gcc/testsuite/g++.dg/torture/pr64568.C - gcc - Git at Google

 // { dg-do compile }
 // { dg-additional-options "-std=c++11" }

 namespace std
 {
 typedef long unsigned size_t;
 template <typename> class complex;
 template <typename _Tp> complex<_Tp> operator+(complex<_Tp>, complex<_Tp>)
 {
   complex<_Tp> a = 0;
   a += 0;
   return a;
 }
 template <> struct complex<double>
 {
   complex (int __i) : _M_value{ __i } {}
   int imag ();
   void operator+=(complex __z) { _M_value = __z.imag (); }
   _Complex double _M_value;
 };
 }
 class A
 {
 public:
   A (int);
   std::complex<double> &operator[](int i) { return data_[i]; }
   std::complex<double> *data_;
 };
 struct B
 {
   static std::complex<double>
   apply (std::complex<double> t1, std::complex<double> t2)
   {
     return t1 + t2;
   }
 };
 template <class T1, class> struct C
 {
   static void
   apply (T1 t1, std::complex<double> t2)
   {
     t1 = t2;
   }
 };
 template <class E> class D
 {
 public:
   E operator()();
 };
 class G : public D<G>
 {
 public:
   typedef std::complex<double> value_type;
   value_type operator()(int) { return B::apply (0, 0); }
 };
 template <class E1, class E2> G operator+(D<E1>, D<E2>);
 template <template <class, class> class F, class V, class E>
 void
 indexing_vector_assign (V v, D<E> e)
 {
   for (int i;; ++i)
     F<typename V::reference, typename E::value_type>::apply (v (i), e ()(0));
 }
 template <template <class, class> class F, class V, class E>
 void
 vector_assign (V v, D<E> e, int)
 {
   indexing_vector_assign<F> (v, e);
 }
 template <template <class, class> class F, class V, class E>
 void
 vector_assign (V v, D<E> e)
 {
   vector_assign<F> (v, e, typename V::storage_category ());
 }
 class H : public D<int>
 {
 public:
   typedef std::complex<double> &reference;
   typedef int storage_category;
   H (int);
   template <class AE> H (D<AE> ae) : data_ (0)
   {
     vector_assign<C> (*this, ae);
   }
   A
   data ()
   {
     return data_;
   }
   reference operator()(int i) { return data ()[i]; }
   A data_;
 };
 template <class T1, class V1, class T2, class V2>
 void
 rot (T1, V1 v1, T2, V2 v2)
 {
   H (v1 + v2);
 }
 template <class, unsigned long> struct F
 {
   void test ();
 };
 template struct F<H, 3>;
 template <class V, std::size_t N>
 void
 F<V, N>::test ()
 {
   V b (0), c (0);
   rot (0, b, 0, c);
 }
	// { dg-do compile }
	// { dg-additional-options "-std=c++11" }

	namespace std
	{
	typedef long unsigned size_t;
	template <typename> class complex;
	template <typename _Tp> complex<_Tp> operator+(complex<_Tp>, complex<_Tp>)
	{
	complex<_Tp> a = 0;
	a += 0;
	return a;
	}
	template <> struct complex<double>
	{
	complex (int __i) : _M_value{ __i } {}
	int imag ();
	void operator+=(complex __z) { _M_value = __z.imag (); }
	_Complex double _M_value;
	};
	}
	class A
	{
	public:
	A (int);
	std::complex<double> &operator[](int i) { return data_[i]; }
	std::complex<double> *data_;
	};
	struct B
	{
	static std::complex<double>
	apply (std::complex<double> t1, std::complex<double> t2)
	{
	return t1 + t2;
	}
	};
	template <class T1, class> struct C
	{
	static void
	apply (T1 t1, std::complex<double> t2)
	{
	t1 = t2;
	}
	};
	template <class E> class D
	{
	public:
	E operator()();
	};
	class G : public D<G>
	{
	public:
	typedef std::complex<double> value_type;
	value_type operator()(int) { return B::apply (0, 0); }
	};
	template <class E1, class E2> G operator+(D<E1>, D<E2>);
	template <template <class, class> class F, class V, class E>
	void
	indexing_vector_assign (V v, D<E> e)
	{
	for (int i;; ++i)
	F<typename V::reference, typename E::value_type>::apply (v (i), e ()(0));
	}
	template <template <class, class> class F, class V, class E>
	void
	vector_assign (V v, D<E> e, int)
	{
	indexing_vector_assign<F> (v, e);
	}
	template <template <class, class> class F, class V, class E>
	void
	vector_assign (V v, D<E> e)
	{
	vector_assign<F> (v, e, typename V::storage_category ());
	}
	class H : public D<int>
	{
	public:
	typedef std::complex<double> &reference;
	typedef int storage_category;
	H (int);
	template <class AE> H (D<AE> ae) : data_ (0)
	{
	vector_assign<C> (*this, ae);
	}
	A
	data ()
	{
	return data_;
	}
	reference operator()(int i) { return data ()[i]; }
	A data_;
	};
	template <class T1, class V1, class T2, class V2>
	void
	rot (T1, V1 v1, T2, V2 v2)
	{
	H (v1 + v2);
	}
	template <class, unsigned long> struct F
	{
	void test ();
	};
	template struct F<H, 3>;
	template <class V, std::size_t N>
	void
	F<V, N>::test ()
	{
	V b (0), c (0);
	rot (0, b, 0, c);
	}