gcc/testsuite/g++.dg/torture/pr46383.C - gcc - Git at Google

 // { dg-do compile }
 // { dg-additional-options "-Wno-return-type" }

 namespace std {
 template<class,class>struct pair{};
   template<typename _Tp> struct _Vector_base {
       struct _Vector_impl
       {
 	_Tp* _M_start;
 	_Tp* _M_finish;
 	_Tp* _M_end_of_storage;
       };
       _Vector_impl _M_impl;
     };
   template<typename _Tp >
     struct vector : _Vector_base<_Tp>
     {
       vector(const vector& __x);
     };
 }
 namespace boost {
 struct G{};
 template <class T, class U >
 struct modable2
 : G
 { };
 }
 namespace CGAL {
 struct Rep { };
 struct Handle
 {
     Handle() ;
     Handle(const Handle& x) ;
     Rep* PTR;
 };
 template <typename ET_> class Lazy_exact_nt
   : Handle
   , boost::modable2< Lazy_exact_nt<ET_>, int >
   , boost::modable2< Lazy_exact_nt<ET_>, double >
 { };
   struct CC_iterator { };
 struct Triangulation_data_structure_3 {
   typedef CC_iterator                          Vertex_handle;
   typedef CC_iterator                            Cell_handle;
   typedef std::pair<Cell_handle, int>              Facet;
 };
 template < class GT, class Tds_ > struct Triangulation_3 {
   typedef Tds_                                  Tds;
   typedef typename GT::Point_3                 Point;
   typedef typename Tds::Facet                  Facet;
   typedef typename Tds::Vertex_handle          Vertex_handle;
   enum Locate_type { VERTEX=0, EDGE, FACET, CELL, OUTSIDE_CONVEX_HULL, OUTSIDE_AFFINE_HULL };
   Tds _tds;
   bool is_infinite(const Facet & f) const ;
 };
 template < class Gt, class Tds_ > struct Delaunay_triangulation_3 : public Triangulation_3<Gt, Tds_> { };
   namespace Surface_mesher { enum Verbose_flag { VERBOSE, NOT_VERBOSE }; }
 enum Mesher_level_conflict_status { NO_CONFLICT = 0, CONFLICT_BUT_ELEMENT_CAN_BE_RECONSIDERED, CONFLICT_AND_ELEMENT_SHOULD_BE_DROPPED };
 struct Null_mesher_level {
   template <typename P, typename Z> Mesher_level_conflict_status test_point_conflict_from_superior(P, Z) ;
 };
 template < class Tr, class Derived, class Element, class Previous, class Triangulation_traits > struct Mesher_level {
   typedef Tr Triangulation;
   typedef typename Triangulation::Point Point;
   typedef typename Triangulation::Vertex_handle Vertex_handle;
   typedef typename Triangulation_traits::Zone Zone;
   typedef Previous Previous_level;
   Derived& derived() { return static_cast<Derived&>(*this); }
   Previous& previous_level;
   Mesher_level(Previous_level& previous)
     : previous_level(previous)
   { }
   Vertex_handle insert(Point p, Zone& z) ; // { dg-warning "used but never defined" }
   Zone conflicts_zone(const Point& p, Element e) ; // { dg-warning "used but never defined" }
   Element get_next_element() ; // { dg-warning "used but never defined" }
   template <class Mesh_visitor> void before_insertion(Element& e, const Point& p, Zone& zone, Mesh_visitor visitor) {
     visitor.before_insertion(e, p, zone);
   }
   template <class Mesh_visitor> void after_insertion(Vertex_handle vh, Mesh_visitor visitor) {
     derived().after_insertion_impl(vh);
   }
   template <class Mesh_visitor> void after_no_insertion(const Element& e, const Point& p, Zone& zone, Mesh_visitor visitor) {
     visitor.after_no_insertion(e, p, zone);
   }
   template <class Mesh_visitor> void refine(Mesh_visitor visitor)
   {
     Element e = get_next_element();
     const Mesher_level_conflict_status result = try_to_refine_element(e, visitor);
   }
   template <class Mesh_visitor> Mesher_level_conflict_status try_to_refine_element(Element e, Mesh_visitor visitor)
   {
     Point p ;
