libgomp/testsuite/libgomp.c++/member-5.C - gcc - Git at Google

 // { dg-do run }

 typedef __PTRDIFF_TYPE__ ptrdiff_t;

 template <typename T>
 class I
 {
 public:
   typedef ptrdiff_t difference_type;
   I ();
   ~I ();
   I (T *);
   I (const I &);
   T &operator * ();
   T *operator -> ();
   T &operator [] (const difference_type &) const;
   I &operator = (const I &);
   I &operator ++ ();
   I operator ++ (int);
   I &operator -- ();
   I operator -- (int);
   I &operator += (const difference_type &);
   I &operator -= (const difference_type &);
   I operator + (const difference_type &) const;
   I operator - (const difference_type &) const;
   template <typename S> friend bool operator == (I<S> &, I<S> &);
   template <typename S> friend bool operator == (const I<S> &, const I<S> &);
   template <typename S> friend bool operator < (I<S> &, I<S> &);
   template <typename S> friend bool operator < (const I<S> &, const I<S> &);
   template <typename S> friend bool operator <= (I<S> &, I<S> &);
   template <typename S> friend bool operator <= (const I<S> &, const I<S> &);
   template <typename S> friend bool operator > (I<S> &, I<S> &);
   template <typename S> friend bool operator > (const I<S> &, const I<S> &);
   template <typename S> friend bool operator >= (I<S> &, I<S> &);
   template <typename S> friend bool operator >= (const I<S> &, const I<S> &);
   template <typename S> friend typename I<S>::difference_type operator - (I<S> &, I<S> &);
   template <typename S> friend typename I<S>::difference_type operator - (const I<S> &, const I<S> &);
   template <typename S> friend I<S> operator + (typename I<S>::difference_type , const I<S> &);
 private:
   T *p;
 };
 template <typename T> I<T>::I () : p (0) {}
 template <typename T> I<T>::~I () {}
 template <typename T> I<T>::I (T *x) : p (x) {}
 template <typename T> I<T>::I (const I &x) : p (x.p) {}
 template <typename T> T &I<T>::operator * () { return *p; }
 template <typename T> T *I<T>::operator -> () { return p; }
 template <typename T> T &I<T>::operator [] (const difference_type &x) const { return p[x]; }
 template <typename T> I<T> &I<T>::operator = (const I &x) { p = x.p; return *this; }
 template <typename T> I<T> &I<T>::operator ++ () { ++p; return *this; }
 template <typename T> I<T> I<T>::operator ++ (int) { return I (p++); }
 template <typename T> I<T> &I<T>::operator -- () { --p; return *this; }
 template <typename T> I<T> I<T>::operator -- (int) { return I (p--); }
 template <typename T> I<T> &I<T>::operator += (const difference_type &x) { p += x; return *this; }
 template <typename T> I<T> &I<T>::operator -= (const difference_type &x) { p -= x; return *this; }
 template <typename T> I<T> I<T>::operator + (const difference_type &x) const { return I (p + x); }
 template <typename T> I<T> I<T>::operator - (const difference_type &x) const { return I (p - x); }
 template <typename T> bool operator == (I<T> &x, I<T> &y) { return x.p == y.p; }
 template <typename T> bool operator == (const I<T> &x, const I<T> &y) { return x.p == y.p; }
 template <typename T> bool operator != (I<T> &x, I<T> &y) { return !(x == y); }
 template <typename T> bool operator != (const I<T> &x, const I<T> &y) { return !(x == y); }
 template <typename T> bool operator < (I<T> &x, I<T> &y) { return x.p < y.p; }
 template <typename T> bool operator < (const I<T> &x, const I<T> &y) { return x.p < y.p; }
 template <typename T> bool operator <= (I<T> &x, I<T> &y) { return x.p <= y.p; }
 template <typename T> bool operator <= (const I<T> &x, const I<T> &y) { return x.p <= y.p; }
 template <typename T> bool operator > (I<T> &x, I<T> &y) { return x.p > y.p; }
 template <typename T> bool operator > (const I<T> &x, const I<T> &y) { return x.p > y.p; }
 template <typename T> bool operator >= (I<T> &x, I<T> &y) { return x.p >= y.p; }
 template <typename T> bool operator >= (const I<T> &x, const I<T> &y) { return x.p >= y.p; }
 template <typename T> typename I<T>::difference_type operator - (I<T> &x, I<T> &y) { return x.p - y.p; }
 template <typename T> typename I<T>::difference_type operator - (const I<T> &x, const I<T> &y) { return x.p - y.p; }
 template <typename T> I<T> operator + (typename I<T>::difference_type x, const I<T> &y) { return I<T> (x + y.p); }

