gcc/testsuite/c-c++-common/auto-init-padding-3.c - gcc - Git at Google

 /* To test that the compiler can fill all the paddings to zeroes for the
    structures when the auto variable is partially initialized,  fully
    initialized, or not initialized for -ftrivial-auto-var-init=pattern.  */
 /* { dg-do run } */
 /* { dg-options "-ftrivial-auto-var-init=pattern" } */

 /* Structure with no padding. */
 struct test_packed {
   unsigned long one;
   unsigned long two;
   unsigned long three;
   unsigned long four;
 } p1;

 /* Simple structure with padding likely to be covered by compiler. */
 struct test_small_hole {
   unsigned long one;
   char two;
   /* 3 byte padding hole here. */
   int three;
   unsigned long four;
 } sh1;

 /* Try to trigger unhandled padding in a structure. */
 struct test_aligned {
   unsigned int internal1;
   unsigned long long internal2;
 } __attribute__((__aligned__(64)));

 struct test_aligned a1;

 struct test_big_hole {
   unsigned char one;
   unsigned char two;
   unsigned char three;
   /* 61 byte padding hole here. */
   struct test_aligned four;
 } __attribute__((__aligned__(64)));

 struct test_big_hole bh1;

 struct test_trailing_hole {
   char *one;
   char *two;
   char *three;
   char four;
   /* "sizeof(unsigned long) - 1" byte padding hole here. */
 } th1;

 __attribute__((noipa)) void
 foo (struct test_packed *p, struct test_small_hole *sh, struct test_aligned *a,
      struct test_big_hole *bh, struct test_trailing_hole *th)
 {
   p->one = 1; p->two = 2; p->three = 3; p->four = 4;
   sh->one = 11; sh->two = 12; sh->three = 13; sh->four = 14;
   a->internal1 = 21; a->internal2 = 22;
   bh->one = 31; bh->two = 32; bh->three = 33;
   bh->four.internal1 = 34; bh->four.internal2 = 35;
   th->one = 0; th->two = 0; th->three = 0; th->four = 44;
 }

 int main ()
 {
   struct test_packed p2;
   struct test_small_hole sh2;
   struct test_aligned a2;
   struct test_big_hole bh2;
   struct test_trailing_hole th2;

   struct test_packed p3 = {.one = 1};
   struct test_small_hole sh3 = {.two = 12};
   struct test_aligned a3 = {.internal1 = 21};
   struct test_big_hole bh3 = {.one = 31};
   struct test_trailing_hole th3 = {.three = 0};

   struct test_packed p4 = {.one = 1, .two = 2, .three = 3, .four = 4};
   struct test_small_hole sh4 = {.one = 11, .two = 12, .three = 13, .four = 14};
   struct test_aligned a4 = {.internal1 = 21, .internal2 = 22};
   struct test_big_hole bh4 = {.one = 31, .two = 32, .three = 33};
   struct test_trailing_hole th4 = {.one = 0, .two = 0, .three = 0, .four = 44};

   foo (&p1, &sh1, &a1, &bh1, &th1);
   foo (&p2, &sh2, &a2, &bh2, &th2);
   foo (&p3, &sh3, &a3, &bh3, &th3);
   bh4.four.internal1 = 34; bh4.four.internal2 = 35;

   __builtin_clear_padding (&p1);
   __builtin_clear_padding (&sh1);
   __builtin_clear_padding (&a1);
   __builtin_clear_padding (&bh1);
   __builtin_clear_padding (&th1);

   if (__builtin_memcmp (&p1, &p2, sizeof (p1))
       || __builtin_memcmp (&sh1, &sh2, sizeof (sh1))
       || __builtin_memcmp (&a1, &a2, sizeof (a1))
       || __builtin_memcmp (&bh1, &bh2, sizeof (bh1))
       || __builtin_memcmp (&th1, &th2, sizeof (th1)))
     __builtin_abort ();
   if (__builtin_memcmp (&p1, &p3, sizeof (p1))
       || __builtin_memcmp (&sh1, &sh3, sizeof (sh1))
       || __builtin_memcmp (&a1, &a3, sizeof (a1))
       || __builtin_memcmp (&bh1, &bh3, sizeof (bh1))
       || __builtin_memcmp (&th1, &th3, sizeof (th1)))
     __builtin_abort ();
   if (__builtin_memcmp (&p1, &p4, sizeof (p1))
       || __builtin_memcmp (&sh1, &sh4, sizeof (sh1))
       || __builtin_memcmp (&a1, &a4, sizeof (a1))
       || __builtin_memcmp (&bh1, &bh4, sizeof (bh1))
       || __builtin_memcmp (&th1, &th4, sizeof (th1)))
     __builtin_abort ();


   return 0;
 }
	/* To test that the compiler can fill all the paddings to zeroes for the
	structures when the auto variable is partially initialized, fully
	initialized, or not initialized for -ftrivial-auto-var-init=pattern. */
	/* { dg-do run } */
	/* { dg-options "-ftrivial-auto-var-init=pattern" } */