     Zone zone = conflicts_zone(p, e);
     const Mesher_level_conflict_status result = test_point_conflict(p, zone);
       before_insertion(e, p, zone, visitor);
       Vertex_handle v = insert(p, zone);
       after_insertion(v, visitor);
       after_no_insertion(e, p, zone, visitor);
   }
   Mesher_level_conflict_status test_point_conflict(const Point& p, Zone& zone)
   {
     return previous_level.test_point_conflict_from_superior(p, zone);
   }
 };
 struct Null_mesh_visitor {
   template <typename E, typename P, typename Z> void before_insertion(E, P, Z) const {}
   template <typename E, typename P, typename Z> void after_no_insertion(E, P, Z) const {}
 };
 template <class Tr> struct Triangulation_ref_impl {
   Triangulation_ref_impl(Tr& t);
 };
 template <typename Tr> struct Triangulation_mesher_level_traits_3
 : public Triangulation_ref_impl<Tr>
 {
   typedef typename Tr::Facet Facet;
   Triangulation_mesher_level_traits_3(Tr& t)
     : Triangulation_ref_impl<Tr>(t)
   { }
   struct Zone {
     typedef std::vector<int*> Cells;
     typedef std::vector<Facet> Facets;
     typedef typename Tr::Locate_type Locate_type;
     Locate_type locate_type;
     Cells cells;
     Facets boundary_facets;
     Facets internal_facets;
   };
 };
   namespace Surface_mesher {
     namespace details {
       template <typename Base> struct Triangulation_generator {
         typedef typename Base::Complex_2_in_triangulation_3 C2T3;
         typedef typename C2T3::Triangulation Triangulation;
 	typedef Triangulation Type;
 	typedef Type type;
       };
       template <typename Base> struct Facet_generator {
         typedef typename Triangulation_generator<Base>::type Tr;
 	typedef typename Tr::Facet Type;
 	typedef Type type;
       };
       template <typename Base, typename Self, typename Element, typename PreviousLevel = Null_mesher_level> struct Mesher_level_generator {
         typedef typename Base::Complex_2_in_triangulation_3 C2T3;
         typedef typename C2T3::Triangulation Triangulation;
         typedef Triangulation_mesher_level_traits_3<Triangulation> Tr_m_l_traits_3;
         typedef Mesher_level <Triangulation, Self, Element, PreviousLevel, Tr_m_l_traits_3> Type;
       };
     }
   template < class C2T3, class Surface_, class SurfaceMeshTraits, class Criteria_ > struct Surface_mesher_base
     : public Triangulation_mesher_level_traits_3<typename C2T3::Triangulation>
   {
     typedef C2T3 Complex_2_in_triangulation_3;
     typedef Surface_ Surface;
     typedef SurfaceMeshTraits Surface_mesh_traits;
     typedef Criteria_ Criteria;
     typedef typename C2T3::Triangulation Tr;
     typedef typename Tr::Vertex_handle Vertex_handle;
     typedef typename Tr::Facet Facet;
     Surface_mesher_base (C2T3& co, const Surface& s, const Surface_mesh_traits& mesh_traits, const Criteria& c)
 : Triangulation_mesher_level_traits_3<Tr>(co.triangulation()), c2t3(co), tr(co.triangulation()), surf(s), meshtraits(mesh_traits), criteria(c)
     { }
     C2T3& c2t3;
     Tr& tr;
     const Surface& surf;
     const Surface_mesh_traits& meshtraits;
     const Criteria& criteria;
     void after_insertion_impl(const Vertex_handle& v) {
 	after_insertion_handle_opposite_facet (Facet ());
 	after_insertion_handle_incident_facet (Facet ());
     }
     void after_insertion_handle_incident_facet (const Facet& f) {
       tr.is_infinite(f) ;
       new_facet<false>(f);
     }
     template <bool remove_from_complex_if_not_in_restricted_Delaunay> void new_facet (const Facet& f) ; // { dg-warning "used but never defined" }
     void after_insertion_handle_opposite_facet (const Facet& f) {
