diff options
Diffstat (limited to 'src/common/include/gudhi_patches/CGAL/NewKernel_d/function_objects_cartesian.h')
-rw-r--r-- | src/common/include/gudhi_patches/CGAL/NewKernel_d/function_objects_cartesian.h | 1355 |
1 files changed, 0 insertions, 1355 deletions
diff --git a/src/common/include/gudhi_patches/CGAL/NewKernel_d/function_objects_cartesian.h b/src/common/include/gudhi_patches/CGAL/NewKernel_d/function_objects_cartesian.h deleted file mode 100644 index 5a132ad2..00000000 --- a/src/common/include/gudhi_patches/CGAL/NewKernel_d/function_objects_cartesian.h +++ /dev/null @@ -1,1355 +0,0 @@ -// Copyright (c) 2014 -// INRIA Saclay-Ile de France (France) -// -// This file is part of CGAL (www.cgal.org); you can redistribute it and/or -// modify it under the terms of the GNU Lesser General Public License as -// published by the Free Software Foundation; either version 3 of the License, -// or (at your option) any later version. -// -// Licensees holding a valid commercial license may use this file in -// accordance with the commercial license agreement provided with the software. -// -// This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE -// WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. -// -// $URL$ -// $Id$ -// -// Author(s) : Marc Glisse - -#ifndef CGAL_KERNEL_D_FUNCTION_OBJECTS_CARTESIAN_H -#define CGAL_KERNEL_D_FUNCTION_OBJECTS_CARTESIAN_H - -#include <CGAL/NewKernel_d/utils.h> -#include <CGAL/Dimension.h> -#include <CGAL/Uncertain.h> -#include <CGAL/NewKernel_d/store_kernel.h> -#include <CGAL/is_iterator.h> -#include <CGAL/iterator_from_indices.h> -#include <CGAL/number_utils.h> -#include <CGAL/Kernel/Return_base_tag.h> -#include <CGAL/transforming_iterator.h> -#include <CGAL/transforming_pair_iterator.h> -#include <CGAL/NewKernel_d/functor_tags.h> -#include <CGAL/NewKernel_d/functor_properties.h> -#include <CGAL/predicates/sign_of_determinant.h> -#include <functional> -#ifdef CGAL_CXX11 -#include <initializer_list> -#endif - -namespace CGAL { -namespace CartesianDKernelFunctors { -namespace internal { -template<class,int> struct Dimension_at_most { enum { value = false }; }; -template<int a,int b> struct Dimension_at_most<Dimension_tag<a>,b> { - enum { value = (a <= b) }; -}; -} - -template<class R_,class D_=typename R_::Default_ambient_dimension,bool=internal::Dimension_at_most<D_,6>::value> struct Orientation_of_points : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Orientation_of_points) - typedef R_ R; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_type<R, Orientation_tag>::type result_type; - typedef typename R::LA::Square_matrix Matrix; - - template<class Iter> - result_type operator()(Iter f, Iter e)const{ - typename Get_functor<R, Compute_point_cartesian_coordinate_tag>::type c(this->kernel()); - typename Get_functor<R, Point_dimension_tag>::type pd(this->kernel()); - Point const& p0=*f++; - int d=pd(p0); - Matrix m(d,d); - // FIXME: this writes the vector coordinates in lines ? check all the other uses in this file, this may be wrong for some. - for(int i=0;f!=e;++f,++i) { - Point const& p=*f; - for(int j=0;j<d;++j){ - m(i,j)=c(p,j)-c(p0,j); - // should we cache the coordinates of p0 in case they are computed? - } - } - return R::LA::sign_of_determinant(CGAL_MOVE(m)); - } - -#ifdef CGAL_CXX11 - // Since the dimension is at least 2, there are at least 3 points and no ambiguity with iterators. - // template <class...U,class=typename std::enable_if<std::is_same<Dimension_tag<sizeof...(U)-1>,typename R::Default_ambient_dimension>::value>::type> - template <class...U,class=typename std::enable_if<(sizeof...(U)>=3)>::type> - result_type operator()(U&&...u) const { - return operator()({std::forward<U>(u)...}); - } - - template <class P> - result_type operator()(std::initializer_list<P> l) const { - return operator()(l.begin(),l.end()); - } -#else - //should we make it template to avoid instantiation for wrong dim? - //or iterate outside the class? -#define CGAL_VAR(Z,J,I) m(I,J)=c(p##I,J)-c(x,J); -#define CGAL_VAR2(Z,I,N) BOOST_PP_REPEAT(N,CGAL_VAR,I) -#define CGAL_CODE(Z,N,_) \ - result_type operator()(Point const&x, BOOST_PP_ENUM_PARAMS(N,Point const&p)) const { \ - typename Get_functor<R, Compute_point_cartesian_coordinate_tag>::type c(this->kernel()); \ - Matrix m(N,N); \ - BOOST_PP_REPEAT(N,CGAL_VAR2,N) \ - return R::LA::sign_of_determinant(CGAL_MOVE(m)); \ - } - -BOOST_PP_REPEAT_FROM_TO(7, 10, CGAL_CODE, _ ) - // No need to do it for <=6, since that uses a different code path -#undef CGAL_CODE -#undef CGAL_VAR2 -#undef CGAL_VAR -#endif -}; - -#ifdef CGAL_CXX11 -template<class R_,int d> struct Orientation_of_points<R_,Dimension_tag<d>,true> : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Orientation_of_points) - typedef R_ R; - typedef typename Get_type<R, RT_tag>::type RT; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_type<R, Orientation_tag>::type result_type; - template<class>struct Help; - template<int...I>struct Help<Indices<I...