test/Parser/attributes.c - fp2-dev/platform/external/clang - Gitiles

 // RUN: clang-cc -fsyntax-only -verify %s -pedantic -std=c99

 int __attribute__(()) x;  // expected-warning {{extension used}}

 // Hide __attribute__ behind a macro, to silence extension warnings about
 // "__attribute__ being an extension".
 #define attribute __attribute__

 __inline void attribute((__always_inline__, __nodebug__))
 foo(void) {
 }


 attribute(()) y;   // expected-warning {{defaults to 'int'}}

 // PR2796
 int (attribute(()) *z)(long y);


 void f1(attribute(()) int x);

 int f2(y, attribute(()) x);     // expected-error {{expected identifier}}

 // This is parsed as a normal argument list (with two args that are implicit
 // int) because the attribute is a declspec.
 void f3(attribute(()) x,  // expected-warning {{defaults to 'int'}}
         y);               // expected-warning {{defaults to 'int'}}

 void f4(attribute(()));   // expected-error {{expected parameter declarator}}


 // This is ok, the attribute applies to the pointer.
 int baz(int (attribute(()) *x)(long y));

 void g1(void (*f1)(attribute(()) int x));
 void g2(int (*f2)(y, attribute(()) x));    // expected-error {{expected identifier}}
 void g3(void (*f3)(attribute(()) x, int y));  // expected-warning {{defaults to 'int'}}
 void g4(void (*f4)(attribute(())));  // expected-error {{expected parameter declarator}}


 void (*h1)(void (*f1)(attribute(()) int x));
 void (*h2)(int (*f2)(y, attribute(()) x));    // expected-error {{expected identifier}}

 void (*h3)(void (*f3)(attribute(()) x));   // expected-warning {{defaults to 'int'}}
 void (*h4)(void (*f4)(attribute(())));  // expected-error {{expected parameter declarator}}


 // rdar://6131260
 int foo42(void) {
   int x, attribute((unused)) y, z;
   return 0;
 }

 // rdar://6096491
 void attribute((noreturn)) d0(void), attribute((noreturn)) d1(void);
	// RUN: clang-cc -fsyntax-only -verify %s -pedantic -std=c99

	int __attribute__(()) x; // expected-warning {{extension used}}

	// Hide __attribute__ behind a macro, to silence extension warnings about
	// "__attribute__ being an extension".
	#define attribute __attribute__

	__inline void attribute((__always_inline__, __nodebug__))
	foo(void) {
	}


	attribute(()) y; // expected-warning {{defaults to 'int'}}

	// PR2796
	int (attribute(()) *z)(long y);


	void f1(attribute(()) int x);

	int f2(y, attribute(()) x); // expected-error {{expected identifier}}

	// This is parsed as a normal argument list (with two args that are implicit
	// int) because the attribute is a declspec.
	void f3(attribute(()) x, // expected-warning {{defaults to 'int'}}
	y); // expected-warning {{defaults to 'int'}}

	void f4(attribute(())); // expected-error {{expected parameter declarator}}


	// This is ok, the attribute applies to the pointer.
	int baz(int (attribute(()) *x)(long y));

	void g1(void (*f1)(attribute(()) int x));
	void g2(int (*f2)(y, attribute(()) x)); // expected-error {{expected identifier}}
	void g3(void (*f3)(attribute(()) x, int y)); // expected-warning {{defaults to 'int'}}
	void g4(void (*f4)(attribute(()))); // expected-error {{expected parameter declarator}}


	void (h1)(void (f1)(attribute(()) int x));
	void (h2)(int (f2)(y, attribute(()) x)); // expected-error {{expected identifier}}

	void (h3)(void (f3)(attribute(()) x)); // expected-warning {{defaults to 'int'}}
	void (h4)(void (f4)(attribute(()))); // expected-error {{expected parameter declarator}}



	// rdar://6131260
	int foo42(void) {
	int x, attribute((unused)) y, z;
	return 0;
	}

	// rdar://6096491
	void attribute((noreturn)) d0(void), attribute((noreturn)) d1(void);