       after_insertion_handle_incident_facet (f);
     }
   };
   template < typename Base, typename Element = typename details::Facet_generator<Base>::type, typename PreviousLevel = Null_mesher_level, Verbose_flag verbose = NOT_VERBOSE > struct Surface_mesher
     : public Base , public details::Mesher_level_generator< Base, Surface_mesher<Base, Element, PreviousLevel, verbose>, Element, PreviousLevel >::Type
   {
     typedef typename Base::Complex_2_in_triangulation_3 C2T3;
     typedef typename Base::Surface Surface;
     typedef typename Base::Criteria Criteria;
     typedef typename Base::Surface_mesh_traits Surface_mesh_traits;
     typedef typename details::Mesher_level_generator< Base, Surface_mesher<Base, Element, PreviousLevel, verbose>, Element, PreviousLevel >::Type Mesher_lvl;
     using Mesher_lvl::refine;
     Null_mesher_level null_mesher_level;
     Null_mesh_visitor null_visitor;
     bool initialized;
     Surface_mesher(C2T3& c2t3, const Surface& surface, const Surface_mesh_traits& mesh_traits, const Criteria& criteria)
       : Base(c2t3, surface, mesh_traits, criteria), Mesher_lvl(null_mesher_level), initialized(false)
     { }
     void refine_mesh () {
       refine(null_visitor);
     }
   };
   }
 template <typename Surface> struct Surface_mesh_traits_generator_3 {
   typedef typename Surface::Surface_mesher_traits_3 Type;
   typedef Type type;
 };
 template < class Tr, typename Edge_info_ = void > struct Complex_2_in_triangulation_3 {
   typedef Tr Triangulation;
   Triangulation& triangulation();
 };
 template <class Tr> struct Surface_mesh_complex_2_in_triangulation_3
 : public Complex_2_in_triangulation_3<Tr>
 { };
   struct Non_manifold_tag {};
   template < typename C2T3, typename SurfaceMeshTraits_3, typename Criteria, typename Tag > struct Make_surface_mesh_helper {
     typedef Surface_mesher::Surface_mesher_base< C2T3, typename SurfaceMeshTraits_3::Surface_3, SurfaceMeshTraits_3, Criteria> Mesher_base;
   };
   template <typename C2T3, typename SurfaceMeshTraits_3, typename Criteria, typename Tag, Surface_mesher::Verbose_flag verbosity = Surface_mesher::NOT_VERBOSE > struct Surface_mesher_generator {
     typedef typename Make_surface_mesh_helper< C2T3, SurfaceMeshTraits_3, Criteria, Tag>::Mesher_base Mesher_base;
     typedef Surface_mesher::Surface_mesher< Mesher_base, typename Surface_mesher::details::Facet_generator<Mesher_base>::type, Null_mesher_level, verbosity> Mesher;
     typedef Mesher type;
   };
 template <typename C2T3, typename SurfaceMeshTraits_3, typename Criteria> void make_surface_mesh(C2T3& c2t3, const typename SurfaceMeshTraits_3::Surface_3& surface, const SurfaceMeshTraits_3& surface_mesh_traits, const Criteria& criteria) {
   typedef typename Surface_mesher_generator< C2T3, SurfaceMeshTraits_3, Criteria, Non_manifold_tag, Surface_mesher::NOT_VERBOSE >::type Mesher;
   Mesher mesher(c2t3, surface, surface_mesh_traits, criteria);
   mesher.refine_mesh();
 }
 template <class Kernel> struct Surface_mesh_triangulation_generator_3 {
   typedef CGAL::Triangulation_data_structure_3 Tds;
   typedef CGAL::Delaunay_triangulation_3<Kernel, Tds> Type;
 };
   namespace Surface_mesher {
   namespace { struct Return_min { }; }
   template < class GT, class Surface, class Unused = Return_min > struct Implicit_surface_oracle_3 {
     typedef Surface Surface_3;
   };
   }
   template< typename GT> struct Implicit_surface_3 {
     typedef GT Geom_traits;
     typedef Implicit_surface_3<Geom_traits > Self;
     typedef Surface_mesher::Implicit_surface_oracle_3< Geom_traits, Self> Surface_mesher_traits_3;
