gcc/testsuite/g++.dg/torture/20090706-1.C - gcc - Git at Google

 /* { dg-do compile } */

 namespace std __attribute__ ((__visibility__ ("default"))) {
     template<typename _Tp>     class new_allocator     { };
     template<typename _Tp>     class allocator: public new_allocator<_Tp> { };
     template<typename _Tp, typename _Alloc>     struct _Vector_base     { };
     template<typename _Tp, typename _Alloc = std::allocator<_Tp> >
     class vector : protected _Vector_base<_Tp, _Alloc>     { };
 };
 template<int Dim> class Vector { };
 enum CenteringType { VertexType,  EdgeType,  FaceType,  CellType };
 enum ContinuityType { XDim = 1,  YDim = XDim << 1,  ZDim = YDim << 1 };
 template <int Dim> class Centering {
 public:
     typedef Vector<Dim> Position;
     typedef std::vector<Position> Positions;
     Centering(const Positions &positions);
     Positions positions_m;
 };
 template <int Dim> class CanonicalCentering {
     CanonicalCentering();
     template <class T> static T combine(const T &op1, const T &op2);
     static Centering<Dim>*** centering_table_m;
 };
 template <int Dim> CanonicalCentering<Dim>::CanonicalCentering()
 {
   typename Centering<Dim>::Positions positions[Dim][2];
   enum { x = 0, y, z };
   int cont = 0;
   if (Dim > 1)
     {
       centering_table_m[EdgeType][cont][YDim] =  Centering<Dim>(positions[y][cont]);
       centering_table_m[EdgeType][cont][XDim|YDim] =  Centering<Dim>(combine(positions[x][cont], positions[y][cont]));
     }
   if (Dim > 2)
     {
       centering_table_m[EdgeType][cont][ZDim] =  Centering<Dim>(positions[z][cont]);
       centering_table_m[EdgeType][cont][XDim|ZDim] =  Centering<Dim>(combine(positions[x][cont], positions[z][cont]));
     }
 }
 template class CanonicalCentering<2>;
	/* { dg-do compile } */

	namespace std __attribute__ ((__visibility__ ("default"))) {
	template<typename _Tp> class new_allocator { };
	template<typename _Tp> class allocator: public new_allocator<_Tp> { };
	template<typename _Tp, typename _Alloc> struct _Vector_base { };
	template<typename _Tp, typename _Alloc = std::allocator<_Tp> >
	class vector : protected _Vector_base<_Tp, _Alloc> { };
	};
	template<int Dim> class Vector { };
	enum CenteringType { VertexType, EdgeType, FaceType, CellType };
	enum ContinuityType { XDim = 1, YDim = XDim << 1, ZDim = YDim << 1 };
	template <int Dim> class Centering {
	public:
	typedef Vector<Dim> Position;
	typedef std::vector<Position> Positions;
	Centering(const Positions &positions);
	Positions positions_m;
	};
	template <int Dim> class CanonicalCentering {
	CanonicalCentering();
	template <class T> static T combine(const T &op1, const T &op2);
	static Centering<Dim>*** centering_table_m;
	};
	template <int Dim> CanonicalCentering<Dim>::CanonicalCentering()
	{
	typename Centering<Dim>::Positions positions[Dim][2];
	enum { x = 0, y, z };
	int cont = 0;
	if (Dim > 1)
	{
	centering_table_m[EdgeType][cont][YDim] = Centering<Dim>(positions[y][cont]);
	centering_table_m[EdgeType][cont][XDim\|YDim] = Centering<Dim>(combine(positions[x][cont], positions[y][cont]));
	}
	if (Dim > 2)
	{
	centering_table_m[EdgeType][cont][ZDim] = Centering<Dim>(positions[z][cont]);
	centering_table_m[EdgeType][cont][XDim\|ZDim] = Centering<Dim>(combine(positions[x][cont], positions[z][cont]));
	}
	}
	template class CanonicalCentering<2>;