test/Sema/tls_alignment.cpp - third_party/swift-clang - Git at Google

 // TLS variable cannot be aligned to more than 32 bytes on PS4.

 // RUN: %clang_cc1 -triple x86_64-scei-ps4 -fsyntax-only -verify %s


 // A non-aligned type.
 struct non_aligned_struct {
     int some_data[16]; // 64 bytes of stuff, non aligned.
 };

 // An aligned type.
 struct __attribute__(( aligned(64) )) aligned_struct {
     int some_data[12]; // 48 bytes of stuff, aligned to 64.
 };

 // A type with an aligned field.
 struct  struct_with_aligned_field {
     int some_aligned_data[12] __attribute__(( aligned(64) )); // 48 bytes of stuff, aligned to 64.
 };

 // A typedef of the aligned struct.
 typedef aligned_struct another_aligned_struct;

 // A typedef to redefine a non-aligned struct as aligned.
 typedef __attribute__(( aligned(64) )) non_aligned_struct yet_another_aligned_struct;

 // Non aligned variable doesn't cause an error.
 __thread non_aligned_struct foo;

 // Variable aligned because of its type should cause an error.
 __thread aligned_struct                    bar; // expected-error{{alignment (64) of thread-local variable}}

 // Variable explicitly aligned in the declaration should cause an error.
 __thread non_aligned_struct                bar2 __attribute__(( aligned(64) )); // expected-error{{alignment (64) of thread-local variable}}

 // Variable aligned because of one of its fields should cause an error.
 __thread struct_with_aligned_field         bar3; // expected-error{{alignment (64) of thread-local variable}}

 // Variable aligned because of typedef, first case.
 __thread another_aligned_struct            bar4; // expected-error{{alignment (64) of thread-local variable}}

 // Variable aligned because of typedef, second case.
 __thread yet_another_aligned_struct        bar5; // expected-error{{alignment (64) of thread-local variable}}

 int baz ()
 {
     return foo.some_data[0] + bar.some_data[1] + bar2.some_data[2] +
            bar3.some_aligned_data[3] + bar4.some_data[4] +
            bar5.some_data[5];
 }


 // Verify alignment check where a dependent type is involved.
 // The check is (correctly) not performed on "t", but the check still is
 // performed on the structure as a whole once it has been instantiated.

 template<class T> struct templated_tls {
     static __thread T t;
     T other_t __attribute__(( aligned(64) ));
 };
 __thread templated_tls<int> blah; // expected-error{{alignment (64) of thread-local variable}}

 int blag() {
     return blah.other_t * 2;
 }


 // Verify alignment check where the alignment is a template parameter.
 // The check is only performed during instantiation.
 template <int N>
 struct S {
   static int __thread __attribute__((aligned(N))) x; // expected-error{{alignment (64) of thread-local variable}}
 };

 S<64> s_instance; // expected-note{{in instantiation of template class 'S<64>' requested here}}
	// TLS variable cannot be aligned to more than 32 bytes on PS4.

	// RUN: %clang_cc1 -triple x86_64-scei-ps4 -fsyntax-only -verify %s


	// A non-aligned type.
	struct non_aligned_struct {
	int some_data[16]; // 64 bytes of stuff, non aligned.
	};

	// An aligned type.
	struct __attribute__(( aligned(64) )) aligned_struct {
	int some_data[12]; // 48 bytes of stuff, aligned to 64.
	};

	// A type with an aligned field.
	struct struct_with_aligned_field {
	int some_aligned_data[12] __attribute__(( aligned(64) )); // 48 bytes of stuff, aligned to 64.
	};

	// A typedef of the aligned struct.
	typedef aligned_struct another_aligned_struct;

	// A typedef to redefine a non-aligned struct as aligned.
	typedef __attribute__(( aligned(64) )) non_aligned_struct yet_another_aligned_struct;

	// Non aligned variable doesn't cause an error.
	__thread non_aligned_struct foo;

	// Variable aligned because of its type should cause an error.
	__thread aligned_struct bar; // expected-error{{alignment (64) of thread-local variable}}

	// Variable explicitly aligned in the declaration should cause an error.
	__thread non_aligned_struct bar2 __attribute__(( aligned(64) )); // expected-error{{alignment (64) of thread-local variable}}

	// Variable aligned because of one of its fields should cause an error.
	__thread struct_with_aligned_field bar3; // expected-error{{alignment (64) of thread-local variable}}

	// Variable aligned because of typedef, first case.
	__thread another_aligned_struct bar4; // expected-error{{alignment (64) of thread-local variable}}

	// Variable aligned because of typedef, second case.
	__thread yet_another_aligned_struct bar5; // expected-error{{alignment (64) of thread-local variable}}

	int baz ()
	{
	return foo.some_data[0] + bar.some_data[1] + bar2.some_data[2] +
	bar3.some_aligned_data[3] + bar4.some_data[4] +
	bar5.some_data[5];
	}


	// Verify alignment check where a dependent type is involved.
	// The check is (correctly) not performed on "t", but the check still is
	// performed on the structure as a whole once it has been instantiated.

	template<class T> struct templated_tls {
	static __thread T t;
	T other_t __attribute__(( aligned(64) ));
	};
	__thread templated_tls<int> blah; // expected-error{{alignment (64) of thread-local variable}}

	int blag() {
	return blah.other_t * 2;
	}


	// Verify alignment check where the alignment is a template parameter.
	// The check is only performed during instantiation.
	template <int N>
	struct S {
	static int __thread __attribute__((aligned(N))) x; // expected-error{{alignment (64) of thread-local variable}}
	};

	S<64> s_instance; // expected-note{{in instantiation of template class 'S<64>' requested here}}