   };
 }
 struct K {
 struct Point_3 {
 CGAL::Lazy_exact_nt<double> a[3];
 };
 };
 typedef CGAL::Surface_mesh_triangulation_generator_3<K>::Type Tr;
 typedef CGAL::Surface_mesh_complex_2_in_triangulation_3<Tr> C2T3;
 typedef CGAL::Implicit_surface_3<K > Surface;
 typedef CGAL::Surface_mesh_traits_generator_3<Surface>::type Traits;
 void f() {
 	C2T3 c2t3 ;
 	CGAL::make_surface_mesh(c2t3, Surface(), Traits(), 3);
 }
	// { dg-do compile }
	// { dg-additional-options "-Wno-return-type" }

	namespace std {
	template<class,class>struct pair{};
	template<typename _Tp> struct _Vector_base {
	struct _Vector_impl
	{
	_Tp* _M_start;
	_Tp* _M_finish;
	_Tp* _M_end_of_storage;
	};
	_Vector_impl _M_impl;
	};
	template<typename _Tp >
	struct vector : _Vector_base<_Tp>
	{
	vector(const vector& __x);
	};
	}
	namespace boost {
	struct G{};
	template <class T, class U >
	struct modable2
	: G
	{ };
	}
	namespace CGAL {
	struct Rep { };
	struct Handle
	{
	Handle() ;
	Handle(const Handle& x) ;
	Rep* PTR;
	};
	template <typename ET_> class Lazy_exact_nt
	: Handle
	, boost::modable2< Lazy_exact_nt<ET_>, int >
	, boost::modable2< Lazy_exact_nt<ET_>, double >
	{ };
	struct CC_iterator { };
	struct Triangulation_data_structure_3 {
	typedef CC_iterator Vertex_handle;
	typedef CC_iterator Cell_handle;
	typedef std::pair<Cell_handle, int> Facet;
	};
	template < class GT, class Tds_ > struct Triangulation_3 {
	typedef Tds_ Tds;
	typedef typename GT::Point_3 Point;
	typedef typename Tds::Facet Facet;
	typedef typename Tds::Vertex_handle Vertex_handle;
	enum Locate_type { VERTEX=0, EDGE, FACET, CELL, OUTSIDE_CONVEX_HULL, OUTSIDE_AFFINE_HULL };
	Tds _tds;
	bool is_infinite(const Facet & f) const ;
	};
	template < class Gt, class Tds_ > struct Delaunay_triangulation_3 : public Triangulation_3<Gt, Tds_> { };
	namespace Surface_mesher { enum Verbose_flag { VERBOSE, NOT_VERBOSE }; }
	enum Mesher_level_conflict_status { NO_CONFLICT = 0, CONFLICT_BUT_ELEMENT_CAN_BE_RECONSIDERED, CONFLICT_AND_ELEMENT_SHOULD_BE_DROPPED };
	struct Null_mesher_level {
	template <typename P, typename Z> Mesher_level_conflict_status test_point_conflict_from_superior(P, Z) ;
	};
	template < class Tr, class Derived, class Element, class Previous, class Triangulation_traits > struct Mesher_level {
	typedef Tr Triangulation;
	typedef typename Triangulation::Point Point;
	typedef typename Triangulation::Vertex_handle Vertex_handle;
	typedef typename Triangulation_traits::Zone Zone;
	typedef Previous Previous_level;
	Derived& derived() { return static_cast<Derived&>(*this); }
	Previous& previous_level;
	Mesher_level(Previous_level& previous)
	: previous_level(previous)
	{ }
	Vertex_handle insert(Point p, Zone& z) ; // { dg-warning "used but never defined" }
	Zone conflicts_zone(const Point& p, Element e) ; // { dg-warning "used but never defined" }
	Element get_next_element() ; // { dg-warning "used but never defined" }
	template <class Mesh_visitor> void before_insertion(Element& e, const Point& p, Zone& zone, Mesh_visitor visitor) {
	visitor.before_insertion(e, p, zone);
	}
	template <class Mesh_visitor> void after_insertion(Vertex_handle vh, Mesh_visitor visitor) {
	derived().after_insertion_impl(vh);
	}
	template <class Mesh_visitor> void after_no_insertion(const Element& e, const Point& p, Zone& zone, Mesh_visitor visitor) {
	visitor.after_no_insertion(e, p, zone);
	}
	template <class Mesh_visitor> void refine(Mesh_visitor visitor)
	{
	Element e = get_next_element();
	const Mesher_level_conflict_status result = try_to_refine_element(e, visitor);
	}
	template <class Mesh_visitor> Mesher_level_conflict_status try_to_refine_element(Element e, Mesh_visitor visitor)
