clang/test/Sema/MicrosoftExtensions.c - llvm-project - Git at Google

 // RUN: %clang_cc1 -triple i686-windows %s -fsyntax-only -Wno-unused-value -Wno-pointer-to-int-cast -Wmicrosoft -verify -fms-extensions

 struct A
 {
    int a[];  /* expected-warning {{flexible array member 'a' in otherwise empty struct is a Microsoft extension}} */
 };

 struct PR28407
 {
   int : 1;
   int a[]; /* expected-warning {{flexible array member 'a' in otherwise empty struct is a Microsoft extension}} */
 };

 struct C {
    int l;
    union {
        int c1[];   /* expected-warning {{flexible array member 'c1' in a union is a Microsoft extension}}  */
        char c2[];  /* expected-warning {{flexible array member 'c2' in a union is a Microsoft extension}} */
    };
 };


 struct D {
    int l;
    int D[];
 };

 struct __declspec(uuid("00000000-0000-0000-C000-000000000046")) IUnknown {}; /* expected-error {{'uuid' attribute is not supported in C}} */

 [uuid("00000000-0000-0000-C000-000000000046")] struct IUnknown2 {}; /* expected-error {{'uuid' attribute is not supported in C}} */

 typedef struct notnested {
   long bad1;
   long bad2;
 } NOTNESTED;


 typedef struct nested1 {
   long a;
   struct notnested var1;
   NOTNESTED var2;
 } NESTED1;

 struct nested2 {
   long b;
   NESTED1;  // expected-warning {{anonymous structs are a Microsoft extension}}
 };

 struct nested2 PR20573 = { .a = 3 };

 struct nested3 {
   long d;
   struct nested4 { // expected-warning {{anonymous structs are a Microsoft extension}}
     long e;
   };
   union nested5 { // expected-warning {{anonymous unions are a Microsoft extension}}
     long f;
   };
 };

 typedef union nested6 {
   long f;
 } NESTED6;

 struct test {
   int c;
   struct nested2;   // expected-warning {{anonymous structs are a Microsoft extension}}
   NESTED6;   // expected-warning {{anonymous unions are a Microsoft extension}}
 };

 void foo(void)
 {
   struct test var;
   var.a;
   var.b;
   var.c;
   var.bad1;   // expected-error {{no member named 'bad1' in 'struct test'}}
   var.bad2;   // expected-error {{no member named 'bad2' in 'struct test'}}
 }

 // Enumeration types with a fixed underlying type.
 const int seventeen = 17;
 typedef int Int;

 struct X0 {
   enum E1 : Int { SomeOtherValue } field;  // expected-warning{{enumeration types with a fixed underlying type are a Microsoft extension}}
   enum E1 : seventeen;
 };

 enum : long long {  // expected-warning{{enumeration types with a fixed underlying type are a Microsoft extension}}
   SomeValue = 0x100000000
 };

 void pointer_to_integral_type_conv(char* ptr) {
   char ch = (char)ptr;
   short sh = (short)ptr;
   ch = (char)ptr;
   sh = (short)ptr;

   // This is valid ISO C.
   _Bool b = (_Bool)ptr;
 }

 typedef struct {
   UNKNOWN u; // expected-error {{unknown type name 'UNKNOWN'}}
 } AA;

 typedef struct {
   AA; // expected-warning {{anonymous structs are a Microsoft extension}}
 } BB;

 struct anon_fault {
   struct undefined; // expected-warning {{anonymous structs are a Microsoft extension}}
                     // expected-error@-1 {{field has incomplete type 'struct undefined'}}
                     // expected-note@-2 {{forward declaration of 'struct undefined'}}
 };

 const int anon_falt_size = sizeof(struct anon_fault);

 __declspec(deprecated("This is deprecated")) enum DE1 { one, two } e1; // expected-note {{'e1' has been explicitly marked deprecated here}}
 struct __declspec(deprecated) DS1 { int i; float f; }; // expected-note {{'DS1' has been explicitly marked deprecated here}}

 #define MY_TEXT		"This is also deprecated"
 __declspec(deprecated(MY_TEXT)) void Dfunc1( void ) {} // expected-note {{'Dfunc1' has been explicitly marked deprecated here}}

 struct __declspec(deprecated(123)) DS2 {};	// expected-error {{expected string literal as argument of 'deprecated' attribute}}

 void test( void ) {
 	e1 = one;	// expected-warning {{'e1' is deprecated: This is deprecated}}
 	struct DS1 s = { 0 };	// expected-warning {{'DS1' is deprecated}}
 	Dfunc1();	// expected-warning {{'Dfunc1' is deprecated: This is also deprecated}}

 	enum DE1 no;	// no warning because E1 is not deprecated
 }

 int __sptr wrong1; // expected-error {{'__sptr' attribute only applies to pointer arguments}}
 // The modifier must follow the asterisk
 int __sptr *wrong_psp; // expected-error {{'__sptr' attribute only applies to pointer arguments}}
 int * __sptr __uptr wrong2; // expected-error {{'__sptr' and '__uptr' attributes are not compatible}}
 int * __sptr __sptr wrong3; // expected-warning {{attribute '__sptr' is already applied}}