> > { - template<class C,class P,class T> result_type operator()(C const&c,P const&x,T&&t)const{ - return sign_of_determinant<RT>(c(std::get<I/d>(t),I%d)-c(x,I%d)...); - } - }; - template<class P0,class...P> result_type operator()(P0 const&x,P&&...p)const{ - static_assert(d==sizeof...(P),"Wrong number of arguments"); - typename Get_functor<R, Compute_point_cartesian_coordinate_tag>::type c(this->kernel()); - return Help<typename N_increasing_indices<d*d>::type>()(c,x,std::forward_as_tuple(std::forward<P>(p)...)); - } - - - template<int N,class Iter,class...U> result_type help2(Dimension_tag<N>, Iter f, Iter const&e, U&&...u)const{ - auto const&p=*f; - return help2(Dimension_tag<N-1>(),++f,e,std::forward<U>(u)...,p); - } - template<class Iter,class...U> result_type help2(Dimension_tag<0>, Iter CGAL_assertion_code(f), Iter const& CGAL_assertion_code(e), U&&...u)const{ - CGAL_assertion(f==e); - return operator()(std::forward<U>(u)...); - } - template<class Iter> - result_type operator()(Iter f, Iter e)const{ - return help2(Dimension_tag<d+1>(),f,e); - } -}; -#else -#define CGAL_VAR(Z,J,I) c(p##I,J)-x##J -#define CGAL_VAR2(Z,I,N) BOOST_PP_ENUM(N,CGAL_VAR,I) -#define CGAL_VAR3(Z,N,_) Point const&p##N=*++f; -#define CGAL_VAR4(Z,N,_) RT const&x##N=c(x,N); -#define CGAL_CODE(Z,N,_) \ -template<class R_> struct Orientation_of_points<R_,Dimension_tag<N>,true> : private Store_kernel<R_> { \ - CGAL_FUNCTOR_INIT_STORE(Orientation_of_points) \ - typedef R_ R; \ - typedef typename Get_type<R, RT_tag>::type RT; \ - typedef typename Get_type<R, Point_tag>::type Point; \ - typedef typename Get_type<R, Orientation_tag>::type result_type; \ - result_type operator()(Point const&x, BOOST_PP_ENUM_PARAMS(N,Point const&p)) const { \ - typename Get_functor<R, Compute_point_cartesian_coordinate_tag>::type c(this->kernel()); \ - BOOST_PP_REPEAT(N,CGAL_VAR4,) \ - return sign_of_determinant<RT>(BOOST_PP_ENUM(N,CGAL_VAR2,N)); \ - } \ - template<class Iter> \ - result_type operator()(Iter f, Iter CGAL_assertion_code(e))const{ \ - Point const&x=*f; \ - BOOST_PP_REPEAT(N,CGAL_VAR3,) \ - CGAL_assertion(++f==e); \ - return operator()(x,BOOST_PP_ENUM_PARAMS(N,p)); \ - } \ -}; - - BOOST_PP_REPEAT_FROM_TO(2, 7, CGAL_CODE, _ ) -#undef CGAL_CODE -#undef CGAL_VAR4 -#undef CGAL_VAR3 -#undef CGAL_VAR2 -#undef CGAL_VAR - -#endif - -template<class R_> struct Orientation_of_points<R_,Dimension_tag<1>,true> : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Orientation_of_points) - typedef R_ R; - typedef typename Get_type<R, RT_tag>::type RT; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_type<R, Orientation_tag>::type result_type; - result_type operator()(Point const&x, Point const&y) const { - typename Get_functor<R, Compute_point_cartesian_coordinate_tag>::type c(this->kernel()); - // No sign_of_determinant(RT) :-( - return CGAL::compare(c(y,0),c(x,0)); - } - template<class Iter> - result_type operator()(Iter f, Iter CGAL_assertion_code(e))const{ - Point const&x=*f; - Point const&y=*++f; - CGAL_assertion(++f==e); - return operator()(x,y); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Orientation_of_points_tag,(CartesianDKernelFunctors::Orientation_of_points<K>),(Point_tag),(Point_dimension_tag,Compute_point_cartesian_coordinate_tag)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Orientation_of_vectors : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Orientation_of_vectors) - typedef R_ R; - typedef typename Get_type<R, Vector_tag>::type Vector; - typedef typename Get_type<R, Orientation_tag>::type result_type; - typedef typename R::LA::Square_matrix Matrix; - - template<class Iter> - result_type operator()(Iter f, Iter e)const{ - typename Get_functor<R, Compute_vector_cartesian_coordinate_tag>::type c(this->kernel()); - typename Get_functor<R, Point_dimension_tag>::type vd(this->kernel()); - // FIXME: Uh? Using it on a vector ?! - Vector const& v0=*f; - int d=vd(v0); - Matrix m(d,d); - for(int j=0;j<d;++j){ - m(0,j)=c(v0,j); - } - for(int i=1;++f!=e;++i) { - Vector const& v=*f; - for(int j=0;j<d;++j){ - m(i,j)=c(v,j); - } - } - return R::LA::sign_of_determinant(CGAL_MOVE(m)); - } - -#ifdef CGAL_CXX11 - template <class...U,class=typename std::enable_if<(sizeof...(U)>=3)>::type> - result_type operator()(U&&...u) const { - return operator()({std::forward<U>(u)...