gcc/testsuite/c-c++-common/builtin-has-attribute-4.c - gcc - Git at Google

 /* Verify __builtin_has_attribute return value for variables.
    { dg-do compile }
    { dg-skip-if "No section attribute" { { hppa*-*-hpux* } && { ! lp64 } } }
    { dg-options "-Wall -ftrack-macro-expansion=0" }
    { dg-options "-Wall -Wno-narrowing -Wno-unused -ftrack-macro-expansion=0" { target c++ } }
    { dg-additional-options "-DSKIP_ALIAS" { target *-*-darwin* } }
    { dg-require-visibility "hidden" }
 */

 #define ATTR(...) __attribute__ ((__VA_ARGS__))

 #define A(expect, sym, attr)						\
   typedef int Assert [1 - 2 * !(__builtin_has_attribute (sym, attr) == expect)]

 int vnone;

 ATTR (aligned) char valigned;
 ATTR (aligned (1)) char valigned_1;
 ATTR (aligned (2)) char valigned_2;
 ATTR (aligned (4)) char valigned_4;
 ATTR (aligned (8)) char valigned_8;

 void test_aligned (void)
 {
   A (0, vnone, aligned);
   A (0, vnone, aligned (0));      /* { dg-warning "requested alignment .0. is not a positive power of 2" } */
   A (0, vnone, aligned (1));
   A (0, vnone, aligned (2));
   A (0, vnone, aligned (4));
   A (0, vnone, aligned (8));
   A (0, vnone, aligned (16));

   A (1, valigned, aligned);
   A (0, valigned, aligned (0));   /* { dg-warning "requested alignment .0. is not a positive power of 2" } */
   A (0, valigned, aligned (1));
   A (0, valigned, aligned (2));

   A (1, valigned_1, aligned);
   A (0, valigned_1, aligned (0)); /* { dg-warning "requested alignment .0. is not a positive power of 2" } */
   A (1, valigned_1, aligned (1));
   A (0, valigned_1, aligned (2));
   A (0, valigned_1, aligned (4));

   A (1, valigned_2, aligned);
   A (0, valigned_2, aligned (0)); /* { dg-warning "requested alignment .0. is not a positive power of 2" } */
   A (0, valigned_2, aligned (1));
   A (1, valigned_2, aligned (2));
   A (0, valigned_2, aligned (4));
 }


 #ifndef SKIP_ALIAS
 int vtarget;
 extern ATTR (alias ("vtarget")) int valias;

 void test_alias (void)
 {
   A (0, vnone, alias);
   A (1, valias, alias);
   A (1, valias, alias ("vtarget"));
   A (0, valias, alias ("vnone"));
 }
 #endif

 void test_cleanup (void)
 {
   extern void fpv (void*);
   extern void fcleanup (void*);

   int var;
   ATTR (cleanup (fcleanup)) int var_cleanup;
   A (0, var, cleanup);
   A (1, var_cleanup, cleanup);
   A (1, var_cleanup, cleanup (fcleanup));
   A (0, var_cleanup, cleanup (fpv));
 }


 ATTR (common) int vcommon;
 ATTR (nocommon) int vnocommon;

 void test_common (void)
 {
   A (0, vnone, common);
   A (0, vnone, nocommon);

   A (1, vcommon, common);
   A (0, vcommon, nocommon);

   A (0, vnocommon, common);
   A (1, vnocommon, nocommon);
 }


 void test_externally_visible (void)
 {
   extern int vexternally_visible;

   A (0, vexternally_visible, externally_visible);

   extern ATTR (externally_visible) int vexternally_visible;

   A (1, vexternally_visible, externally_visible);
 }


 int test_mode (void)
 {
   ATTR (mode (byte)) int i8;
   return __builtin_has_attribute (i8, mode);   /* { dg-warning ".mode. attribute not supported in .__builtin_has_attribute." } */
 }


 void test_nonstring (void)
 {
   char arr[1];
   char* ptr = arr;

   ATTR (nonstring) char arr_nonstring[1];
   ATTR (nonstring) char *ptr_nonstring =  arr_nonstring;