	{
	Point p ;
	Zone zone = conflicts_zone(p, e);
	const Mesher_level_conflict_status result = test_point_conflict(p, zone);
	before_insertion(e, p, zone, visitor);
	Vertex_handle v = insert(p, zone);
	after_insertion(v, visitor);
	after_no_insertion(e, p, zone, visitor);
	}
	Mesher_level_conflict_status test_point_conflict(const Point& p, Zone& zone)
	{
	return previous_level.test_point_conflict_from_superior(p, zone);
	}
	};
	struct Null_mesh_visitor {
	template <typename E, typename P, typename Z> void before_insertion(E, P, Z) const {}
	template <typename E, typename P, typename Z> void after_no_insertion(E, P, Z) const {}
	};
	template <class Tr> struct Triangulation_ref_impl {
	Triangulation_ref_impl(Tr& t);
	};
	template <typename Tr> struct Triangulation_mesher_level_traits_3
	: public Triangulation_ref_impl<Tr>
	{
	typedef typename Tr::Facet Facet;
	Triangulation_mesher_level_traits_3(Tr& t)
	: Triangulation_ref_impl<Tr>(t)
	{ }
	struct Zone {
	typedef std::vector<int*> Cells;
	typedef std::vector<Facet> Facets;
	typedef typename Tr::Locate_type Locate_type;
	Locate_type locate_type;
	Cells cells;
	Facets boundary_facets;
	Facets internal_facets;
	};
	};
	namespace Surface_mesher {
	namespace details {
	template <typename Base> struct Triangulation_generator {
	typedef typename Base::Complex_2_in_triangulation_3 C2T3;
	typedef typename C2T3::Triangulation Triangulation;
	typedef Triangulation Type;
	typedef Type type;
	};
	template <typename Base> struct Facet_generator {
	typedef typename Triangulation_generator<Base>::type Tr;
	typedef typename Tr::Facet Type;
	typedef Type type;
	};
	template <typename Base, typename Self, typename Element, typename PreviousLevel = Null_mesher_level> struct Mesher_level_generator {
	typedef typename Base::Complex_2_in_triangulation_3 C2T3;
	typedef typename C2T3::Triangulation Triangulation;
	typedef Triangulation_mesher_level_traits_3<Triangulation> Tr_m_l_traits_3;
	typedef Mesher_level <Triangulation, Self, Element, PreviousLevel, Tr_m_l_traits_3> Type;
	};
	}
	template < class C2T3, class Surface_, class SurfaceMeshTraits, class Criteria_ > struct Surface_mesher_base
	: public Triangulation_mesher_level_traits_3<typename C2T3::Triangulation>
	{
	typedef C2T3 Complex_2_in_triangulation_3;
	typedef Surface_ Surface;
	typedef SurfaceMeshTraits Surface_mesh_traits;
	typedef Criteria_ Criteria;
	typedef typename C2T3::Triangulation Tr;
	typedef typename Tr::Vertex_handle Vertex_handle;
	typedef typename Tr::Facet Facet;
	Surface_mesher_base (C2T3& co, const Surface& s, const Surface_mesh_traits& mesh_traits, const Criteria& c)
	: Triangulation_mesher_level_traits_3<Tr>(co.triangulation()), c2t3(co), tr(co.triangulation()), surf(s), meshtraits(mesh_traits), criteria(c)
	{ }
	C2T3& c2t3;
	Tr& tr;
	const Surface& surf;
	const Surface_mesh_traits& meshtraits;
	const Criteria& criteria;
	void after_insertion_impl(const Vertex_handle& v) {
	after_insertion_handle_opposite_facet (Facet ());
	after_insertion_handle_incident_facet (Facet ());
	}
	void after_insertion_handle_incident_facet (const Facet& f) {
	tr.is_infinite(f) ;
	new_facet<false>(f);
	}
	template <bool remove_from_complex_if_not_in_restricted_Delaunay> void new_facet (const Facet& f) ; // { dg-warning "used but never defined" }
	void after_insertion_handle_opposite_facet (const Facet& f) {
	after_insertion_handle_incident_facet (f);
	}
	};
	template < typename Base, typename Element = typename details::Facet_generator<Base>::type, typename PreviousLevel = Null_mesher_level, Verbose_flag verbose = NOT_VERBOSE > struct Surface_mesher