}); - } - - template <class V> - result_type operator()(std::initializer_list<V> l) const { - return operator()(l.begin(),l.end()); - } -#else - //TODO -#endif -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Orientation_of_vectors_tag,(CartesianDKernelFunctors::Orientation_of_vectors<K>),(Vector_tag),(Point_dimension_tag,Compute_vector_cartesian_coordinate_tag)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Linear_rank : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Linear_rank) - typedef R_ R; - typedef typename Get_type<R, Vector_tag>::type Vector; - // Computing a sensible Uncertain<int> is not worth it - typedef int result_type; - typedef typename R::LA::Dynamic_matrix Matrix; - - template<class Iter> - result_type operator()(Iter f, Iter e)const{ - typename Get_functor<R, Compute_vector_cartesian_coordinate_tag>::type c(this->kernel()); - typename Get_functor<R, Point_dimension_tag>::type vd(this->kernel()); - std::ptrdiff_t n=std::distance(f,e); - if (n==0) return 0; - Vector const& v0 = *f; - // FIXME: Uh? Using it on a vector ?! - int d=vd(v0); - Matrix m(d,n); - for(int j=0;j<d;++j){ - m(j,0)=c(v0,j); - } - for(int i=1; ++f!=e; ++i){ - Vector const& v = *f; - for(int j=0;j<d;++j){ - m(j,i)=c(v,j); - } - } - return R::LA::rank(CGAL_MOVE(m)); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Linear_rank_tag,(CartesianDKernelFunctors::Linear_rank<K>),(Vector_tag),(Point_dimension_tag,Compute_vector_cartesian_coordinate_tag)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Linearly_independent : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Linearly_independent) - typedef R_ R; - typedef typename Get_type<R, Bool_tag>::type result_type; - - template<class Iter> - result_type operator()(Iter f, Iter e)const{ - typename Get_functor<R, Point_dimension_tag>::type vd(this->kernel()); - std::ptrdiff_t n=std::distance(f,e); - // FIXME: Uh? Using it on a vector ?! - int d=vd(*f); - if (n>d) return false; - typename Get_functor<R, Linear_rank_tag>::type lr(this->kernel()); - return lr(f,e) == n; - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Linearly_independent_tag,(CartesianDKernelFunctors::Linearly_independent<K>),(Vector_tag),(Point_dimension_tag,Linear_rank_tag)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Contained_in_linear_hull : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Contained_in_linear_hull) - typedef R_ R; - typedef typename Get_type<R, Vector_tag>::type Vector; - // Computing a sensible Uncertain<bool> is not worth it - typedef bool result_type; - typedef typename R::LA::Dynamic_matrix Matrix; - - template<class Iter,class V> - result_type operator()(Iter f, Iter e,V const&w)const{ - typename Get_functor<R, Compute_vector_cartesian_coordinate_tag>::type c(this->kernel()); - typename Get_functor<R, Point_dimension_tag>::type vd(this->kernel()); - std::ptrdiff_t n=std::distance(f,e); - if (n==0) return false; - // FIXME: Uh? Using it on a vector ?! - int d=vd(w); - Matrix m(d,n+1); - for(int i=0; f!=e; ++f,++i){ - Vector const& v = *f; - for(int j=0;j<d;++j){ - m(j,i)=c(v,j); - } - } - for(int j=0;j<d;++j){ - m(j,n)=c(w,j); - } - int r1 = R::LA::rank(m); - // FIXME: Don't use eigen directly, go through an interface in LA... - m.conservativeResize(Eigen::NoChange, n); - int r2 = R::LA::rank(CGAL_MOVE(m)); - return r1 == r2; - // TODO: This is very very far from optimal... - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Contained_in_linear_hull_tag,(CartesianDKernelFunctors::Contained_in_linear_hull<K>),(Vector_tag),(Point_dimension_tag,Compute_vector_cartesian_coordinate_tag)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Affine_rank : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Affine_rank) - typedef R_ R; - typedef typename Get_type<R, Point_tag>::type Point; - // Computing a sensible Uncertain<int> is not worth it - typedef int result_type; - typedef typename R::LA::Dynamic_matrix Matrix; - - template<class Iter> - result_type operator()(Iter f, Iter e)const{ - typename Get_functor<R, Compute_point_cartesian_coordinate_tag>::type c(this->kernel()); - typename Get_functor<R, Point_dimension_tag>::type pd(this->kernel()); - int n=(int)std::distance(f,e); - if (--n<=0) return n; - Point const& p0 = *f; - int d=pd(p0); - Matrix m(d,n); - for(int i=0; ++f!