#ifndef CGAL_VECTOR_VECTOR_H #define CGAL_VECTOR_VECTOR_H #include #include #include #include #include #include #include namespace CGAL { //Derive from a class that doesn't depend on Dim, or still use Dim for checking? template struct Vector_vector { typedef NT_ NT; typedef Dim_ Dimension; typedef Max_dim_ Max_dimension; typedef std::vector Vector; template< class D2, class D3=D2 > struct Rebind_dimension { typedef Vector_vector< NT, D2, D3 > Other; }; template struct Property : boost::false_type {}; struct Construct_vector { struct Dimension { Vector operator()(int d) const { return Vector(d); } }; struct Iterator { template Vector operator()(int d,Iter const& f,Iter const& e) const { CGAL_assertion(d==std::distance(f,e)); return Vector(f,e); } }; // unneeded thanks to Iterator_and_last? #if 0 struct Iterator_add_one { template Vector operator()(int d,Iter const& f,Iter const& e) const { CGAL_assertion(d==std::distance(f,e)+1); Vector a; a.reserve(d+1); a.insert(a.end(),f,e); a.push_back(1); return a; } }; #endif struct Iterator_and_last { template Vector operator()(int d,Iter const& f,Iter const& e,CGAL_FORWARDABLE(T) t) const { CGAL_assertion(d==std::distance(f,e)+1); Vector a; a.reserve(d+1); a.insert(a.end(),f,e); a.push_back(CGAL_FORWARD(T,t)); return a; } }; // useless, use a transform_iterator? #if 0 struct Iterator_and_last_divide { template Vector operator()(int d,Iter f,Iter const& e,T const&t) const { CGAL_assertion(d==std::distance(f,e)+1); Vector a; a.reserve(d+1); for(;f!=e;++f){ a.push_back(*f/t); } return a; } }; #endif struct Values { #ifdef CGAL_CXX0X template Vector operator()(U&&...u) const { //TODO: check the right number of {}, g++ accepts one and two Vector a={forward_safe(u)...}; return a; } #else #define VAR(Z,N,_) a.push_back(t##N); #define CODE(Z,N,_) Vector operator()(BOOST_PP_ENUM_PARAMS(N,NT const& t)) const { \ Vector a; \ a.reserve(N); \ BOOST_PP_REPEAT(N,VAR,) \ return a; \ } BOOST_PP_REPEAT_FROM_TO(1, 11, CODE, _ ) #undef CODE #undef VAR #endif }; struct Values_divide { #ifdef CGAL_CXX0X template Vector operator()(H const&h,U&&...u) const { //TODO: do we want to cast at some point? //e.g. to avoid 1/2 in integers // ==> use Rational_traits().make_rational(x,y) ? Vector a={Rational_traits().make_rational(std::forward(u),h)...}; return a; } #else #define VAR(Z,N,_) a.push_back(Rational_traits().make_rational( t##N ,h)); #define CODE(Z,N,_) template Vector \ operator()(H const&h, BOOST_PP_ENUM_PARAMS(N,NT const& t)) const { \ Vector a; \ a.reserve(N); \ BOOST_PP_REPEAT(N,VAR,) \ return a; \ } BOOST_PP_REPEAT_FROM_TO(1, 11, CODE, _ ) #undef CODE #undef VAR #endif }; }; typedef typename Vector::const_iterator Vector_const_iterator; static Vector_const_iterator vector_begin(Vector const&a){ return a.begin(); } static Vector_const_iterator vector_end(Vector const&a){ return a.end(); } static int size_of_vector(Vector const&a){ return a.size(); } }; } #endif