   A (0, arr, nonstring);
   A (0, ptr, nonstring);

   A (1, arr_nonstring, nonstring);
   A (1, ptr_nonstring, nonstring);
 }

 struct PackedMember
 {
   char c;
   short s;
   int i;
   ATTR (packed) int a[2]; /* { dg-warning "attribute ignored" "" { target default_packed } } */
 } gpak[2];

 void test_packed (struct PackedMember *p)
 {
   int vunpacked;
   ATTR (packed) int vpacked;   /* { dg-warning ".packed. attribute ignored" } */

   A (0, vunpacked, packed);
   A (0, vpacked, packed);

   int arr_unpacked[2];
   ATTR (packed) int arr_packed[2];   /* { dg-warning ".packed. attribute ignored" } */

   A (0, arr_unpacked, packed);
   A (0, arr_packed, packed);
   A (0, arr_unpacked[0], packed);
   A (0, arr_packed[0], packed);

   A (0, gpak, packed);
   A (0, gpak[0], packed);
   A (0, *gpak, packed);
   A (0, gpak[0].c, packed);
   A (0, gpak[1].s, packed);
   A (1, gpak->a, packed);
   /* It's the array that's declared packed but not its elements.  */
   A (0, (*gpak).a[0], packed);

   /* The following fails because in C it's represented as
        INDIRECT_REF (POINTER_PLUS (NOP_EXPR (ADDR_EXPR (gpak)), ...))
      with no reference to the member.  Avoid testing it.
   A (1, *gpak[9].a, packed);  */

   A (0, p->c, packed);
   A (0, p->s, packed);
   A (1, p->a, packed);
   /* It's the array that's declared packed but not its elements.  */
   A (0, p->a[0], packed);
   /* Similar to the comment above.
    A (1, *p->a, packed);  */
 }


 ATTR (section ("sectA")) int var_sectA;
 ATTR (section ("sectB")) int var_sectB;

 void test_section (void)
 {
   int var = 0;
   A (0, var, section);
   A (0, var, section ("sectA"));

   A (1, var_sectA, section);
   A (1, var_sectA, section ("sectA"));
   A (0, var_sectA, section ("sectB"));

   A (1, var_sectB, section);
   A (0, var_sectB, section ("sectA"));
   A (1, var_sectB, section ("sectB"));
 }


 void test_vector_size (void)
 {
   char c;
   extern int arrx[];
   extern int arr1[1];

   A (0, c, vector_size);
   A (0, c, vector_size (1));
   A (0, arrx, vector_size);
   A (0, arrx, vector_size (4));
   A (0, arr1, vector_size);
   A (0, arr1, vector_size (8));

   ATTR (vector_size (4)) char cv4;
   ATTR (vector_size (16)) int iv16;

   A (1, cv4, vector_size);
   A (0, cv4, vector_size (1));
   A (0, cv4, vector_size (2));
   A (1, cv4, vector_size (4));
   A (0, cv4, vector_size (8));

   A (1, iv16, vector_size);
   A (0, iv16, vector_size (1));
   A (0, iv16, vector_size (8));
   A (1, iv16, vector_size (16));
   A (0, iv16, vector_size (32));

   /* Verify that the attribute not detected on an array of vectors
      but is detected on its elements.  */
   typedef ATTR (vector_size (8)) float afv8_t[4];
   A (0, afv8_t, vector_size);
   A (0, afv8_t, vector_size (1));
   A (0, afv8_t, vector_size (2));
   A (0, afv8_t, vector_size (4));
   A (0, afv8_t, vector_size (8));
   A (0, afv8_t, vector_size (16));

   A (1, __typeof__ ((*(afv8_t*)0)[0]), vector_size);
   A (0, __typeof__ ((*(afv8_t*)0)[1]), vector_size (1));
   A (0, __typeof__ ((*(afv8_t*)0)[2]), vector_size (2));
   A (0, __typeof__ ((*(afv8_t*)0)[3]), vector_size (4));
   A (1, __typeof__ ((*(afv8_t*)0)[0]), vector_size (8));
   A (0, __typeof__ ((*(afv8_t*)0)[1]), vector_size (16));