=e; ++i){ - Point const& p = *f; - for(int j=0;j<d;++j){ - m(j,i)=c(p,j)-c(p0,j); - // TODO: cache p0[j] in case it is computed? - } - } - return R::LA::rank(CGAL_MOVE(m)); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Affine_rank_tag,(CartesianDKernelFunctors::Affine_rank<K>),(Point_tag),(Point_dimension_tag,Compute_point_cartesian_coordinate_tag)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Affinely_independent : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Affinely_independent) - typedef R_ R; - typedef typename Get_type<R, Bool_tag>::type result_type; - - template<class Iter> - result_type operator()(Iter f, Iter e)const{ - typename Get_functor<R, Point_dimension_tag>::type pd(this->kernel()); - std::ptrdiff_t n=std::distance(f,e); - int d=pd(*f); - if (--n>d) return false; - typename Get_functor<R, Affine_rank_tag>::type ar(this->kernel()); - return ar(f,e) == n; - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Affinely_independent_tag,(CartesianDKernelFunctors::Affinely_independent<K>),(Point_tag),(Point_dimension_tag,Affine_rank_tag)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Contained_in_simplex : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Contained_in_simplex) - typedef R_ R; - typedef typename Get_type<R, Point_tag>::type Point; - // Computing a sensible Uncertain<*> is not worth it - // typedef typename Get_type<R, Boolean_tag>::type result_type; - typedef bool result_type; - typedef typename Increment_dimension<typename R::Default_ambient_dimension>::type D1; - typedef typename Increment_dimension<typename R::Max_ambient_dimension>::type D2; - typedef typename R::LA::template Rebind_dimension<D1,D2>::Other LA; - typedef typename LA::Dynamic_matrix Matrix; - typedef typename LA::Dynamic_vector DynVec; - typedef typename LA::Vector Vec; - - template<class Iter, class P> - result_type operator()(Iter f, Iter e, P const&q)const{ - typename Get_functor<R, Compute_point_cartesian_coordinate_tag>::type c(this->kernel()); - typename Get_functor<R, Point_dimension_tag>::type pd(this->kernel()); - std::ptrdiff_t n=std::distance(f,e); - if (n==0) return false; - int d=pd(q); - Matrix m(d+1,n); - DynVec a(n); - // FIXME: Should use the proper vector constructor (Iterator_and_last) - Vec b(d+1); - for(int j=0;j<d;++j) b[j]=c(q,j); - b[d]=1; - - for(int i=0; f!=e; ++i,++f){ - Point const& p = *f; - for(int j=0;j<d;++j){ - m(j,i)=c(p,j); - } - m(d,i)=1; - } - // If the simplex has full dimension, there must be a solution, only the signs need to be checked. - if (n == d+1) - LA::solve(a,CGAL_MOVE(m),CGAL_MOVE(b)); - else if (!LA::solve_and_check(a,CGAL_MOVE(m),CGAL_MOVE(b))) - return false; - for(int i=0;i<n;++i){ - if (a[i]<0) return false; - } - return true; - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Contained_in_simplex_tag,(CartesianDKernelFunctors::Contained_in_simplex<K>),(Point_tag),(Point_dimension_tag,Compute_point_cartesian_coordinate_tag)); - -namespace CartesianDKernelFunctors { - namespace internal { - template<class Ref_> - struct Matrix_col_access { - typedef Ref_ result_type; - int col; - Matrix_col_access(int r):col(r){} - template<class Mat> Ref_ operator()(Mat const& m, std::ptrdiff_t row)const{ - return m(row,col); - } - }; - } -template<class R_> struct Linear_base : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Linear_base) - typedef R_ R; - typedef typename Get_type<R, Vector_tag>::type Vector; - typedef typename Get_type<R, FT_tag>::type FT; - typedef void result_type; - typedef typename R::LA::Dynamic_matrix Matrix; - - template<class Iter, class Oter> - result_type operator()(Iter f, Iter e, Oter&o)const{ - typename Get_functor<R, Compute_vector_cartesian_coordinate_tag>::type c(this->kernel()); - typename Get_functor<R, Point_dimension_tag>::type vd(this->kernel()); - typename Get_functor<R, Construct_ttag<Vector_tag> >::type cv(this->kernel()); - std::ptrdiff_t n=std::distance(f,e); - if (n==0) return; - Vector const& v0 = *f; - // FIXME: Uh? Using it on a vector ?! - int d=vd(v0); - Matrix m(d,n); - for(int j=0;j<d;++j){ - m(0,j)=c(v0,j); - } - for(int i=1; ++f!=e; ++i){ - Vector const& v = *f; - for(int j=0;j<d;++j){ - m(i,j)=c(v,j); - } - } - Matrix b = R::LA::basis(CGAL_MOVE(m)); - for(int i=0; i < R::LA::columns(b); ++i){ - //*o++ = Vector(b.col(i)); - typedef -#ifdef CGAL_CXX11 - decltype(std::declval<const Matrix>()(0,0)) -#else - FT -#endif - Ref; - typedef Iterator_from_indices<Matrix, FT, Ref, - internal::Matrix_col_access<Ref> > IFI; - *o++ = cv(IFI(b,0,i),IFI(b,d,i)); - } - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Linear_base_tag,(CartesianDKernelFunctors::Linear_base<K>),(Vector_tag),(Point_dimension_tag,Compute_vector_cartesian_coordinate_tag)); - -#if 0 -namespace CartesianDKernelFunctors { -template<class R_,bool=boost::is_same<typename R_::Point,typename R_::Vector>::value> struct Orientation : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Orientation) - typedef R_ R; - typedef typename Get_type<R, Vector_tag>::type Vector; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_type<R, Orientation_tag>::type result_type; - typedef typename Get_functor<R, Orientation_of_points_tag>::type OP; - typedef typename Get_functor<R, Orientation_of_vectors_tag>::type OV; - - //FIXME!!! - //when Point and Vector are distinct types, the dispatch should be made - //in a way that doesn't instantiate a conversion from Point to Vector - template<class