libvtv/testsuite/libvtv.cc/template-list.cc - gcc - Git at Google

 // { dg-do run }

 #include <assert.h>

 extern "C" int printf(const char *, ...);

 class Subscriptor
 {
   public:

   Subscriptor() : counter(1) {}

   virtual ~Subscriptor()
   {
     counter--;
     assert(counter == 0);
   }

   private:
     mutable int counter;
 };

 template <int dim> struct Function
 {
   Function(int i): value(dim + i) {}
   int value;
 };

 template <int dim> struct Triangulation
 {

 };

 template <int dim> struct Exercise_2_3
 {
   enum { DIM = dim };
 };

   template <int dim>
   struct SetUpBase : public Subscriptor
   {
       virtual
       const Function<dim> get_boundary_values () const = 0;

       virtual
       const Function<dim> get_right_hand_side () const = 0;

     //      virtual
     //      void create_coarse_grid (Triangulation<dim> &coarse_grid) const = 0;
   };

   template <class Traits, int dim>
   struct SetUp : public SetUpBase<dim>
   {
       SetUp () {};

       virtual
       const Function<dim>  get_boundary_values () const
     { return Function<dim>(Traits::DIM); }

       virtual
       const Function<dim>  get_right_hand_side () const
     { return Function<dim>(Traits::DIM); }

     //      virtual
     //      void create_coarse_grid (Triangulation<dim> &coarse_grid) const;

     //      static const typename Traits::BoundaryValues boundary_values;
     //      static const typename Traits::RightHandSide  right_hand_side;
   };


 int main()
 {
   /*

   SetUp<Exercise_2_3<1000>, 2> s1a;
   SetUp<Exercise_2_3<2000>, 1> s2;
   SetUp<Exercise_2_3<2000>, 2> s2a;
   return s1->get_boundary_values().value + s1a.get_boundary_values().value +
       s2.get_boundary_values().value + s2a.get_boundary_values().value +
       s1->get_right_hand_side().value + s1a.get_right_hand_side().value +
       s2.get_right_hand_side().value + s2a.get_right_hand_side().value;
   */
 #ifndef NFAIL
   SetUp<Exercise_2_3<1000>, 1> * s1 =  new  SetUp<Exercise_2_3<1000>, 1>();
   printf("%d\n", s1->get_boundary_values().value);
   return 0;
 #else
   SetUp<Exercise_2_3<1000>, 1> s1;
   printf("%d\n", s1.get_boundary_values().value);
   return 0;
 #endif
 }
	// { dg-do run }

	#include <assert.h>

	extern "C" int printf(const char *, ...);

	class Subscriptor
	{
	public:

	Subscriptor() : counter(1) {}

	virtual ~Subscriptor()
	{
	counter--;
	assert(counter == 0);
	}

	private:
	mutable int counter;
	};

	template <int dim> struct Function
	{
	Function(int i): value(dim + i) {}
	int value;
	};

	template <int dim> struct Triangulation
	{

	};

	template <int dim> struct Exercise_2_3
	{
	enum { DIM = dim };
	};

	template <int dim>
	struct SetUpBase : public Subscriptor
	{
	virtual
	const Function<dim> get_boundary_values () const = 0;

	virtual
	const Function<dim> get_right_hand_side () const = 0;

	// virtual
	// void create_coarse_grid (Triangulation<dim> &coarse_grid) const = 0;
	};

	template <class Traits, int dim>
	struct SetUp : public SetUpBase<dim>
	{
	SetUp () {};

	virtual
	const Function<dim> get_boundary_values () const
	{ return Function<dim>(Traits::DIM); }

	virtual
	const Function<dim> get_right_hand_side () const
	{ return Function<dim>(Traits::DIM); }

	// virtual
	// void create_coarse_grid (Triangulation<dim> &coarse_grid) const;

	// static const typename Traits::BoundaryValues boundary_values;
	// static const typename Traits::RightHandSide right_hand_side;
	};


	int main()
	{
	/*

	SetUp<Exercise_2_3<1000>, 2> s1a;
	SetUp<Exercise_2_3<2000>, 1> s2;
	SetUp<Exercise_2_3<2000>, 2> s2a;
	return s1->get_boundary_values().value + s1a.get_boundary_values().value +
	s2.get_boundary_values().value + s2a.get_boundary_values().value +
	s1->get_right_hand_side().value + s1a.get_right_hand_side().value +
	s2.get_right_hand_side().value + s2a.get_right_hand_side().value;
	*/
	#ifndef NFAIL
	SetUp<Exercise_2_3<1000>, 1> * s1 = new SetUp<Exercise_2_3<1000>, 1>();
	printf("%d\n", s1->get_boundary_values().value);
	return 0;
	#else
	SetUp<Exercise_2_3<1000>, 1> s1;
	printf("%d\n", s1.get_boundary_values().value);
	return 0;
	#endif
	}