   A (1, __typeof__ (**(afv8_t*)0), vector_size);
   A (0, __typeof__ (**(afv8_t*)0), vector_size (1));
   A (0, __typeof__ (**(afv8_t*)0), vector_size (2));
   A (0, __typeof__ (**(afv8_t*)0), vector_size (4));
   A (1, __typeof__ (**(afv8_t*)0), vector_size (8));
   A (0, __typeof__ (**(afv8_t*)0), vector_size (16));

   ATTR (vector_size (8)) float afv8[4];
   A (0, afv8, vector_size);
   A (0, afv8, vector_size (1));
   A (0, afv8, vector_size (2));
   A (0, afv8, vector_size (4));
   A (0, afv8, vector_size (8));
   A (0, afv8, vector_size (16));

   A (1, afv8[0], vector_size);
   A (0, afv8[1], vector_size (1));
   A (0, afv8[2], vector_size (2));
   A (0, afv8[3], vector_size (4));
   A (1, afv8[0], vector_size (8));
   A (0, afv8[1], vector_size (16));

   A (1, *afv8, vector_size);
   A (0, *afv8, vector_size (1));
   A (0, *afv8, vector_size (2));
   A (0, *afv8, vector_size (4));
   A (1, *afv8, vector_size (8));
   A (0, *afv8, vector_size (16));

   /* sizeof (long double) is 12 on i386.  */
   enum { VecSize = 8 * sizeof (long double) };
   ATTR (vector_size (VecSize)) long double aldv[1][2][3];
   A (0, aldv, vector_size);
   A (0, aldv[0], vector_size);
   A (0, aldv[0][0], vector_size);
   A (1, aldv[0][0][0], vector_size);
   A (0, aldv[0][0][1], vector_size (VecSize / 2));
   A (1, aldv[0][0][2], vector_size (VecSize));

   A (0, aldv[0][0][0][0], vector_size);

   A (0, *aldv, vector_size);
   A (0, **aldv, vector_size);
   A (1, ***aldv, vector_size);
   A (1, ***aldv, vector_size (VecSize));
 }


 ATTR (visibility ("default")) int vdefault;
 ATTR (visibility ("hidden")) int vhidden;
 ATTR (visibility ("internal")) int vinternal;
 ATTR (visibility ("protected")) int vprotected;

 void test_visibility (void)
 {
   A (0, vnone, visibility ("default"));
   A (0, vnone, visibility ("hidden"));
   A (0, vnone, visibility ("internal"));
   A (0, vnone, visibility ("protected"));

   A (1, vdefault, visibility ("default"));
   A (0, vdefault, visibility ("hidden"));
   A (0, vdefault, visibility ("internal"));
   A (0, vdefault, visibility ("protected"));

   A (0, vhidden, visibility ("default"));
   A (1, vhidden, visibility ("hidden"));
   A (0, vhidden, visibility ("internal"));
   A (0, vhidden, visibility ("protected"));

   A (0, vinternal, visibility ("default"));
   A (0, vinternal, visibility ("hidden"));
   A (1, vinternal, visibility ("internal"));
   A (0, vinternal, visibility ("protected"));

   A (0, vprotected, visibility ("default"));
   A (0, vprotected, visibility ("hidden"));
   A (0, vprotected, visibility ("internal"));
   A (1, vprotected, visibility ("protected"));
 }


 int var_init_strong = 123;
 int var_uninit_strong;
 static int var_extern_strong;
 static int var_static_strong;

 ATTR (weak) int var_init_weak = 234;
 ATTR (weak) int var_uninit_weak;

 void test_weak (void)
 {
   int var_local = 0;
   static int var_static_local = 0;

   A (0, var_init_strong, weak);
   A (0, var_uninit_strong, weak);
   A (0, var_extern_strong, weak);
   A (0, var_static_strong, weak);
   A (0, var_local, weak);
   A (0, var_static_local, weak);

   A (1, var_init_weak, weak);
   A (1, var_uninit_weak, weak);
 } /* { dg-warning "protected visibility attribute not supported" "" { target { *-*-darwin* } } } */