Iter> - result_type operator()(Iter const&f, Iter const& e)const{ - typename Get_functor<R, Point_dimension_tag>::type pd(this->kernel()); - typename std::iterator_traits<Iter>::difference_type d=std::distance(f,e); - int dim=pd(*f); // BAD - if(d==dim) return OV(this->kernel())(f,e); - CGAL_assertion(d==dim+1); - return OP(this->kernel())(f,e); - } - //TODO: version that takes objects directly instead of iterators -}; - -template<class R_> struct Orientation<R_,false> : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Orientation) - typedef R_ R; - typedef typename Get_type<R, Vector_tag>::type Vector; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_type<R, Orientation_tag>::type result_type; - typedef typename Get_functor<R, Orientation_of_points_tag>::type OP; - typedef typename Get_functor<R, Orientation_of_vectors_tag>::type OV; - typedef typename R::LA::Square_matrix Matrix; - - //FIXME!!! - //when Point and Vector are distinct types, the dispatch should be made - //in a way that doesn't instantiate a conversion from Point to Vector - template<class Iter> - typename boost::enable_if<is_iterator_to<Iter,Point>,result_type>::type - operator()(Iter const&f, Iter const& e)const{ - return OP(this->kernel())(f,e); - } - template<class Iter> - typename boost::enable_if<is_iterator_to<Iter,Vector>,result_type>::type - operator()(Iter const&f, Iter const& e)const{ - return OV(this->kernel())(f,e); - } - //TODO: version that takes objects directly instead of iterators -}; -} -#endif - -namespace CartesianDKernelFunctors { -template<class R_> struct Power_side_of_power_sphere_raw : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Power_side_of_power_sphere_raw) - typedef R_ R; - typedef typename Get_type<R, RT_tag>::type RT; - typedef typename Get_type<R, FT_tag>::type FT; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_type<R, Oriented_side_tag>::type result_type; - typedef typename Increment_dimension<typename R::Default_ambient_dimension>::type D1; - typedef typename Increment_dimension<typename R::Max_ambient_dimension>::type D2; - typedef typename R::LA::template Rebind_dimension<D1,D2>::Other LA; - typedef typename LA::Square_matrix Matrix; - - template<class IterP, class IterW, class Pt, class Wt> - result_type operator()(IterP f, IterP const& e, IterW fw, Pt const& p0, Wt const& w0) const { - typedef typename Get_functor<R, Squared_distance_to_origin_tag>::type Sqdo; - typename Get_functor<R, Compute_point_cartesian_coordinate_tag>::type c(this->kernel()); - typename Get_functor<R, Point_dimension_tag>::type pd(this->kernel()); - - int d=pd(p0); - Matrix m(d+1,d+1); - if(CGAL::Is_stored<Sqdo>::value) { - Sqdo sqdo(this->kernel()); - FT const& h0 = sqdo(p0) - w0; - for(int i=0;f!=e;++f,++fw,++i) { - Point const& p=*f; - for(int j=0;j<d;++j){ - RT const& x=c(p,j); - m(i,j)=x-c(p0,j); - } - m(i,d) = sqdo(p) - *fw - h0; - } - } else { - for(int i=0;f!=e;++f,++fw,++i) { - Point const& p=*f; - m(i,d) = w0 - *fw; - for(int j=0;j<d;++j){ - RT const& x=c(p,j); - m(i,j)=x-c(p0,j); - m(i,d)+=CGAL::square(m(i,j)); - } - } - } - if(d%2) - return -LA::sign_of_determinant(CGAL_MOVE(m)); - else - return LA::sign_of_determinant(CGAL_MOVE(m)); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Power_side_of_power_sphere_raw_tag,(CartesianDKernelFunctors::Power_side_of_power_sphere_raw<K>),(Point_tag),(Point_dimension_tag,Squared_distance_to_origin_tag,Compute_point_cartesian_coordinate_tag)); - -// TODO: make Side_of_oriented_sphere call Power_side_of_power_sphere_raw -namespace CartesianDKernelFunctors { -template<class R_> struct Side_of_oriented_sphere : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Side_of_oriented_sphere) - typedef R_ R; - typedef typename Get_type<R, RT_tag>::type RT; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_type<R, Oriented_side_tag>::type result_type; - typedef typename Increment_dimension<typename R::Default_ambient_dimension>::type D1; - typedef typename Increment_dimension<typename R::Max_ambient_dimension>::type D2; - typedef typename R::LA::template Rebind_dimension<D1,D2>::Other LA; - typedef typename LA::Square_matrix Matrix; - - template<class Iter> - result_type operator()(Iter f, Iter const& e)const{ - Point const& p0=*f++; // *--e ? - return this->operator()(f,e,p0); - } - - template<class Iter> - result_type operator()(Iter f, Iter const& e, Point const& p0) const { - typedef typename Get_functor<R, Squared_distance_to_origin_tag>::type Sqdo; - typename Get_functor<R, Compute_point_cartesian_coordinate_tag>::type c(this->kernel()); - typename Get_functor<R, Point_dimension_tag>::type pd(this->kernel()); - - int d=pd(p0); - Matrix m(d+1,d+1); - if(CGAL::Is_stored<Sqdo>::value) { - Sqdo sqdo(this->kernel()); - for(int i=0;f!