 struct R { R () {}; ~R () {}; I<int> r; };
 struct T { T () {}; virtual ~T () {}; I<int> t; };
 struct A : public R, virtual public T { A () {} I<int> a; void m1 (const I<int> &, const I<int> &); };
 template <typename Q>
 struct U { U () {}; virtual ~U () {}; Q t; };
 template <typename Q>
 struct B : public R, virtual public U<Q> { B () {} Q a; void m2 (const Q &, const Q &, const I<int> &, const I<int> &); };

 int d[64];

 void
 A::m1 (const I<int> &x, const I<int> &y)
 {
   int w = 0;
   #pragma omp parallel for private (a) reduction(|:w)
   for (a = x; A::a < y - 33; a += 2)
     w |= (1 << *A::a);
   if (w != 0x55555555)
     __builtin_abort ();
   #pragma omp parallel for lastprivate (t)
   for (T::t = x; t < y - 32; t += 3)
     d[*T::t + 2] |= 1;
   if (*T::t != 33)
     __builtin_abort ();
   for (int i = 0; i < 64; i++)
     if (d[i] != ((i >= 2 && i < 32 + 2 && (i - 2) % 3 == 0) ? 1 : 0))
       __builtin_abort ();
   w = 0;
   #pragma omp parallel for reduction(|:w)
   for (a = x; A::a < y - 33; a += 2)
     w |= (1 << *A::a);
   if (w != 0x55555555)
     __builtin_abort ();
   #pragma omp taskloop
   for (R::r = x; r < y - 32; R::r += 2)
     d[*r + 8] |= 2;
   for (int i = 0; i < 64; i++)
     if (d[i] != (((i >= 2 && i < 32 + 2 && (i - 2) % 3 == 0) ? 1 : 0)
 		 | ((i >= 8 && i < 32 + 8 && (i & 1) == 0) ? 2 : 0)))
       __builtin_abort ();
   #pragma omp taskloop collapse(2)
   for (T::t = x; t < y - 57; t += 2)
     for (a = x; A::a < y - 56; a++)
       d[((*t << 2) | *a) + 3] |= 4;
   for (int i = 0; i < 64; i++)
     if (d[i] != (((i >= 2 && i < 32 + 2 && (i - 2) % 3 == 0) ? 1 : 0)
 		 | ((i >= 8 && i < 32 + 8 && (i & 1) == 0) ? 2 : 0)
 		 | ((i >= 3 && i < 32 + 3) ? 4 : 0)))
       __builtin_abort ();
 }

