gcc/testsuite/gcc.c-torture/execute/990326-1.c - gcc - Git at Google

 struct a {
 	char a, b;
 	short c;
 };

 int
 a1()
 {
 	static struct a x = { 1, 2, ~1 }, y = { 65, 2, ~2 };

 	return (x.a == (y.a & ~64) && x.b == y.b);
 }

 int
 a2()
 {
 	static struct a x = { 1, 66, ~1 }, y = { 1, 2, ~2 };

 	return (x.a == y.a && (x.b & ~64) == y.b);
 }

 int
 a3()
 {
 	static struct a x = { 9, 66, ~1 }, y = { 33, 18, ~2 };

 	return ((x.a & ~8) == (y.a & ~32) && (x.b & ~64) == (y.b & ~16));
 }

 struct b {
 	int c;
 	short b, a;
 };

 int
 b1()
 {
 	static struct b x = { ~1, 2, 1 }, y = { ~2, 2, 65 };

 	return (x.a == (y.a & ~64) && x.b == y.b);
 }

 int
 b2()
 {
 	static struct b x = { ~1, 66, 1 }, y = { ~2, 2, 1 };

 	return (x.a == y.a && (x.b & ~64) == y.b);
 }

 int
 b3()
 {
 	static struct b x = { ~1, 66, 9 }, y = { ~2, 18, 33 };

 	return ((x.a & ~8) == (y.a & ~32) && (x.b & ~64) == (y.b & ~16));
 }

 struct c {
 	unsigned int c:4, b:14, a:14;
 } __attribute__ ((aligned));

 int
 c1()
 {
 	static struct c x = { ~1, 2, 1 }, y = { ~2, 2, 65 };

 	return (x.a == (y.a & ~64) && x.b == y.b);
 }

 int
 c2()
 {
 	static struct c x = { ~1, 66, 1 }, y = { ~2, 2, 1 };

 	return (x.a == y.a && (x.b & ~64) == y.b);
 }

 int
 c3()
 {
 	static struct c x = { ~1, 66, 9 }, y = { ~2, 18, 33 };

 	return ((x.a & ~8) == (y.a & ~32) && (x.b & ~64) == (y.b & ~16));
 }

 struct d {
 	unsigned int a:14, b:14, c:4;
 } __attribute__ ((aligned));

 int
 d1()
 {
 	static struct d x = { 1, 2, ~1 }, y = { 65, 2, ~2 };

 	return (x.a == (y.a & ~64) && x.b == y.b);
 }

 int
 d2()
 {
 	static struct d x = { 1, 66, ~1 }, y = { 1, 2, ~2 };

 	return (x.a == y.a && (x.b & ~64) == y.b);
 }

 int
 d3()
 {
 	static struct d x = { 9, 66, ~1 }, y = { 33, 18, ~2 };

 	return ((x.a & ~8) == (y.a & ~32) && (x.b & ~64) == (y.b & ~16));
 }

 struct e {
 	int c:4, b:14, a:14;
 } __attribute__ ((aligned));

 int
 e1()
 {
 	static struct e x = { ~1, -2, -65 }, y = { ~2, -2, -1 };

 	return (x.a == (y.a & ~64) && x.b == y.b);
 }

 int
 e2()
 {
 	static struct e x = { ~1, -2, -1 }, y = { ~2, -66, -1 };

 	return (x.a == y.a && (x.b & ~64) == y.b);
 }

 int
 e3()
 {
 	static struct e x = { ~1, -18, -33 }, y = { ~2, -66, -9 };

 	return ((x.a & ~8) == (y.a & ~32) && (x.b & ~64) == (y.b & ~16));
 }

 int
 e4()
 {
 	static struct e x = { -1, -1, 0 };

 	return x.a == 0 && x.b & 0x2000;
 }

 struct f {
 	int a:14, b:14, c:4;
 } __attribute__ ((aligned));

 int
 f1()
 {
 	static struct f x = { -65, -2, ~1 }, y = { -1, -2, ~2 };

 	return (x.a == (y.a & ~64) && x.b == y.b);
 }

 int
 f2()
 {
 	static struct f x = { -1, -2, ~1 }, y = { -1, -66, ~2 };