=e;++f,++i) { - Point const& p=*f; - for(int j=0;j<d;++j){ - RT const& x=c(p,j); - m(i,j)=x-c(p0,j); - } - m(i,d) = sqdo(p) - sqdo(p0); - } - } else { - for(int i=0;f!=e;++f,++i) { - Point const& p=*f; - m(i,d) = 0; - for(int j=0;j<d;++j){ - RT const& x=c(p,j); - m(i,j)=x-c(p0,j); - m(i,d)+=CGAL::square(m(i,j)); - } - } - } - if(d%2) - return -LA::sign_of_determinant(CGAL_MOVE(m)); - else - return LA::sign_of_determinant(CGAL_MOVE(m)); - } - -#ifdef CGAL_CXX11 - template <class...U,class=typename std::enable_if<(sizeof...(U)>=4)>::type> - result_type operator()(U&&...u) const { - return operator()({std::forward<U>(u)...}); - } - - template <class P> - result_type operator()(std::initializer_list<P> l) const { - return operator()(l.begin(),l.end()); - } -#else - //TODO -#endif -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Side_of_oriented_sphere_tag,(CartesianDKernelFunctors::Side_of_oriented_sphere<K>),(Point_tag),(Point_dimension_tag,Squared_distance_to_origin_tag,Compute_point_cartesian_coordinate_tag)); - -namespace CartesianDKernelFunctors { -template <class R_> struct Construct_circumcenter : Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Construct_circumcenter) - typedef typename Get_type<R_, Point_tag>::type Point; - typedef Point result_type; - typedef typename Get_type<R_, FT_tag>::type FT; - template <class Iter> - result_type operator()(Iter f, Iter e)const{ - typedef typename Get_type<R_, Point_tag>::type Point; - typedef typename R_::LA LA; - typename Get_functor<R_, Compute_point_cartesian_coordinate_tag>::type c(this->kernel()); - typename Get_functor<R_, Construct_ttag<Point_tag> >::type cp(this->kernel()); - typename Get_functor<R_, Point_dimension_tag>::type pd(this->kernel()); - typename Get_functor<R_, Squared_distance_to_origin_tag>::type sdo(this->kernel()); - - Point const& p0=*f; - int d = pd(p0); - if (d+1 == std::distance(f,e)) - { - // 2*(x-y).c == x^2-y^2 - typedef typename LA::Square_matrix Matrix; - typedef typename LA::Vector Vec; - typedef typename LA::Construct_vector CVec; - FT const& n0 = sdo(p0); - Matrix m(d,d); - Vec b = typename CVec::Dimension()(d); - // Write the point coordinates in lines. - int i; - for(i=0; ++f!=e; ++i) { - Point const& p=*f; - for(int j=0;j<d;++j) { - m(i,j)=2*(c(p,j)-c(p0,j)); - b[i] = sdo(p) - n0; - } - } - CGAL_assertion (i == d); - Vec res = typename CVec::Dimension()(d);; - //std::cout << "Mat: " << m << "\n Vec: " << one << std::endl; - LA::solve(res, CGAL_MOVE(m), CGAL_MOVE(b)); - //std::cout << "Sol: " << res << std::endl; - return cp(d,LA::vector_begin(res),LA::vector_end(res)); - } - else - { - /* - * Matrix P=(p1, p2, ...) (each point as a column) - * Matrix Q=2*t(p2-p1,p3-p1, ...) (each vector as a line) - * Matrix M: QP, adding a line of 1 at the top - * Vector B: (1, p2^2-p1^2, p3^2-p1^2, ...) - * Solve ML=B, the center of the sphere is PL - * - * It would likely be faster to write P then transpose, multiply, - * etc instead of doing it by hand. - */ - // TODO: check for degenerate cases? - - typedef typename R_::Max_ambient_dimension D2; - typedef typename R_::LA::template Rebind_dimension<Dynamic_dimension_tag,D2>::Other LAd; - typedef typename LAd::Square_matrix Matrix; - typedef typename LAd::Vector Vec; - typename Get_functor<R_, Scalar_product_tag>::type sp(this->kernel()); - int k=static_cast<int>(std::distance(f,e)); - Matrix m(k,k); - Vec b(k); - Vec l(k); - int j,i=0; - for(Iter f2=f;f2!=e;++f2,++i){ - b(i)=m(i,i)=sdo(*f2); - j=0; - for(Iter f3=f;f3!=e;++f3,++j){ - m(j,i)=m(i,j)=sp(*f2,*f3); - } - } - for(i=1;i<k;++i){ - b(i)-=b(0); - for(j=0;j<k;++j){ - m(i,j)=2*(m(i,j)-m(0,j)); - } - } - for(j=0;j<k;++j) m(0,j)=1; - b(0)=1; - - LAd::solve(l,CGAL_MOVE(m),CGAL_MOVE(b)); - - typename LA::Vector center=typename LA::Construct_vector::Dimension()(d); - for(i=0;i<d;++i) center(i)=0; - j=0; - for(Iter f2=f;f2!=e;++f2,++j){ - for(i=0;i<d;++i){ - center(i)+=l(j)*c(*f2,i); - } - } - - return cp(LA::vector_begin(center),LA::vector_end(center)); - } - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Construct_circumcenter_tag,(CartesianDKernelFunctors::Construct_circumcenter<K>),(Point_tag),(Construct_ttag<Point_tag>,Compute_point_cartesian_coordinate_tag,Scalar_product_tag,Squared_distance_to_origin_tag,Point_dimension_tag)); - -namespace CartesianDKernelFunctors { -template <class R_> struct Squared_circumradius : Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Squared_circumradius) - typedef typename Get_type<R_, FT_tag>::type result_type; - template <class Iter> - result_type operator()(Iter f, Iter e)const{ - typename Get_functor<R_, Construct_circumcenter_tag>::type cc(this->kernel()); - typename Get_functor<R_, Squared_distance_tag>::type sd(this->kernel()); - return