 // It is illegal to overload based on the type attribute.
 void ptr_func(int * __ptr32 i) {}  // expected-note {{previous definition is here}}
 void ptr_func(int * __ptr64 i) {} // expected-error {{redefinition of 'ptr_func'}}

 // It is also illegal to overload based on the pointer type attribute.
 void ptr_func2(int * __sptr __ptr32 i) {}  // expected-note {{previous definition is here}}
 void ptr_func2(int * __uptr __ptr32 i) {} // expected-error {{redefinition of 'ptr_func2'}}

 // Check for warning when return types have the type attribute.
 void *__ptr32 ptr_func3(void) { return 0; } // expected-note {{previous definition is here}}
 void *__ptr64 ptr_func3(void) { return 0; } // expected-error {{redefinition of 'ptr_func3'}}

 // Test that __ptr32/__ptr64 can be passed as arguments with other address
 // spaces.
 void ptr_func4(int *i);
 void ptr_func5(int *__ptr32 i);
 void test_ptr_arguments(void) {
   int *__ptr64 i64;
   ptr_func4(i64);
   ptr_func5(i64);
 }

 int * __sptr __ptr32 __sptr wrong4; // expected-warning {{attribute '__sptr' is already applied}}

 __ptr32 int *wrong5; // expected-error {{'__ptr32' attribute only applies to pointer arguments}}

 int *wrong6 __ptr32;  // expected-error {{expected ';' after top level declarator}} expected-warning {{declaration does not declare anything}}

 int * __ptr32 __ptr64 wrong7;  // expected-error {{'__ptr32' and '__ptr64' attributes are not compatible}}

 int * __ptr32 __ptr32 wrong8;	// expected-warning {{attribute '__ptr32' is already applied}}

 int *(__ptr32 __sptr wrong9); // expected-error {{'__sptr' attribute only applies to pointer arguments}} // expected-error {{'__ptr32' attribute only applies to pointer arguments}}

 int *(__ptr32 wrong10); // expected-error {{'__ptr32' attribute only applies to pointer arguments}}

 int *(__ptr64 wrong11); // expected-error {{'__ptr64' attribute only applies to pointer arguments}}

 int *(__ptr32 __ptr64 wrong12); // expected-error {{'__ptr32' attribute only applies to pointer arguments}} // expected-error {{'__ptr64' attribute only applies to pointer arguments}}

 typedef int *T;
 T __ptr32 ok1;
 T __ptr64 ok2;
 T __ptr32 __ptr64 wrong13; // expected-error {{'__ptr32' and '__ptr64' attributes are not compatible}}

 typedef int *__ptr32 T1;
 T1 ok3;
 T1 __ptr32 wrong14;  // expected-warning {{attribute '__ptr32' is already applied}}
 T1 __ptr64 wrong15;  // expected-error {{'__ptr32' and '__ptr64' attributes are not compatible}}

 typedef int *__ptr64 T2;
 T2 ok4;
 T2 __ptr64 wrong16;  // expected-warning {{attribute '__ptr64' is already applied}}
 T2 __ptr32 wrong17;  // expected-error {{'__ptr32' and '__ptr64' attributes are not compatible}}

 typedef int *__ptr32 __ptr64 wrong18; // expected-error {{'__ptr32' and '__ptr64' attributes are not compatible}}

 typedef char *my_va_list;
 void __va_start(my_va_list *ap, ...); // expected-note {{passing argument to parameter 'ap' here}}
 void vmyprintf(const char *f, my_va_list ap);
 void myprintf(const char *f, ...) {
   my_va_list ap;
   if (1) {
     __va_start(&ap, f);
     vmyprintf(f, ap);
     ap = 0;
   } else {
     __va_start(ap, f); // expected-warning {{incompatible pointer types passing 'my_va_list'}}
   }
 }