 	return (x.a == y.a && (x.b & ~64) == y.b);
 }

 int
 f3()
 {
 	static struct f x = { -33, -18, ~1 }, y = { -9, -66, ~2 };

 	return ((x.a & ~8) == (y.a & ~32) && (x.b & ~64) == (y.b & ~16));
 }

 int
 f4()
 {
 	static struct f x = { 0, -1, -1 };

 	return x.a == 0 && x.b & 0x2000;
 }

 struct gx {
 	int c:4, b:14, a:14;
 } __attribute__ ((aligned));
 struct gy {
 	int b:14, a:14, c:4;
 } __attribute__ ((aligned));

 int
 g1()
 {
 	static struct gx x = { ~1, -2, -65 };
 	static struct gy y = { -2, -1, ~2 };

 	return (x.a == (y.a & ~64) && x.b == y.b);
 }

 int
 g2()
 {
 	static struct gx x = { ~1, -2, -1 };
 	static struct gy y = { -66, -1, ~2 };

 	return (x.a == y.a && (x.b & ~64) == y.b);
 }

 int
 g3()
 {
 	static struct gx x = { ~1, -18, -33 };
 	static struct gy y = { -66, -9, ~2 };

 	return ((x.a & ~8) == (y.a & ~32) && (x.b & ~64) == (y.b & ~16));
 }

 int
 g4()
 {
 	static struct gx x = { ~1, 0x0020, 0x0010 };
 	static struct gy y = { 0x0200, 0x0100, ~2 };

 	return ((x.a & 0x00f0) == (y.a & 0x0f00) &&
 		(x.b & 0x00f0) == (y.b & 0x0f00));
 }

 int
 g5()
 {
 	static struct gx x = { ~1, 0x0200, 0x0100 };
 	static struct gy y = { 0x0020, 0x0010, ~2 };

 	return ((x.a & 0x0f00) == (y.a & 0x00f0) &&
 		(x.b & 0x0f00) == (y.b & 0x00f0));
 }

 int
 g6()
 {
 	static struct gx x = { ~1, 0xfe20, 0xfd10 };
 	static struct gy y = { 0xc22f, 0xc11f, ~2 };

 	return ((x.a & 0x03ff) == (y.a & 0x3ff0) &&
 		(x.b & 0x03ff) == (y.b & 0x3ff0));
 }

 int
 g7()
 {
 	static struct gx x = { ~1, 0xc22f, 0xc11f };
 	static struct gy y = { 0xfe20, 0xfd10, ~2 };

 	return ((x.a & 0x3ff0) == (y.a & 0x03ff) &&
 		(x.b & 0x3ff0) == (y.b & 0x03ff));
 }

 struct hx {
 	int a:14, b:14, c:4;
 } __attribute__ ((aligned));
 struct hy {
 	int c:4, a:14, b:14;
 } __attribute__ ((aligned));

 int
 h1()
 {
 	static struct hx x = { -65, -2, ~1 };
 	static struct hy y = { ~2, -1, -2 };

 	return (x.a == (y.a & ~64) && x.b == y.b);
 }

 int
 h2()
 {
 	static struct hx x = { -1, -2, ~1 };
 	static struct hy y = { ~2, -1, -66 };

 	return (x.a == y.a && (x.b & ~64) == y.b);
 }

 int
 h3()
 {
 	static struct hx x = { -33, -18, ~1 };
 	static struct hy y = { ~2, -9, -66 };

 	return ((x.a & ~8) == (y.a & ~32) && (x.b & ~64) == (y.b & ~16));
 }

 int
 h4()
 {
 	static struct hx x = { 0x0010, 0x0020, ~1 };
 	static struct hy y = { ~2, 0x0100, 0x0200 };

 	return ((x.a & 0x00f0) == (y.a & 0x0f00) &&
 		(x.b & 0x00f0) == (y.b & 0x0f00));
 }

 int
 h5()
 {
 	static struct hx x = { 0x0100, 0x0200, ~1 };
 	static struct hy y = { ~2, 0x0010, 0x0020 };