sd(cc(f, e), *f); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Squared_circumradius_tag,(CartesianDKernelFunctors::Squared_circumradius<K>),(Point_tag),(Construct_circumcenter_tag,Squared_distance_tag)); - -namespace CartesianDKernelFunctors { -// TODO: implement it directly, it should be at least as fast as Side_of_oriented_sphere. -template<class R_> struct Side_of_bounded_sphere : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Side_of_bounded_sphere) - typedef R_ R; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_type<R, Bounded_side_tag>::type result_type; - - template<class Iter> - result_type operator()(Iter f, Iter const& e) const { - Point const& p0 = *f++; // *--e ? - typename Get_functor<R, Point_dimension_tag>::type pd(this->kernel()); - //FIXME: Doesn't work for non-full dimension. - CGAL_assertion (std::distance(f,e) == pd(p0)+1); - return operator() (f, e, p0); - } - - template<class Iter> - result_type operator()(Iter const& f, Iter const& e, Point const& p0) const { - typename Get_functor<R, Side_of_oriented_sphere_tag>::type sos (this->kernel()); - typename Get_functor<R, Orientation_of_points_tag>::type op (this->kernel()); - // enum_cast is not very generic, but since this function isn't supposed to remain like this... - return enum_cast<Bounded_side> (sos (f, e, p0) * op (f, e)); - } - -#ifdef CGAL_CXX11 - template <class...U,class=typename std::enable_if<(sizeof...(U)>=4)>::type> - result_type operator()(U&&...u) const { - return operator()({std::forward<U>(u)...}); - } - - template <class P> - result_type operator()(std::initializer_list<P> l) const { - return operator()(l.begin(),l.end()); - } -#else - //TODO -#endif -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Side_of_bounded_sphere_tag,(CartesianDKernelFunctors::Side_of_bounded_sphere<K>),(Point_tag),(Side_of_oriented_sphere_tag,Orientation_of_points_tag)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Side_of_bounded_circumsphere : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Side_of_bounded_circumsphere) - typedef typename Get_type<R_, Bounded_side_tag>::type result_type; - - template<class Iter, class P> - result_type operator()(Iter f, Iter const& e, P const& p0) const { - // TODO: Special case when the dimension is full. - typename Get_functor<R_, Construct_circumcenter_tag>::type cc(this->kernel()); - typename Get_functor<R_, Compare_distance_tag>::type cd(this->kernel()); - - return enum_cast<Bounded_side>(cd(cc(f, e), *f, p0)); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Side_of_bounded_circumsphere_tag,(CartesianDKernelFunctors::Side_of_bounded_circumsphere<K>),(Point_tag),(Squared_distance_tag,Construct_circumcenter_tag)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Point_to_vector : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Point_to_vector) - typedef R_ R; - typedef typename Get_type<R, RT_tag>::type RT; - typedef typename Get_type<R, Vector_tag>::type Vector; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_functor<R, Construct_ttag<Vector_tag> >::type CV; - typedef typename Get_functor<R, Construct_ttag<Point_cartesian_const_iterator_tag> >::type CI; - typedef Vector result_type; - typedef Point argument_type; - result_type operator()(argument_type const&v)const{ - CI ci(this->kernel()); - return CV(this->kernel())(ci(v,Begin_tag()),ci(v,End_tag())); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Point_to_vector_tag,(CartesianDKernelFunctors::Point_to_vector<K>),(Point_tag,Vector_tag),(Construct_ttag<Vector_tag>, Construct_ttag<Point_cartesian_const_iterator_tag>)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Vector_to_point : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Vector_to_point) - typedef R_ R; - typedef typename Get_type<R, RT_tag>::type RT; - typedef typename Get_type<R, Vector_tag>::type Vector; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_functor<R, Construct_ttag<Point_tag> >::type CP; - typedef typename Get_functor<R, Construct_ttag<Vector_cartesian_const_iterator_tag> >::type CI; - typedef Point result_type; - typedef Vector argument_type; - result_type operator()(argument_type const&v)const{ - CI ci(this->kernel()); - return CP(this->kernel())(ci(v,Begin_tag()),ci(v,End_tag())); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Vector_to_point_tag,(CartesianDKernelFunctors::Vector_to_point<K>),(Point_tag,Vector_tag),(Construct_ttag<Point_tag>, Construct_ttag<Vector_cartesian_const_iterator_tag>)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Opposite_vector : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Opposite_vector) - typedef R_ R; - typedef typename Get_type<R, RT_tag>::type RT; - typedef typename Get_type<R, Vector_tag>::type Vector; - typedef typename