 template <typename Q>
 void
 B<Q>::m2 (const Q &u, const Q &v, const I<int> &x, const I<int> &y)
 {
   int w = 0;
   #pragma omp parallel for private (a) reduction(|:w)
   for (a = u; B::a < v - 33; a += 2)
     w |= (1 << *B::a);
   if (w != 0x55555555)
     __builtin_abort ();
   #pragma omp parallel for lastprivate (U<Q>::t)
   for (U<Q>::t = u; U<Q>::t < v - 32; U<Q>::t += 3)
     d[*U<Q>::t + 2] |= 1;
   if (*U<Q>::t != 33)
     __builtin_abort ();
   for (int i = 0; i < 64; i++)
     if (d[i] != ((i >= 2 && i < 32 + 2 && (i - 2) % 3 == 0) ? 1 : 0))
       __builtin_abort ();
   w = 0;
   #pragma omp parallel for reduction(|:w)
   for (a = u; B::a < v - 33; a += 2)
     w |= (1 << *B::a);
   if (w != 0x55555555)
     __builtin_abort ();
   #pragma omp taskloop
   for (R::r = x; r < y - 32; R::r += 2)
     d[*r + 8] |= 2;
   for (int i = 0; i < 64; i++)
     if (d[i] != (((i >= 2 && i < 32 + 2 && (i - 2) % 3 == 0) ? 1 : 0)
 		 | ((i >= 8 && i < 32 + 8 && (i & 1) == 0) ? 2 : 0)))
       __builtin_abort ();
   #pragma omp taskloop collapse(2)
   for (U<Q>::t = u; U<Q>::t < v - 57; U<Q>::t += 2)
     for (a = u; B::a < v - 56; a++)
       d[((*U<Q>::t << 2) | *a) + 3] |= 4;
   for (int i = 0; i < 64; i++)
     if (d[i] != (((i >= 2 && i < 32 + 2 && (i - 2) % 3 == 0) ? 1 : 0)
 		 | ((i >= 8 && i < 32 + 8 && (i & 1) == 0) ? 2 : 0)
 		 | ((i >= 3 && i < 32 + 3) ? 4 : 0)))
       __builtin_abort ();
 }

 int
 main ()
 {
   A a;
   int b[128];
   for (int i = 0; i < 128; i++)
     b[i] = i - 32;
   a.m1 (&b[32], &b[96]);
   for (int i = 0; i < 64; i++)
     d[i] = 0;
   B<I<int> > c;
   c.m2 (&b[32], &b[96], &b[32], &b[96]);
   for (int i = 0; i < 64; i++)
     d[i] = 0;
   B<int *> d;
   d.m2 (&b[32], &b[96], &b[32], &b[96]);
 }
	// { dg-do run }

	typedef __PTRDIFF_TYPE__ ptrdiff_t;