 /* { dg-prune-output "specifies less restrictive attribute" } */
	/* Verify __builtin_has_attribute return value for variables.
	{ dg-do compile }
	{ dg-skip-if "No section attribute" { { hppa--hpux* } && { ! lp64 } } }
	{ dg-options "-Wall -ftrack-macro-expansion=0" }
	{ dg-options "-Wall -Wno-narrowing -Wno-unused -ftrack-macro-expansion=0" { target c++ } }
	{ dg-additional-options "-DSKIP_ALIAS" { target --darwin* } }
	{ dg-require-visibility "hidden" }
	*/

	#define ATTR(...) __attribute__ ((__VA_ARGS__))

	#define A(expect, sym, attr) \
	typedef int Assert [1 - 2 * !(__builtin_has_attribute (sym, attr) == expect)]

	int vnone;

	ATTR (aligned) char valigned;
	ATTR (aligned (1)) char valigned_1;
	ATTR (aligned (2)) char valigned_2;
	ATTR (aligned (4)) char valigned_4;
	ATTR (aligned (8)) char valigned_8;

	void test_aligned (void)
	{
	A (0, vnone, aligned);
	A (0, vnone, aligned (0)); /* { dg-warning "requested alignment .0. is not a positive power of 2" } */
	A (0, vnone, aligned (1));
	A (0, vnone, aligned (2));
	A (0, vnone, aligned (4));
	A (0, vnone, aligned (8));
	A (0, vnone, aligned (16));

	A (1, valigned, aligned);
	A (0, valigned, aligned (0)); /* { dg-warning "requested alignment .0. is not a positive power of 2" } */
	A (0, valigned, aligned (1));
	A (0, valigned, aligned (2));

	A (1, valigned_1, aligned);
	A (0, valigned_1, aligned (0)); /* { dg-warning "requested alignment .0. is not a positive power of 2" } */
	A (1, valigned_1, aligned (1));
	A (0, valigned_1, aligned (2));
	A (0, valigned_1, aligned (4));

	A (1, valigned_2, aligned);
	A (0, valigned_2, aligned (0)); /* { dg-warning "requested alignment .0. is not a positive power of 2" } */
	A (0, valigned_2, aligned (1));
	A (1, valigned_2, aligned (2));
	A (0, valigned_2, aligned (4));
	}


	#ifndef SKIP_ALIAS
	int vtarget;
	extern ATTR (alias ("vtarget")) int valias;

	void test_alias (void)
	{
	A (0, vnone, alias);
	A (1, valias, alias);
	A (1, valias, alias ("vtarget"));
	A (0, valias, alias ("vnone"));
	}
	#endif

	void test_cleanup (void)
	{
	extern void fpv (void*);
	extern void fcleanup (void*);

	int var;
	ATTR (cleanup (fcleanup)) int var_cleanup;
	A (0, var, cleanup);
	A (1, var_cleanup, cleanup);
	A (1, var_cleanup, cleanup (fcleanup));
	A (0, var_cleanup, cleanup (fpv));
	}


	ATTR (common) int vcommon;
	ATTR (nocommon) int vnocommon;

	void test_common (void)
	{
	A (0, vnone, common);
	A (0, vnone, nocommon);

	A (1, vcommon, common);
	A (0, vcommon, nocommon);

	A (0, vnocommon, common);
	A (1, vnocommon, nocommon);
	}


	void test_externally_visible (void)
	{
	extern int vexternally_visible;

	A (0, vexternally_visible, externally_visible);

	extern ATTR (externally_visible) int vexternally_visible;

	A (1, vexternally_visible, externally_visible);
	}


	int test_mode (void)
	{
	ATTR (mode (byte)) int i8;
	return __builtin_has_attribute (i8, mode); /* { dg-warning ".mode. attribute not supported in .__builtin_has_attribute." } */
	}


	void test_nonstring (void)
	{
	char arr[1];
	char* ptr = arr;

	ATTR (nonstring) char arr_nonstring[1];
	ATTR (nonstring) char *ptr_nonstring = arr_nonstring;

