libgomp/testsuite/libgomp.c++/member-2.C - gcc - Git at Google

 // { dg-do run }

 #include <omp.h>

 int c, d, e;
 struct R { R () {}; ~R () {}; int r; };
 template <typename Q>
 struct T { T () : t(d) {}; virtual ~T () {}; Q t; };
 template <typename Q>
 struct A : public R, virtual public T<Q> { A () : b(c), a(e) {} Q a; int &b; void m1 (); };

 void
 take (int &a, int &b, int &c, int &d)
 {
   asm volatile ("" : : "g" (&a), "g" (&b), "g" (&c), "g" (&d) : "memory");
 }

 template <typename Q>
 void
 A<Q>::m1 ()
 {
   #pragma omp parallel private (a, r, T<Q>::t, A::b)
   {
     int q = omp_get_thread_num ();
     a = q;
     r = 2 * q;
     T<Q>::t = 3 * q;
     b = 4 * q;
     take (a, r, T<Q>::t, b);
     #pragma omp barrier
     if (A::a != q || R::r != 2 * q || T<Q>::t != 3 * q || A::b != 4 * q)
       __builtin_abort ();
   }
   a = 7;
   r = 8;
   T<Q>::t = 9;
   b = 10;
   #pragma omp parallel firstprivate (A::a, R::r, T<Q>::t, b)
   {
     int q = omp_get_thread_num ();
     take (A::a, R::r, T<Q>::t, A::b);
     if (a != 7 || r != 8 || T<Q>::t != 9 || b != 10)
       __builtin_abort ();
     A::a = 5 * q;
     R::r = 6 * q;
     T<Q>::t = 7 * q;
     A::b = 8 * q;
     take (a, r, T<Q>::t, b);
     #pragma omp barrier
     if (a != 5 * q || r != 6 * q || T<Q>::t != 7 * q || b != 8 * q)
       __builtin_abort ();
   }
   bool f = false;
   a = -5;
   b = -4;
   r = -3;
   T<Q>::t = -2;
   int n;
   #pragma omp parallel for firstprivate (a, T<Q>::t, b, f) lastprivate (A::a, r, T<Q>::t, n)
   for (int i = 0; i < omp_get_num_threads (); i++)
     {
       int q = omp_get_thread_num ();
       if (!f)
 	{
 	  if (A::a != -5 || A::b != -4 || T<Q>::t != -2)
 	    __builtin_abort ();
 	}
       else if (a != q || b != 2 * q || r != 3 * q || T<Q>::t != 4 * q)
 	__builtin_abort ();
       take (a, r, T<Q>::t, b);
       A::a = q;
       A::b = 2 * q;
       R::r = 3 * q;
       T<Q>::t = 4 * q;
       n = q;
       f = true;
     }
   if (a != n || r != 3 * n || T<Q>::t != 4 * n)
     __builtin_abort ();
   b = 8;
   #pragma omp parallel
     #pragma omp single
       for (int i = 0; i < 5; i++)
 	#pragma omp task firstprivate (T<Q>::t, b, n) private (a, R::r)
 	  {
 	    if (T<Q>::t != 4 * n || b != 8)
 	      __builtin_abort ();
 	    a = 9;
 	    r = 8;
 	    T<Q>::t = 12;
 	    b = 18;
 	    take (a, r, T<Q>::t, b);
 	    if (a != 9 || r != 8 || T<Q>::t != 12 || b != 18)
 	      __builtin_abort ();
 	  }
   a = 1;
   b = 2;
   R::r = 3;
   T<Q>::t = 4;
   #pragma omp parallel private (f)
     {
       f = false;
     #pragma omp single
     #pragma omp taskloop firstprivate (r, T<Q>::t, b, f) lastprivate (a, T<Q>::t, b, n)
       for (int i = 0; i < 30; i++)
 	{
 	  int q = omp_get_thread_num ();
 	  if (!f)
 	    {
 	      if (R::r != 3 || A::b != 2 || T<Q>::t != 4)
 		__builtin_abort ();
 	    }
 	  else if (a != 7 * q || b != 8 * q || r != 9 * q || T<Q>::t != 10 * q)
 	    __builtin_abort ();
 	  take (a, r, T<Q>::t, b);
 	  A::a = 7 * q;
 	  A::b = 8 * q;
 	  R::r = 9 * q;
 	  T<Q>::t = 10 * q;
 	  n = q;
 	  f = true;
 	}
     }
   if (a != 7 * n || b != 8 * n || T<Q>::t != 10 * n)
     __builtin_abort ();
   a = 1;
   b = 2;
   R::r = 3;
   T<Q>::t = 4;
   #pragma omp parallel private (f)
     {
       f = false;
     #pragma omp single
     #pragma omp taskloop firstprivate (r, T<Q>::t, b, A::a, f)
       for (int i = 0; i < 30; i++)
 	{
 	  int q = omp_get_thread_num ();
 	  if (!f)
 	    {
 	      if (A::a != 1 || R::r != 3 || A::b != 2 || T<Q>::t != 4)
 		__builtin_abort ();
 	    }
 	  else if (a != 7 * q || b != 8 * q || r != 9 * q || T<Q>::t != 10 * q)
 	    __builtin_abort ();
 	  take (a, r, T<Q>::t, b);
 	  A::a = 7 * q;
 	  A::b = 8 * q;
 	  R::r = 9 * q;
 	  T<Q>::t = 10 * q;
 	  f = true;
 	}
     }
   #pragma omp parallel private (f)
     {
       f = false;
     #pragma omp single
     #pragma omp taskloop lastprivate (a, T<Q>::t, b, n) private (R::r)
       for (int i = 0; i < 30; i++)
 	{
 	  int q = omp_get_thread_num ();
 	  if (f && (a != 7 * q || b != 8 * q || r != 9 * q || T<Q>::t != 10 * q))
 	    __builtin_abort ();
 	  take (a, r, T<Q>::t, b);
 	  A::a = 7 * q;
 	  A::b = 8 * q;
 	  R::r = 9 * q;
 	  T<Q>::t = 10 * q;
 	  n = q;
 	  f = true;
 	}
     }
   if (a != 7 * n || b != 8 * n || T<Q>::t != 10 * n)
     __builtin_abort ();
   #pragma omp parallel private (a, T<Q>::t, A::b, r)
     {
       int q = omp_get_thread_num ();
       a = q;
       b = 2 * q;
       r = 3 * q;
       T<Q>::t = 4 * q;
       take (a, b, r, T<Q>::t);
       #pragma omp single copyprivate (A::a, T<Q>::t, b, R::r)
 	n = q;
       if (a != n || b != 2 * n || r != 3 * n || T<Q>::t != 4 * n)
 	__builtin_abort ();
     }
   a = 0;
   b = 0;
   R::r = 0;
   T<Q>::t = 0;
   #pragma omp parallel for reduction (+: A::a, T<Q>::t, b, R::r)
   for (int i = 0; i < 30; i++)
     {
       a += i;
       A::b += 2 * i;
       r += 3 * i;
       T<Q>::t += 4 * i;
       take (a, b, r, T<Q>::t);
     }
   if (A::a != 435 || b != 2 * 435 || R::r != 3 * 435 || T<Q>::t != 4 * 435)
     __builtin_abort ();
 }