 	return ((x.a & 0x0f00) == (y.a & 0x00f0) &&
 		(x.b & 0x0f00) == (y.b & 0x00f0));
 }

 int
 h6()
 {
 	static struct hx x = { 0xfd10, 0xfe20, ~1 };
 	static struct hy y = { ~2, 0xc11f, 0xc22f };

 	return ((x.a & 0x03ff) == (y.a & 0x3ff0) &&
 		(x.b & 0x03ff) == (y.b & 0x3ff0));
 }

 int
 h7()
 {
 	static struct hx x = { 0xc11f, 0xc22f, ~1 };
 	static struct hy y = { ~2, 0xfd10, 0xfe20 };

 	return ((x.a & 0x3ff0) == (y.a & 0x03ff) &&
 		(x.b & 0x3ff0) == (y.b & 0x03ff));
 }

 int
 main()
 {
   if (!a1 ())
     abort ();
   if (!a2 ())
     abort ();
   if (!a3 ())
     abort ();
   if (!b1 ())
     abort ();
   if (!b2 ())
     abort ();
   if (!b3 ())
     abort ();
   if (!c1 ())
     abort ();
   if (!c2 ())
     abort ();
   if (!c3 ())
     abort ();
   if (!d1 ())
     abort ();
   if (!d2 ())
     abort ();
   if (!d3 ())
     abort ();
   if (!e1 ())
     abort ();
   if (!e2 ())
     abort ();
   if (!e3 ())
     abort ();
   if (!e4 ())
     abort ();
   if (!f1 ())
     abort ();
   if (!f2 ())
     abort ();
   if (!f3 ())
     abort ();
   if (!f4 ())
     abort ();
   if (!g1 ())
     abort ();
   if (!g2 ())
     abort ();
   if (!g3 ())
     abort ();
   if (g4 ())
     abort ();
   if (g5 ())
     abort ();
   if (!g6 ())
     abort ();
   if (!g7 ())
     abort ();
   if (!h1 ())
     abort ();
   if (!h2 ())
     abort ();
   if (!h3 ())
     abort ();
   if (h4 ())
     abort ();
   if (h5 ())
     abort ();
   if (!h6 ())
     abort ();
   if (!h7 ())
     abort ();
   exit (0);
 }
	struct a {
	char a, b;
	short c;
	};

	int
	a1()
	{
	static struct a x = { 1, 2, ~1 }, y = { 65, 2, ~2 };

	return (x.a == (y.a & ~64) && x.b == y.b);
	}

	int
	a2()
	{
	static struct a x = { 1, 66, ~1 }, y = { 1, 2, ~2 };

	return (x.a == y.a && (x.b & ~64) == y.b);
	}

	int
	a3()
	{
	static struct a x = { 9, 66, ~1 }, y = { 33, 18, ~2 };

	return ((x.a & ~8) == (y.a & ~32) && (x.b & ~64) == (y.b & ~16));
	}

	struct b {
	int c;
	short b, a;
	};

	int
	b1()
	{
	static struct b x = { ~1, 2, 1 }, y = { ~2, 2, 65 };

	return (x.a == (y.a & ~64) && x.b == y.b);
	}

	int
	b2()
	{
	static struct b x = { ~1, 66, 1 }, y = { ~2, 2, 1 };

	return (x.a == y.a && (x.b & ~64) == y.b);
	}

	int
	b3()
	{
	static struct b x = { ~1, 66, 9 }, y = { ~2, 18, 33 };

	return ((x.a & ~8) == (y.a & ~32) && (x.b & ~64) == (y.b & ~16));
	}

	struct c {
	unsigned int c:4, b:14, a:14;
	} __attribute__ ((aligned));

	int
	c1()
	{
	static struct c x = { ~1, 2, 1 }, y = { ~2, 2, 65 };

	return (x.a == (y.a & ~64) && x.b == y.b);
	}

	int
	c2()
	{
	static struct c x = { ~1, 66, 1 }, y = { ~2, 2, 1 };

	return (x.a == y.a && (x.b & ~64) == y.b);
	}

	int
	c3()
	{
	static struct c x = { ~1, 66, 9 }, y = { ~2, 18, 33 };