 // __unaligned handling
 void test_unaligned(void) {
   __unaligned int *p1 = 0;
   int *p2 = p1; // expected-warning {{initializing 'int *' with an expression of type '__unaligned int *' discards qualifiers}}
   __unaligned int *p3 = p2;
 }

 void test_unaligned2(int x[__unaligned 4]) {}
	// RUN: %clang_cc1 -triple i686-windows %s -fsyntax-only -Wno-unused-value -Wno-pointer-to-int-cast -Wmicrosoft -verify -fms-extensions

	struct A
	{
	int a[]; /* expected-warning {{flexible array member 'a' in otherwise empty struct is a Microsoft extension}} */
	};

	struct PR28407
	{
	int : 1;
	int a[]; /* expected-warning {{flexible array member 'a' in otherwise empty struct is a Microsoft extension}} */
	};

	struct C {
	int l;
	union {
	int c1[]; /* expected-warning {{flexible array member 'c1' in a union is a Microsoft extension}} */
	char c2[]; /* expected-warning {{flexible array member 'c2' in a union is a Microsoft extension}} */
	};
	};


	struct D {
	int l;
	int D[];
	};

	struct __declspec(uuid("00000000-0000-0000-C000-000000000046")) IUnknown {}; /* expected-error {{'uuid' attribute is not supported in C}} */

	[uuid("00000000-0000-0000-C000-000000000046")] struct IUnknown2 {}; /* expected-error {{'uuid' attribute is not supported in C}} */

	typedef struct notnested {
	long bad1;
	long bad2;
	} NOTNESTED;


	typedef struct nested1 {
	long a;
	struct notnested var1;
	NOTNESTED var2;
	} NESTED1;

	struct nested2 {
	long b;
	NESTED1; // expected-warning {{anonymous structs are a Microsoft extension}}
	};

	struct nested2 PR20573 = { .a = 3 };

	struct nested3 {
	long d;
	struct nested4 { // expected-warning {{anonymous structs are a Microsoft extension}}
	long e;
	};
	union nested5 { // expected-warning {{anonymous unions are a Microsoft extension}}
	long f;
	};
	};

	typedef union nested6 {
	long f;
	} NESTED6;

	struct test {
	int c;
	struct nested2; // expected-warning {{anonymous structs are a Microsoft extension}}
	NESTED6; // expected-warning {{anonymous unions are a Microsoft extension}}
	};

	void foo(void)
	{
	struct test var;
	var.a;
	var.b;
	var.c;
	var.bad1; // expected-error {{no member named 'bad1' in 'struct test'}}
	var.bad2; // expected-error {{no member named 'bad2' in 'struct test'}}
	}

	// Enumeration types with a fixed underlying type.
	const int seventeen = 17;
	typedef int Int;

	struct X0 {
	enum E1 : Int { SomeOtherValue } field; // expected-warning{{enumeration types with a fixed underlying type are a Microsoft extension}}
	enum E1 : seventeen;
	};

	enum : long long { // expected-warning{{enumeration types with a fixed underlying type are a Microsoft extension}}
	SomeValue = 0x100000000
	};

	void pointer_to_integral_type_conv(char* ptr) {
	char ch = (char)ptr;
	short sh = (short)ptr;
	ch = (char)ptr;
	sh = (short)ptr;

	// This is valid ISO C.
	_Bool b = (_Bool)ptr;
	}

	typedef struct {
	UNKNOWN u; // expected-error {{unknown type name 'UNKNOWN'}}
	} AA;

	typedef struct {
	AA; // expected-warning {{anonymous structs are a Microsoft extension}}
	} BB;

	struct anon_fault {
	struct undefined; // expected-warning {{anonymous structs are a Microsoft extension}}
	// expected-error@-1 {{field has incomplete type 'struct undefined'}}
	// expected-note@-2 {{forward declaration of 'struct undefined'}}
	};

	const int anon_falt_size = sizeof(struct anon_fault);

	__declspec(deprecated("This is deprecated")) enum DE1 { one, two } e1; // expected-note {{'e1' has been explicitly marked deprecated here}}
	struct __declspec(deprecated) DS1 { int i; float f; }; // expected-note {{'DS1' has been explicitly marked deprecated here}}

	#define MY_TEXT "This is also deprecated"
	__declspec(deprecated(MY_TEXT)) void Dfunc1( void ) {} // expected-note {{'Dfunc1' has been explicitly marked deprecated here}}

	struct __declspec(deprecated(123)) DS2 {}; // expected-error {{expected string literal as argument of 'deprecated' attribute}}

	void test( void ) {
	e1 = one; // expected-warning {{'e1' is deprecated: This is deprecated}}
	struct DS1 s = { 0 }; // expected-warning {{'DS1' is deprecated}}
	Dfunc1(); // expected-warning {{'Dfunc1' is deprecated: This is also deprecated}}

	enum DE1 no; // no warning because E1 is not deprecated
	}

	int __sptr wrong1; // expected-error {{'__sptr' attribute only applies to pointer arguments}}
	// The modifier must follow the asterisk
	int __sptr *wrong_psp; // expected-error {{'__sptr' attribute only applies to pointer arguments}}
	int * __sptr __uptr wrong2; // expected-error {{'__sptr' and '__uptr' attributes are not compatible}}
	int * __sptr __sptr wrong3; // expected-warning {{attribute '__sptr' is already applied}}