	template <typename T>
	class I
	{
	public:
	typedef ptrdiff_t difference_type;
	I ();
	~I ();
	I (T *);
	I (const I &);
	T &operator * ();
	T *operator -> ();
	T &operator [] (const difference_type &) const;
	I &operator = (const I &);
	I &operator ++ ();
	I operator ++ (int);
	I &operator -- ();
	I operator -- (int);
	I &operator += (const difference_type &);
	I &operator -= (const difference_type &);
	I operator + (const difference_type &) const;
	I operator - (const difference_type &) const;
	template <typename S> friend bool operator == (I<S> &, I<S> &);
	template <typename S> friend bool operator == (const I<S> &, const I<S> &);
	template <typename S> friend bool operator < (I<S> &, I<S> &);
	template <typename S> friend bool operator < (const I<S> &, const I<S> &);
	template <typename S> friend bool operator <= (I<S> &, I<S> &);
	template <typename S> friend bool operator <= (const I<S> &, const I<S> &);
	template <typename S> friend bool operator > (I<S> &, I<S> &);
	template <typename S> friend bool operator > (const I<S> &, const I<S> &);
	template <typename S> friend bool operator >= (I<S> &, I<S> &);
	template <typename S> friend bool operator >= (const I<S> &, const I<S> &);
	template <typename S> friend typename I<S>::difference_type operator - (I<S> &, I<S> &);
	template <typename S> friend typename I<S>::difference_type operator - (const I<S> &, const I<S> &);
	template <typename S> friend I<S> operator + (typename I<S>::difference_type , const I<S> &);
	private:
	T *p;
	};
	template <typename T> I<T>::I () : p (0) {}
	template <typename T> I<T>::~I () {}
	template <typename T> I<T>::I (T *x) : p (x) {}
	template <typename T> I<T>::I (const I &x) : p (x.p) {}
	template <typename T> T &I<T>::operator * () { return *p; }
	template <typename T> T *I<T>::operator -> () { return p; }
	template <typename T> T &I<T>::operator [] (const difference_type &x) const { return p[x]; }
	template <typename T> I<T> &I<T>::operator = (const I &x) { p = x.p; return *this; }
	template <typename T> I<T> &I<T>::operator ++ () { ++p; return *this; }
	template <typename T> I<T> I<T>::operator ++ (int) { return I (p++); }
	template <typename T> I<T> &I<T>::operator -- () { --p; return *this; }
	template <typename T> I<T> I<T>::operator -- (int) { return I (p--); }
	template <typename T> I<T> &I<T>::operator += (const difference_type &x) { p += x; return *this; }
	template <typename T> I<T> &I<T>::operator -= (const difference_type &x) { p -= x; return *this; }
	template <typename T> I<T> I<T>::operator + (const difference_type &x) const { return I (p + x); }
	template <typename T> I<T> I<T>::operator - (const difference_type &x) const { return I (p - x); }
	template <typename T> bool operator == (I<T> &x, I<T> &y) { return x.p == y.p; }
	template <typename T> bool operator == (const I<T> &x, const I<T> &y) { return x.p == y.p; }
	template <typename T> bool operator != (I<T> &x, I<T> &y) { return !(x == y); }
	template <typename T> bool operator != (const I<T> &x, const I<T> &y) { return !(x == y); }
	template <typename T> bool operator < (I<T> &x, I<T> &y) { return x.p < y.p; }
	template <typename T> bool operator < (const I<T> &x, const I<T> &y) { return x.p < y.p; }
	template <typename T> bool operator <= (I<T> &x, I<T> &y) { return x.p <= y.p; }
	template <typename T> bool operator <= (const I<T> &x, const I<T> &y) { return x.p <= y.p; }
	template <typename T> bool operator > (I<T> &x, I<T> &y) { return x.p > y.p; }
	template <typename T> bool operator > (const I<T> &x, const I<T> &y) { return x.p > y.p; }
	template <typename T> bool operator >= (I<T> &x, I<T> &y) { return x.p >= y.p; }
	template <typename T> bool operator >= (const I<T> &x, const I<T> &y) { return x.p >= y.p; }
	template <typename T> typename I<T>::difference_type operator - (I<T> &x, I<T> &y) { return x.p - y.p; }
	template <typename T> typename I<T>::difference_type operator - (const I<T> &x, const I<T> &y) { return x.p - y.p; }
	template <typename T> I<T> operator + (typename I<T>::difference_type x, const I<T> &y) { return I<T> (x + y.p); }

	struct R { R () {}; ~R () {}; I<int> r; };
	struct T { T () {}; virtual ~T () {}; I<int> t; };
	struct A : public R, virtual public T { A () {} I<int> a; void m1 (const I<int> &, const I<int> &); };
	template <typename Q>
	struct U { U () {}; virtual ~U () {}; Q t; };
	template <typename Q>
	struct B : public R, virtual public U<Q> { B () {} Q a; void m2 (const Q &, const Q &, const I<int> &, const I<int> &); };

	int d[64];