	/* Structure with no padding. */
	struct test_packed {
	unsigned long one;
	unsigned long two;
	unsigned long three;
	unsigned long four;
	} p1;

	/* Simple structure with padding likely to be covered by compiler. */
	struct test_small_hole {
	unsigned long one;
	char two;
	/* 3 byte padding hole here. */
	int three;
	unsigned long four;
	} sh1;

	/* Try to trigger unhandled padding in a structure. */
	struct test_aligned {
	unsigned int internal1;
	unsigned long long internal2;
	} __attribute__((__aligned__(64)));

	struct test_aligned a1;

	struct test_big_hole {
	unsigned char one;
	unsigned char two;
	unsigned char three;
	/* 61 byte padding hole here. */
	struct test_aligned four;
	} __attribute__((__aligned__(64)));

	struct test_big_hole bh1;

	struct test_trailing_hole {
	char *one;
	char *two;
	char *three;
	char four;
	/* "sizeof(unsigned long) - 1" byte padding hole here. */
	} th1;

	__attribute__((noipa)) void
	foo (struct test_packed p, struct test_small_hole sh, struct test_aligned *a,
	struct test_big_hole bh, struct test_trailing_hole th)
	{
	p->one = 1; p->two = 2; p->three = 3; p->four = 4;
	sh->one = 11; sh->two = 12; sh->three = 13; sh->four = 14;
	a->internal1 = 21; a->internal2 = 22;
	bh->one = 31; bh->two = 32; bh->three = 33;
	bh->four.internal1 = 34; bh->four.internal2 = 35;
	th->one = 0; th->two = 0; th->three = 0; th->four = 44;
	}

	int main ()
	{
	struct test_packed p2;
	struct test_small_hole sh2;
	struct test_aligned a2;
	struct test_big_hole bh2;
	struct test_trailing_hole th2;

	struct test_packed p3 = {.one = 1};
	struct test_small_hole sh3 = {.two = 12};
	struct test_aligned a3 = {.internal1 = 21};
	struct test_big_hole bh3 = {.one = 31};
	struct test_trailing_hole th3 = {.three = 0};

	struct test_packed p4 = {.one = 1, .two = 2, .three = 3, .four = 4};
	struct test_small_hole sh4 = {.one = 11, .two = 12, .three = 13, .four = 14};
	struct test_aligned a4 = {.internal1 = 21, .internal2 = 22};
	struct test_big_hole bh4 = {.one = 31, .two = 32, .three = 33};
	struct test_trailing_hole th4 = {.one = 0, .two = 0, .three = 0, .four = 44};

	foo (&p1, &sh1, &a1, &bh1, &th1);
	foo (&p2, &sh2, &a2, &bh2, &th2);
	foo (&p3, &sh3, &a3, &bh3, &th3);
	bh4.four.internal1 = 34; bh4.four.internal2 = 35;

	__builtin_clear_padding (&p1);
	__builtin_clear_padding (&sh1);
	__builtin_clear_padding (&a1);
	__builtin_clear_padding (&bh1);
	__builtin_clear_padding (&th1);

	if (__builtin_memcmp (&p1, &p2, sizeof (p1))
	\|\| __builtin_memcmp (&sh1, &sh2, sizeof (sh1))
	\|\| __builtin_memcmp (&a1, &a2, sizeof (a1))
	\|\| __builtin_memcmp (&bh1, &bh2, sizeof (bh1))
	\|\| __builtin_memcmp (&th1, &th2, sizeof (th1)))
	__builtin_abort ();
	if (__builtin_memcmp (&p1, &p3, sizeof (p1))
	\|\| __builtin_memcmp (&sh1, &sh3, sizeof (sh1))
	\|\| __builtin_memcmp (&a1, &a3, sizeof (a1))
	\|\| __builtin_memcmp (&bh1, &bh3, sizeof (bh1))
	\|\| __builtin_memcmp (&th1, &th3, sizeof (th1)))
	__builtin_abort ();
	if (__builtin_memcmp (&p1, &p4, sizeof (p1))
	\|\| __builtin_memcmp (&sh1, &sh4, sizeof (sh1))
	\|\| __builtin_memcmp (&a1, &a4, sizeof (a1))
	\|\| __builtin_memcmp (&bh1, &bh4, sizeof (bh1))
	\|\| __builtin_memcmp (&th1, &th4, sizeof (th1)))
	__builtin_abort ();


	return 0;
	}