	return ((x.a & ~8) == (y.a & ~32) && (x.b & ~64) == (y.b & ~16));
	}

	struct d {
	unsigned int a:14, b:14, c:4;
	} __attribute__ ((aligned));

	int
	d1()
	{
	static struct d x = { 1, 2, ~1 }, y = { 65, 2, ~2 };

	return (x.a == (y.a & ~64) && x.b == y.b);
	}

	int
	d2()
	{
	static struct d x = { 1, 66, ~1 }, y = { 1, 2, ~2 };

	return (x.a == y.a && (x.b & ~64) == y.b);
	}

	int
	d3()
	{
	static struct d x = { 9, 66, ~1 }, y = { 33, 18, ~2 };

	return ((x.a & ~8) == (y.a & ~32) && (x.b & ~64) == (y.b & ~16));
	}

	struct e {
	int c:4, b:14, a:14;
	} __attribute__ ((aligned));

	int
	e1()
	{
	static struct e x = { ~1, -2, -65 }, y = { ~2, -2, -1 };

	return (x.a == (y.a & ~64) && x.b == y.b);
	}

	int
	e2()
	{
	static struct e x = { ~1, -2, -1 }, y = { ~2, -66, -1 };

	return (x.a == y.a && (x.b & ~64) == y.b);
	}

	int
	e3()
	{
	static struct e x = { ~1, -18, -33 }, y = { ~2, -66, -9 };

	return ((x.a & ~8) == (y.a & ~32) && (x.b & ~64) == (y.b & ~16));
	}

	int
	e4()
	{
	static struct e x = { -1, -1, 0 };

	return x.a == 0 && x.b & 0x2000;
	}

	struct f {
	int a:14, b:14, c:4;
	} __attribute__ ((aligned));

	int
	f1()
	{
	static struct f x = { -65, -2, ~1 }, y = { -1, -2, ~2 };

	return (x.a == (y.a & ~64) && x.b == y.b);
	}

	int
	f2()
	{
	static struct f x = { -1, -2, ~1 }, y = { -1, -66, ~2 };

	return (x.a == y.a && (x.b & ~64) == y.b);
	}

	int
	f3()
	{
	static struct f x = { -33, -18, ~1 }, y = { -9, -66, ~2 };

	return ((x.a & ~8) == (y.a & ~32) && (x.b & ~64) == (y.b & ~16));
	}

	int
	f4()
	{
	static struct f x = { 0, -1, -1 };

	return x.a == 0 && x.b & 0x2000;
	}

	struct gx {
	int c:4, b:14, a:14;
	} __attribute__ ((aligned));
	struct gy {
	int b:14, a:14, c:4;
	} __attribute__ ((aligned));

	int
	g1()
	{
	static struct gx x = { ~1, -2, -65 };
	static struct gy y = { -2, -1, ~2 };

	return (x.a == (y.a & ~64) && x.b == y.b);
	}

	int
	g2()
	{
	static struct gx x = { ~1, -2, -1 };
	static struct gy y = { -66, -1, ~2 };

	return (x.a == y.a && (x.b & ~64) == y.b);
	}

	int
	g3()
	{
	static struct gx x = { ~1, -18, -33 };
	static struct gy y = { -66, -9, ~2 };

	return ((x.a & ~8) == (y.a & ~32) && (x.b & ~64) == (y.b & ~16));
	}

	int
	g4()
	{
	static struct gx x = { ~1, 0x0020, 0x0010 };
	static struct gy y = { 0x0200, 0x0100, ~2 };

	return ((x.a & 0x00f0) == (y.a & 0x0f00) &&
	(x.b & 0x00f0) == (y.b & 0x0f00));
	}

	int
	g5()
	{
	static struct gx x = { ~1, 0x0200, 0x0100 };
	static struct gy y = { 0x0020, 0x0010, ~2 };

	return ((x.a & 0x0f00) == (y.a & 0x00f0) &&
	(x.b & 0x0f00) == (y.b & 0x00f0));
	}

	int
	g6()
	{
	static struct gx x = { ~1, 0xfe20, 0xfd10 };
	static struct gy y = { 0xc22f, 0xc11f, ~2 };