	void
	A::m1 (const I<int> &x, const I<int> &y)
	{
	int w = 0;
	#pragma omp parallel for private (a) reduction(\|:w)
	for (a = x; A::a < y - 33; a += 2)
	w \|= (1 << *A::a);
	if (w != 0x55555555)
	__builtin_abort ();
	#pragma omp parallel for lastprivate (t)
	for (T::t = x; t < y - 32; t += 3)
	d[*T::t + 2] \|= 1;
	if (*T::t != 33)
	__builtin_abort ();
	for (int i = 0; i < 64; i++)
	if (d[i] != ((i >= 2 && i < 32 + 2 && (i - 2) % 3 == 0) ? 1 : 0))
	__builtin_abort ();
	w = 0;
	#pragma omp parallel for reduction(\|:w)
	for (a = x; A::a < y - 33; a += 2)
	w \|= (1 << *A::a);
	if (w != 0x55555555)
	__builtin_abort ();
	#pragma omp taskloop
	for (R::r = x; r < y - 32; R::r += 2)
	d[*r + 8] \|= 2;
	for (int i = 0; i < 64; i++)
	if (d[i] != (((i >= 2 && i < 32 + 2 && (i - 2) % 3 == 0) ? 1 : 0)
	\| ((i >= 8 && i < 32 + 8 && (i & 1) == 0) ? 2 : 0)))
	__builtin_abort ();
	#pragma omp taskloop collapse(2)
	for (T::t = x; t < y - 57; t += 2)
	for (a = x; A::a < y - 56; a++)
	d[((t << 2) \| a) + 3] \|= 4;
	for (int i = 0; i < 64; i++)
	if (d[i] != (((i >= 2 && i < 32 + 2 && (i - 2) % 3 == 0) ? 1 : 0)
	\| ((i >= 8 && i < 32 + 8 && (i & 1) == 0) ? 2 : 0)
	\| ((i >= 3 && i < 32 + 3) ? 4 : 0)))
	__builtin_abort ();
	}

	template <typename Q>
	void
	B<Q>::m2 (const Q &u, const Q &v, const I<int> &x, const I<int> &y)
	{
	int w = 0;
	#pragma omp parallel for private (a) reduction(\|:w)
	for (a = u; B::a < v - 33; a += 2)
	w \|= (1 << *B::a);
	if (w != 0x55555555)
	__builtin_abort ();
	#pragma omp parallel for lastprivate (U<Q>::t)
	for (U<Q>::t = u; U<Q>::t < v - 32; U<Q>::t += 3)
	d[*U<Q>::t + 2] \|= 1;
	if (*U<Q>::t != 33)
	__builtin_abort ();
	for (int i = 0; i < 64; i++)
	if (d[i] != ((i >= 2 && i < 32 + 2 && (i - 2) % 3 == 0) ? 1 : 0))
	__builtin_abort ();
	w = 0;
	#pragma omp parallel for reduction(\|:w)
	for (a = u; B::a < v - 33; a += 2)
	w \|= (1 << *B::a);
	if (w != 0x55555555)
	__builtin_abort ();
	#pragma omp taskloop
	for (R::r = x; r < y - 32; R::r += 2)
	d[*r + 8] \|= 2;
	for (int i = 0; i < 64; i++)
	if (d[i] != (((i >= 2 && i < 32 + 2 && (i - 2) % 3 == 0) ? 1 : 0)
	\| ((i >= 8 && i < 32 + 8 && (i & 1) == 0) ? 2 : 0)))
	__builtin_abort ();
	#pragma omp taskloop collapse(2)
	for (U<Q>::t = u; U<Q>::t < v - 57; U<Q>::t += 2)
	for (a = u; B::a < v - 56; a++)
	d[((U<Q>::t << 2) \| a) + 3] \|= 4;
	for (int i = 0; i < 64; i++)
	if (d[i] != (((i >= 2 && i < 32 + 2 && (i - 2) % 3 == 0) ? 1 : 0)
	\| ((i >= 8 && i < 32 + 8 && (i & 1) == 0) ? 2 : 0)
	\| ((i >= 3 && i < 32 + 3) ? 4 : 0)))
	__builtin_abort ();
	}

	int
	main ()
	{
	A a;
	int b[128];
	for (int i = 0; i < 128; i++)
	b[i] = i - 32;
	a.m1 (&b[32], &b[96]);
	for (int i = 0; i < 64; i++)
	d[i] = 0;
	B<I<int> > c;
	c.m2 (&b[32], &b[96], &b[32], &b[96]);
	for (int i = 0; i < 64; i++)
	d[i] = 0;
	B<int *> d;
	d.m2 (&b[32], &b[96], &b[32], &b[96]);
	}