}
void PR34109(int* a) {
delete a;
}
#elif TEST2
// Check that __unaligned is not recognized if MS extensions are not enabled
typedef char __unaligned *aligned_type; // expected-error {{expected ';' after top level declarator}}
#elif TEST3
namespace PR32750 {
template<typename T> struct A {};
template<typename T> struct B : A<A<T>> { A<T>::C::D d; }; // expected-error {{missing 'typename' prior to dependent type name 'A<T>::C::D'}}
}
#else
#error Unknown test mode
#endif