	return ((x.a & 0x03ff) == (y.a & 0x3ff0) &&
	(x.b & 0x03ff) == (y.b & 0x3ff0));
	}

	int
	g7()
	{
	static struct gx x = { ~1, 0xc22f, 0xc11f };
	static struct gy y = { 0xfe20, 0xfd10, ~2 };

	return ((x.a & 0x3ff0) == (y.a & 0x03ff) &&
	(x.b & 0x3ff0) == (y.b & 0x03ff));
	}

	struct hx {
	int a:14, b:14, c:4;
	} __attribute__ ((aligned));
	struct hy {
	int c:4, a:14, b:14;
	} __attribute__ ((aligned));

	int
	h1()
	{
	static struct hx x = { -65, -2, ~1 };
	static struct hy y = { ~2, -1, -2 };

	return (x.a == (y.a & ~64) && x.b == y.b);
	}

	int
	h2()
	{
	static struct hx x = { -1, -2, ~1 };
	static struct hy y = { ~2, -1, -66 };

	return (x.a == y.a && (x.b & ~64) == y.b);
	}

	int
	h3()
	{
	static struct hx x = { -33, -18, ~1 };
	static struct hy y = { ~2, -9, -66 };

	return ((x.a & ~8) == (y.a & ~32) && (x.b & ~64) == (y.b & ~16));
	}

	int
	h4()
	{
	static struct hx x = { 0x0010, 0x0020, ~1 };
	static struct hy y = { ~2, 0x0100, 0x0200 };

	return ((x.a & 0x00f0) == (y.a & 0x0f00) &&
	(x.b & 0x00f0) == (y.b & 0x0f00));
	}

	int
	h5()
	{
	static struct hx x = { 0x0100, 0x0200, ~1 };
	static struct hy y = { ~2, 0x0010, 0x0020 };

	return ((x.a & 0x0f00) == (y.a & 0x00f0) &&
	(x.b & 0x0f00) == (y.b & 0x00f0));
	}

	int
	h6()
	{
	static struct hx x = { 0xfd10, 0xfe20, ~1 };
	static struct hy y = { ~2, 0xc11f, 0xc22f };

	return ((x.a & 0x03ff) == (y.a & 0x3ff0) &&
	(x.b & 0x03ff) == (y.b & 0x3ff0));
	}

	int
	h7()
	{
	static struct hx x = { 0xc11f, 0xc22f, ~1 };
	static struct hy y = { ~2, 0xfd10, 0xfe20 };

	return ((x.a & 0x3ff0) == (y.a & 0x03ff) &&
	(x.b & 0x3ff0) == (y.b & 0x03ff));
	}

	int
	main()
	{
	if (!a1 ())
	abort ();
	if (!a2 ())
	abort ();
	if (!a3 ())
	abort ();
	if (!b1 ())
	abort ();
	if (!b2 ())
	abort ();
	if (!b3 ())
	abort ();
	if (!c1 ())
	abort ();
	if (!c2 ())
	abort ();
	if (!c3 ())
	abort ();
	if (!d1 ())
	abort ();
	if (!d2 ())
	abort ();
	if (!d3 ())
	abort ();
	if (!e1 ())
	abort ();
	if (!e2 ())
	abort ();
	if (!e3 ())
	abort ();
	if (!e4 ())
	abort ();
	if (!f1 ())
	abort ();
	if (!f2 ())
	abort ();
	if (!f3 ())
	abort ();
	if (!f4 ())
	abort ();
	if (!g1 ())
	abort ();
	if (!g2 ())
	abort ();
	if (!g3 ())
	abort ();
	if (g4 ())
	abort ();
	if (g5 ())
	abort ();
	if (!g6 ())
	abort ();
	if (!g7 ())
	abort ();
	if (!h1 ())
	abort ();
	if (!h2 ())
	abort ();
	if (!h3 ())
	abort ();
	if (h4 ())
	abort ();
	if (h5 ())
	abort ();
	if (!h6 ())
	abort ();
	if (!h7 ())
	abort ();
	exit (0);
	}