	A (0, arr, nonstring);
	A (0, ptr, nonstring);

	A (1, arr_nonstring, nonstring);
	A (1, ptr_nonstring, nonstring);
	}

	struct PackedMember
	{
	char c;
	short s;
	int i;
	ATTR (packed) int a[2]; /* { dg-warning "attribute ignored" "" { target default_packed } } */
	} gpak[2];

	void test_packed (struct PackedMember *p)
	{
	int vunpacked;
	ATTR (packed) int vpacked; /* { dg-warning ".packed. attribute ignored" } */

	A (0, vunpacked, packed);
	A (0, vpacked, packed);

	int arr_unpacked[2];
	ATTR (packed) int arr_packed[2]; /* { dg-warning ".packed. attribute ignored" } */

	A (0, arr_unpacked, packed);
	A (0, arr_packed, packed);
	A (0, arr_unpacked[0], packed);
	A (0, arr_packed[0], packed);

	A (0, gpak, packed);
	A (0, gpak[0], packed);
	A (0, *gpak, packed);
	A (0, gpak[0].c, packed);
	A (0, gpak[1].s, packed);
	A (1, gpak->a, packed);
	/* It's the array that's declared packed but not its elements. */
	A (0, (*gpak).a[0], packed);

	/* The following fails because in C it's represented as
	INDIRECT_REF (POINTER_PLUS (NOP_EXPR (ADDR_EXPR (gpak)), ...))
	with no reference to the member. Avoid testing it.
	A (1, gpak[9].a, packed); /

	A (0, p->c, packed);
	A (0, p->s, packed);
	A (1, p->a, packed);
	/* It's the array that's declared packed but not its elements. */
	A (0, p->a[0], packed);
	/* Similar to the comment above.
	A (1, p->a, packed); /
	}


	ATTR (section ("sectA")) int var_sectA;
	ATTR (section ("sectB")) int var_sectB;

	void test_section (void)
	{
	int var = 0;
	A (0, var, section);
	A (0, var, section ("sectA"));

	A (1, var_sectA, section);
	A (1, var_sectA, section ("sectA"));
	A (0, var_sectA, section ("sectB"));

	A (1, var_sectB, section);
	A (0, var_sectB, section ("sectA"));
	A (1, var_sectB, section ("sectB"));
	}


	void test_vector_size (void)
	{
	char c;
	extern int arrx[];
	extern int arr1[1];

	A (0, c, vector_size);
	A (0, c, vector_size (1));
	A (0, arrx, vector_size);
	A (0, arrx, vector_size (4));
	A (0, arr1, vector_size);
	A (0, arr1, vector_size (8));

	ATTR (vector_size (4)) char cv4;
	ATTR (vector_size (16)) int iv16;

	A (1, cv4, vector_size);
	A (0, cv4, vector_size (1));
	A (0, cv4, vector_size (2));
	A (1, cv4, vector_size (4));
	A (0, cv4, vector_size (8));

	A (1, iv16, vector_size);
	A (0, iv16, vector_size (1));
	A (0, iv16, vector_size (8));
	A (1, iv16, vector_size (16));
	A (0, iv16, vector_size (32));

	/* Verify that the attribute not detected on an array of vectors
	but is detected on its elements. */
	typedef ATTR (vector_size (8)) float afv8_t[4];
	A (0, afv8_t, vector_size);
	A (0, afv8_t, vector_size (1));
	A (0, afv8_t, vector_size (2));
	A (0, afv8_t, vector_size (4));
	A (0, afv8_t, vector_size (8));
	A (0, afv8_t, vector_size (16));

	A (1, __typeof__ (((afv8_t)0)[0]), vector_size);
	A (0, __typeof__ (((afv8_t)0)[1]), vector_size (1));
	A (0, __typeof__ (((afv8_t)0)[2]), vector_size (2));
	A (0, __typeof__ (((afv8_t)0)[3]), vector_size (4));
	A (1, __typeof__ (((afv8_t)0)[0]), vector_size (8));
	A (0, __typeof__ (((afv8_t)0)[1]), vector_size (16));

