safecode/tools/clang/test/SemaCXX/alignof.cpp - llvm-archive - Git at Google

 // RUN: %clang_cc1 -std=c++11 -fsyntax-only -verify %s

 // rdar://13784901

 struct S0 {
   int x;
   static const int test0 = __alignof__(x); // expected-error {{invalid application of 'alignof' to a field of a class still being defined}}
   static const int test1 = __alignof__(S0::x); // expected-error {{invalid application of 'alignof' to a field of a class still being defined}}
   auto test2() -> char(&)[__alignof__(x)]; // expected-error {{invalid application of 'alignof' to a field of a class still being defined}}
 };

 struct S1; // expected-note 5 {{forward declaration}}
 extern S1 s1;
 const int test3 = __alignof__(s1); // expected-error {{invalid application of 'alignof' to an incomplete type 'S1'}}

 struct S2 {
   S2();
   S1 &s;
   int x;

   int test4 = __alignof__(x); // ok
   int test5 = __alignof__(s); // expected-error {{invalid application of 'alignof' to an incomplete type 'S1'}}
 };

 const int test6 = __alignof__(S2::x);
 const int test7 = __alignof__(S2::s); // expected-error {{invalid application of 'alignof' to an incomplete type 'S1'}}

 // Arguably, these should fail like the S1 cases do: the alignment of
 // 's2.x' should depend on the alignment of both x-within-S2 and
 // s2-within-S3 and thus require 'S3' to be complete.  If we start
 // doing the appropriate recursive walk to do that, we should make
 // sure that these cases don't explode.
 struct S3 {
   S2 s2;

   static const int test8 = __alignof__(s2.x);
   static const int test9 = __alignof__(s2.s); // expected-error {{invalid application of 'alignof' to an incomplete type 'S1'}}
   auto test10() -> char(&)[__alignof__(s2.x)];
   static const int test11 = __alignof__(S3::s2.x);
   static const int test12 = __alignof__(S3::s2.s); // expected-error {{invalid application of 'alignof' to an incomplete type 'S1'}}
   auto test13() -> char(&)[__alignof__(s2.x)];
 };

 // Same reasoning as S3.
 struct S4 {
   union {
     int x;
   };
   static const int test0 = __alignof__(x);
   static const int test1 = __alignof__(S0::x);
   auto test2() -> char(&)[__alignof__(x)];
 };
	// RUN: %clang_cc1 -std=c++11 -fsyntax-only -verify %s

	// rdar://13784901

	struct S0 {
	int x;
	static const int test0 = __alignof__(x); // expected-error {{invalid application of 'alignof' to a field of a class still being defined}}
	static const int test1 = __alignof__(S0::x); // expected-error {{invalid application of 'alignof' to a field of a class still being defined}}
	auto test2() -> char(&)[__alignof__(x)]; // expected-error {{invalid application of 'alignof' to a field of a class still being defined}}
	};

	struct S1; // expected-note 5 {{forward declaration}}
	extern S1 s1;
	const int test3 = __alignof__(s1); // expected-error {{invalid application of 'alignof' to an incomplete type 'S1'}}

	struct S2 {
	S2();
	S1 &s;
	int x;

	int test4 = __alignof__(x); // ok
	int test5 = __alignof__(s); // expected-error {{invalid application of 'alignof' to an incomplete type 'S1'}}
	};

	const int test6 = __alignof__(S2::x);
	const int test7 = __alignof__(S2::s); // expected-error {{invalid application of 'alignof' to an incomplete type 'S1'}}

	// Arguably, these should fail like the S1 cases do: the alignment of
	// 's2.x' should depend on the alignment of both x-within-S2 and
	// s2-within-S3 and thus require 'S3' to be complete. If we start
	// doing the appropriate recursive walk to do that, we should make
	// sure that these cases don't explode.
	struct S3 {
	S2 s2;

	static const int test8 = __alignof__(s2.x);
	static const int test9 = __alignof__(s2.s); // expected-error {{invalid application of 'alignof' to an incomplete type 'S1'}}
	auto test10() -> char(&)[__alignof__(s2.x)];
	static const int test11 = __alignof__(S3::s2.x);
	static const int test12 = __alignof__(S3::s2.s); // expected-error {{invalid application of 'alignof' to an incomplete type 'S1'}}
	auto test13() -> char(&)[__alignof__(s2.x)];
	};

	// Same reasoning as S3.
	struct S4 {
	union {
	int x;
	};
	static const int test0 = __alignof__(x);
	static const int test1 = __alignof__(S0::x);
	auto test2() -> char(&)[__alignof__(x)];
	};