 int
 main ()
 {
   A<int> a;
   a.m1 ();
   A<int &> b;
   b.m1 ();
 }
	// { dg-do run }

	#include <omp.h>

	int c, d, e;
	struct R { R () {}; ~R () {}; int r; };
	template <typename Q>
	struct T { T () : t(d) {}; virtual ~T () {}; Q t; };
	template <typename Q>
	struct A : public R, virtual public T<Q> { A () : b(c), a(e) {} Q a; int &b; void m1 (); };

	void
	take (int &a, int &b, int &c, int &d)
	{
	asm volatile ("" : : "g" (&a), "g" (&b), "g" (&c), "g" (&d) : "memory");
	}

	template <typename Q>
	void
	A<Q>::m1 ()
	{
	#pragma omp parallel private (a, r, T<Q>::t, A::b)
	{
	int q = omp_get_thread_num ();
	a = q;
	r = 2 * q;
	T<Q>::t = 3 * q;
	b = 4 * q;
	take (a, r, T<Q>::t, b);
	#pragma omp barrier
	if (A::a != q \|\| R::r != 2 * q \|\| T<Q>::t != 3 * q \|\| A::b != 4 * q)
	__builtin_abort ();
	}
	a = 7;
	r = 8;
	T<Q>::t = 9;
	b = 10;
	#pragma omp parallel firstprivate (A::a, R::r, T<Q>::t, b)
	{
	int q = omp_get_thread_num ();
	take (A::a, R::r, T<Q>::t, A::b);
	if (a != 7 \|\| r != 8 \|\| T<Q>::t != 9 \|\| b != 10)
	__builtin_abort ();
	A::a = 5 * q;
	R::r = 6 * q;
	T<Q>::t = 7 * q;
	A::b = 8 * q;
	take (a, r, T<Q>::t, b);
	#pragma omp barrier
	if (a != 5 * q \|\| r != 6 * q \|\| T<Q>::t != 7 * q \|\| b != 8 * q)
	__builtin_abort ();
	}
	bool f = false;
	a = -5;
	b = -4;
	r = -3;
	T<Q>::t = -2;
	int n;
	#pragma omp parallel for firstprivate (a, T<Q>::t, b, f) lastprivate (A::a, r, T<Q>::t, n)
	for (int i = 0; i < omp_get_num_threads (); i++)
	{
	int q = omp_get_thread_num ();
	if (!f)
	{
	if (A::a != -5 \|\| A::b != -4 \|\| T<Q>::t != -2)
	__builtin_abort ();
	}
	else if (a != q \|\| b != 2 * q \|\| r != 3 * q \|\| T<Q>::t != 4 * q)
	__builtin_abort ();
	take (a, r, T<Q>::t, b);
	A::a = q;
	A::b = 2 * q;
	R::r = 3 * q;
	T<Q>::t = 4 * q;
	n = q;
	f = true;
	}
	if (a != n \|\| r != 3 * n \|\| T<Q>::t != 4 * n)
	__builtin_abort ();
	b = 8;
	#pragma omp parallel
	#pragma omp single
	for (int i = 0; i < 5; i++)
	#pragma omp task firstprivate (T<Q>::t, b, n) private (a, R::r)
	{
	if (T<Q>::t != 4 * n \|\| b != 8)
	__builtin_abort ();
	a = 9;
	r = 8;
	T<Q>::t = 12;
	b = 18;
	take (a, r, T<Q>::t, b);
	if (a != 9 \|\| r != 8 \|\| T<Q>::t != 12 \|\| b != 18)
	__builtin_abort ();
	}
	a = 1;
	b = 2;
	R::r = 3;
	T<Q>::t = 4;
	#pragma omp parallel private (f)
	{