	A (1, __typeof__ (*(afv8_t)0), vector_size);
	A (0, __typeof__ (*(afv8_t)0), vector_size (1));
	A (0, __typeof__ (*(afv8_t)0), vector_size (2));
	A (0, __typeof__ (*(afv8_t)0), vector_size (4));
	A (1, __typeof__ (*(afv8_t)0), vector_size (8));
	A (0, __typeof__ (*(afv8_t)0), vector_size (16));

	ATTR (vector_size (8)) float afv8[4];
	A (0, afv8, vector_size);
	A (0, afv8, vector_size (1));
	A (0, afv8, vector_size (2));
	A (0, afv8, vector_size (4));
	A (0, afv8, vector_size (8));
	A (0, afv8, vector_size (16));

	A (1, afv8[0], vector_size);
	A (0, afv8[1], vector_size (1));
	A (0, afv8[2], vector_size (2));
	A (0, afv8[3], vector_size (4));
	A (1, afv8[0], vector_size (8));
	A (0, afv8[1], vector_size (16));

	A (1, *afv8, vector_size);
	A (0, *afv8, vector_size (1));
	A (0, *afv8, vector_size (2));
	A (0, *afv8, vector_size (4));
	A (1, *afv8, vector_size (8));
	A (0, *afv8, vector_size (16));

	/* sizeof (long double) is 12 on i386. */
	enum { VecSize = 8 * sizeof (long double) };
	ATTR (vector_size (VecSize)) long double aldv[1][2][3];
	A (0, aldv, vector_size);
	A (0, aldv[0], vector_size);
	A (0, aldv[0][0], vector_size);
	A (1, aldv[0][0][0], vector_size);
	A (0, aldv[0][0][1], vector_size (VecSize / 2));
	A (1, aldv[0][0][2], vector_size (VecSize));

	A (0, aldv[0][0][0][0], vector_size);

	A (0, *aldv, vector_size);
	A (0, **aldv, vector_size);
	A (1, ***aldv, vector_size);
	A (1, ***aldv, vector_size (VecSize));
	}


	ATTR (visibility ("default")) int vdefault;
	ATTR (visibility ("hidden")) int vhidden;
	ATTR (visibility ("internal")) int vinternal;
	ATTR (visibility ("protected")) int vprotected;

	void test_visibility (void)
	{
	A (0, vnone, visibility ("default"));
	A (0, vnone, visibility ("hidden"));
	A (0, vnone, visibility ("internal"));
	A (0, vnone, visibility ("protected"));

	A (1, vdefault, visibility ("default"));
	A (0, vdefault, visibility ("hidden"));
	A (0, vdefault, visibility ("internal"));
	A (0, vdefault, visibility ("protected"));

	A (0, vhidden, visibility ("default"));
	A (1, vhidden, visibility ("hidden"));
	A (0, vhidden, visibility ("internal"));
	A (0, vhidden, visibility ("protected"));

	A (0, vinternal, visibility ("default"));
	A (0, vinternal, visibility ("hidden"));
	A (1, vinternal, visibility ("internal"));
	A (0, vinternal, visibility ("protected"));

	A (0, vprotected, visibility ("default"));
	A (0, vprotected, visibility ("hidden"));
	A (0, vprotected, visibility ("internal"));
	A (1, vprotected, visibility ("protected"));
	}


	int var_init_strong = 123;
	int var_uninit_strong;
	static int var_extern_strong;
	static int var_static_strong;

	ATTR (weak) int var_init_weak = 234;
	ATTR (weak) int var_uninit_weak;

	void test_weak (void)
	{
	int var_local = 0;
	static int var_static_local = 0;

	A (0, var_init_strong, weak);
	A (0, var_uninit_strong, weak);
	A (0, var_extern_strong, weak);
	A (0, var_static_strong, weak);
	A (0, var_local, weak);
	A (0, var_static_local, weak);

	A (1, var_init_weak, weak);
	A (1, var_uninit_weak, weak);
	} /* { dg-warning "protected visibility attribute not supported" "" { target { --darwin* } } } */

	/* { dg-prune-output "specifies less restrictive attribute" } */