	: public Base , public details::Mesher_level_generator< Base, Surface_mesher<Base, Element, PreviousLevel, verbose>, Element, PreviousLevel >::Type
	{
	typedef typename Base::Complex_2_in_triangulation_3 C2T3;
	typedef typename Base::Surface Surface;
	typedef typename Base::Criteria Criteria;
	typedef typename Base::Surface_mesh_traits Surface_mesh_traits;
	typedef typename details::Mesher_level_generator< Base, Surface_mesher<Base, Element, PreviousLevel, verbose>, Element, PreviousLevel >::Type Mesher_lvl;
	using Mesher_lvl::refine;
	Null_mesher_level null_mesher_level;
	Null_mesh_visitor null_visitor;
	bool initialized;
	Surface_mesher(C2T3& c2t3, const Surface& surface, const Surface_mesh_traits& mesh_traits, const Criteria& criteria)
	: Base(c2t3, surface, mesh_traits, criteria), Mesher_lvl(null_mesher_level), initialized(false)
	{ }
	void refine_mesh () {
	refine(null_visitor);
	}
	};
	}
	template <typename Surface> struct Surface_mesh_traits_generator_3 {
	typedef typename Surface::Surface_mesher_traits_3 Type;
	typedef Type type;
	};
	template < class Tr, typename Edge_info_ = void > struct Complex_2_in_triangulation_3 {
	typedef Tr Triangulation;
	Triangulation& triangulation();
	};
	template <class Tr> struct Surface_mesh_complex_2_in_triangulation_3
	: public Complex_2_in_triangulation_3<Tr>
	{ };
	struct Non_manifold_tag {};
	template < typename C2T3, typename SurfaceMeshTraits_3, typename Criteria, typename Tag > struct Make_surface_mesh_helper {
	typedef Surface_mesher::Surface_mesher_base< C2T3, typename SurfaceMeshTraits_3::Surface_3, SurfaceMeshTraits_3, Criteria> Mesher_base;
	};
	template <typename C2T3, typename SurfaceMeshTraits_3, typename Criteria, typename Tag, Surface_mesher::Verbose_flag verbosity = Surface_mesher::NOT_VERBOSE > struct Surface_mesher_generator {
	typedef typename Make_surface_mesh_helper< C2T3, SurfaceMeshTraits_3, Criteria, Tag>::Mesher_base Mesher_base;
	typedef Surface_mesher::Surface_mesher< Mesher_base, typename Surface_mesher::details::Facet_generator<Mesher_base>::type, Null_mesher_level, verbosity> Mesher;
	typedef Mesher type;
	};
	template <typename C2T3, typename SurfaceMeshTraits_3, typename Criteria> void make_surface_mesh(C2T3& c2t3, const typename SurfaceMeshTraits_3::Surface_3& surface, const SurfaceMeshTraits_3& surface_mesh_traits, const Criteria& criteria) {
	typedef typename Surface_mesher_generator< C2T3, SurfaceMeshTraits_3, Criteria, Non_manifold_tag, Surface_mesher::NOT_VERBOSE >::type Mesher;
	Mesher mesher(c2t3, surface, surface_mesh_traits, criteria);
	mesher.refine_mesh();
	}
	template <class Kernel> struct Surface_mesh_triangulation_generator_3 {
	typedef CGAL::Triangulation_data_structure_3 Tds;
	typedef CGAL::Delaunay_triangulation_3<Kernel, Tds> Type;
	};
	namespace Surface_mesher {
	namespace { struct Return_min { }; }
	template < class GT, class Surface, class Unused = Return_min > struct Implicit_surface_oracle_3 {
	typedef Surface Surface_3;
	};
	}
	template< typename GT> struct Implicit_surface_3 {
	typedef GT Geom_traits;
	typedef Implicit_surface_3<Geom_traits > Self;
	typedef Surface_mesher::Implicit_surface_oracle_3< Geom_traits, Self> Surface_mesher_traits_3;
	};
	}
	struct K {
	struct Point_3 {
	CGAL::Lazy_exact_nt<double> a[3];
	};
	};
	typedef CGAL::Surface_mesh_triangulation_generator_3<K>::Type Tr;
	typedef CGAL::Surface_mesh_complex_2_in_triangulation_3<Tr> C2T3;
	typedef CGAL::Implicit_surface_3<K > Surface;
	typedef CGAL::Surface_mesh_traits_generator_3<Surface>::type Traits;
	void f() {
	C2T3 c2t3 ;
	CGAL::make_surface_mesh(c2t3, Surface(), Traits(), 3);
	}