	f = false;
	#pragma omp single
	#pragma omp taskloop firstprivate (r, T<Q>::t, b, f) lastprivate (a, T<Q>::t, b, n)
	for (int i = 0; i < 30; i++)
	{
	int q = omp_get_thread_num ();
	if (!f)
	{
	if (R::r != 3 \|\| A::b != 2 \|\| T<Q>::t != 4)
	__builtin_abort ();
	}
	else if (a != 7 * q \|\| b != 8 * q \|\| r != 9 * q \|\| T<Q>::t != 10 * q)
	__builtin_abort ();
	take (a, r, T<Q>::t, b);
	A::a = 7 * q;
	A::b = 8 * q;
	R::r = 9 * q;
	T<Q>::t = 10 * q;
	n = q;
	f = true;
	}
	}
	if (a != 7 * n \|\| b != 8 * n \|\| T<Q>::t != 10 * n)
	__builtin_abort ();
	a = 1;
	b = 2;
	R::r = 3;
	T<Q>::t = 4;
	#pragma omp parallel private (f)
	{
	f = false;
	#pragma omp single
	#pragma omp taskloop firstprivate (r, T<Q>::t, b, A::a, f)
	for (int i = 0; i < 30; i++)
	{
	int q = omp_get_thread_num ();
	if (!f)
	{
	if (A::a != 1 \|\| R::r != 3 \|\| A::b != 2 \|\| T<Q>::t != 4)
	__builtin_abort ();
	}
	else if (a != 7 * q \|\| b != 8 * q \|\| r != 9 * q \|\| T<Q>::t != 10 * q)
	__builtin_abort ();
	take (a, r, T<Q>::t, b);
	A::a = 7 * q;
	A::b = 8 * q;
	R::r = 9 * q;
	T<Q>::t = 10 * q;
	f = true;
	}
	}
	#pragma omp parallel private (f)
	{
	f = false;
	#pragma omp single
	#pragma omp taskloop lastprivate (a, T<Q>::t, b, n) private (R::r)
	for (int i = 0; i < 30; i++)
	{
	int q = omp_get_thread_num ();
	if (f && (a != 7 * q \|\| b != 8 * q \|\| r != 9 * q \|\| T<Q>::t != 10 * q))
	__builtin_abort ();
	take (a, r, T<Q>::t, b);
	A::a = 7 * q;
	A::b = 8 * q;
	R::r = 9 * q;
	T<Q>::t = 10 * q;
	n = q;
	f = true;
	}
	}
	if (a != 7 * n \|\| b != 8 * n \|\| T<Q>::t != 10 * n)
	__builtin_abort ();
	#pragma omp parallel private (a, T<Q>::t, A::b, r)
	{
	int q = omp_get_thread_num ();
	a = q;
	b = 2 * q;
	r = 3 * q;
	T<Q>::t = 4 * q;
	take (a, b, r, T<Q>::t);
	#pragma omp single copyprivate (A::a, T<Q>::t, b, R::r)
	n = q;
	if (a != n \|\| b != 2 * n \|\| r != 3 * n \|\| T<Q>::t != 4 * n)
	__builtin_abort ();
	}
	a = 0;
	b = 0;
	R::r = 0;
	T<Q>::t = 0;
	#pragma omp parallel for reduction (+: A::a, T<Q>::t, b, R::r)
	for (int i = 0; i < 30; i++)
	{
	a += i;
	A::b += 2 * i;
	r += 3 * i;
	T<Q>::t += 4 * i;
	take (a, b, r, T<Q>::t);
	}
	if (A::a != 435 \|\| b != 2 * 435 \|\| R::r != 3 * 435 \|\| T<Q>::t != 4 * 435)
	__builtin_abort ();
	}

	int
	main ()
	{
	A<int> a;
	a.m1 ();
	A<int &> b;
	b.m1 ();
	}