	// It is illegal to overload based on the type attribute.
	void ptr_func(int * __ptr32 i) {} // expected-note {{previous definition is here}}
	void ptr_func(int * __ptr64 i) {} // expected-error {{redefinition of 'ptr_func'}}

	// It is also illegal to overload based on the pointer type attribute.
	void ptr_func2(int * __sptr __ptr32 i) {} // expected-note {{previous definition is here}}
	void ptr_func2(int * __uptr __ptr32 i) {} // expected-error {{redefinition of 'ptr_func2'}}

	// Check for warning when return types have the type attribute.
	void *__ptr32 ptr_func3(void) { return 0; } // expected-note {{previous definition is here}}
	void *__ptr64 ptr_func3(void) { return 0; } // expected-error {{redefinition of 'ptr_func3'}}

	// Test that __ptr32/__ptr64 can be passed as arguments with other address
	// spaces.
	void ptr_func4(int *i);
	void ptr_func5(int *__ptr32 i);
	void test_ptr_arguments(void) {
	int *__ptr64 i64;
	ptr_func4(i64);
	ptr_func5(i64);
	}

	int * __sptr __ptr32 __sptr wrong4; // expected-warning {{attribute '__sptr' is already applied}}

	__ptr32 int *wrong5; // expected-error {{'__ptr32' attribute only applies to pointer arguments}}

	int *wrong6 __ptr32; // expected-error {{expected ';' after top level declarator}} expected-warning {{declaration does not declare anything}}

	int * __ptr32 __ptr64 wrong7; // expected-error {{'__ptr32' and '__ptr64' attributes are not compatible}}

	int * __ptr32 __ptr32 wrong8; // expected-warning {{attribute '__ptr32' is already applied}}

	int *(__ptr32 __sptr wrong9); // expected-error {{'__sptr' attribute only applies to pointer arguments}} // expected-error {{'__ptr32' attribute only applies to pointer arguments}}

	int *(__ptr32 wrong10); // expected-error {{'__ptr32' attribute only applies to pointer arguments}}

	int *(__ptr64 wrong11); // expected-error {{'__ptr64' attribute only applies to pointer arguments}}

	int *(__ptr32 __ptr64 wrong12); // expected-error {{'__ptr32' attribute only applies to pointer arguments}} // expected-error {{'__ptr64' attribute only applies to pointer arguments}}

	typedef int *T;
	T __ptr32 ok1;
	T __ptr64 ok2;
	T __ptr32 __ptr64 wrong13; // expected-error {{'__ptr32' and '__ptr64' attributes are not compatible}}

	typedef int *__ptr32 T1;
	T1 ok3;
	T1 __ptr32 wrong14; // expected-warning {{attribute '__ptr32' is already applied}}
	T1 __ptr64 wrong15; // expected-error {{'__ptr32' and '__ptr64' attributes are not compatible}}

	typedef int *__ptr64 T2;
	T2 ok4;
	T2 __ptr64 wrong16; // expected-warning {{attribute '__ptr64' is already applied}}
	T2 __ptr32 wrong17; // expected-error {{'__ptr32' and '__ptr64' attributes are not compatible}}

	typedef int *__ptr32 __ptr64 wrong18; // expected-error {{'__ptr32' and '__ptr64' attributes are not compatible}}

	typedef char *my_va_list;
	void __va_start(my_va_list *ap, ...); // expected-note {{passing argument to parameter 'ap' here}}
	void vmyprintf(const char *f, my_va_list ap);
	void myprintf(const char *f, ...) {
	my_va_list ap;
	if (1) {
	__va_start(&ap, f);
	vmyprintf(f, ap);
	ap = 0;
	} else {
	__va_start(ap, f); // expected-warning {{incompatible pointer types passing 'my_va_list'}}
	}
	}

	// __unaligned handling
	void test_unaligned(void) {
	__unaligned int *p1 = 0;
	int p2 = p1; // expected-warning {{initializing 'int ' with an expression of type '__unaligned int *' discards qualifiers}}
	__unaligned int *p3 = p2;
	}

	void test_unaligned2(int x[__unaligned 4]) {}