Get_functor<R, Construct_ttag<Vector_tag> >::type CV; - typedef typename Get_functor<R, Construct_ttag<Vector_cartesian_const_iterator_tag> >::type CI; - typedef Vector result_type; - typedef Vector argument_type; - result_type operator()(Vector const&v)const{ - CI ci(this->kernel()); - return CV(this->kernel())(make_transforming_iterator(ci(v,Begin_tag()),std::negate<RT>()),make_transforming_iterator(ci(v,End_tag()),std::negate<RT>())); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Opposite_vector_tag,(CartesianDKernelFunctors::Opposite_vector<K>),(Vector_tag),(Construct_ttag<Vector_tag>, Construct_ttag<Vector_cartesian_const_iterator_tag>)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Scaled_vector : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Scaled_vector) - typedef R_ R; - typedef typename Get_type<R, FT_tag>::type FT; - typedef typename Get_type<R, Vector_tag>::type Vector; - typedef typename Get_functor<R, Construct_ttag<Vector_tag> >::type CV; - typedef typename Get_functor<R, Construct_ttag<Vector_cartesian_const_iterator_tag> >::type CI; - typedef Vector result_type; - typedef Vector first_argument_type; - typedef FT second_argument_type; - result_type operator()(Vector const&v,FT const& s)const{ - CI ci(this->kernel()); - return CV(this->kernel())(make_transforming_iterator(ci(v,Begin_tag()),Scale<FT>(s)),make_transforming_iterator(ci(v,End_tag()),Scale<FT>(s))); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Scaled_vector_tag,(CartesianDKernelFunctors::Scaled_vector<K>),(Vector_tag),(Construct_ttag<Vector_tag>, Construct_ttag<Vector_cartesian_const_iterator_tag>)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Sum_of_vectors : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Sum_of_vectors) - typedef R_ R; - typedef typename Get_type<R, RT_tag>::type RT; - typedef typename Get_type<R, Vector_tag>::type Vector; - typedef typename Get_functor<R, Construct_ttag<Vector_tag> >::type CV; - typedef typename Get_functor<R, Construct_ttag<Vector_cartesian_const_iterator_tag> >::type CI; - typedef Vector result_type; - typedef Vector first_argument_type; - typedef Vector second_argument_type; - result_type operator()(Vector const&a, Vector const&b)const{ - CI ci(this->kernel()); - return CV(this->kernel())(make_transforming_pair_iterator(ci(a,Begin_tag()),ci(b,Begin_tag()),std::plus<RT>()),make_transforming_pair_iterator(ci(a,End_tag()),ci(b,End_tag()),std::plus<RT>())); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Sum_of_vectors_tag,(CartesianDKernelFunctors::Sum_of_vectors<K>),(Vector_tag),(Construct_ttag<Vector_tag>, Construct_ttag<Vector_cartesian_const_iterator_tag>)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Difference_of_vectors : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Difference_of_vectors) - typedef R_ R; - typedef typename Get_type<R, RT_tag>::type RT; - typedef typename Get_type<R, Vector_tag>::type Vector; - typedef typename Get_functor<R, Construct_ttag<Vector_tag> >::type CV; - typedef typename Get_functor<R, Construct_ttag<Vector_cartesian_const_iterator_tag> >::type CI; - typedef Vector result_type; - typedef Vector first_argument_type; - typedef Vector second_argument_type; - result_type operator()(Vector const&a, Vector const&b)const{ - CI ci(this->kernel()); - return CV(this->kernel())(make_transforming_pair_iterator(ci(a,Begin_tag()),ci(b,Begin_tag()),std::minus<RT>()),make_transforming_pair_iterator(ci(a,End_tag()),ci(b,End_tag()),std::minus<RT>())); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Difference_of_vectors_tag,(CartesianDKernelFunctors::Difference_of_vectors<K>),(Vector_tag),(Construct_ttag<Vector_tag>, Construct_ttag<Vector_cartesian_const_iterator_tag>)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Translated_point : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Translated_point) - typedef R_ R; - typedef typename Get_type<R, RT_tag>::type RT; - typedef typename Get_type<R, Vector_tag>::type Vector; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_functor<R, Construct_ttag<Point_tag> >::type CP; - typedef typename Get_functor<R, Construct_ttag<Vector_cartesian_const_iterator_tag> >::type CVI; - typedef typename Get_functor<R, Construct_ttag<Point_cartesian_const_iterator_tag> >::type CPI; - typedef Point result_type; - typedef Point first_argument_type; - typedef Vector second_argument_type; - result_type operator()(Point const&a, Vector const&b)const{ - CVI cvi(this->kernel()); - CPI cpi(this->kernel()); - return CP(this->kernel())(make_transforming_pair_iterator(cpi(a,Begin_tag()),cvi(b,Begin_tag()),std::plus<RT>()),make_transforming_pair_iterator(cpi(a,End_tag()),cvi(b,End_tag()),std::plus<RT>())); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Translated_point_tag,(CartesianDKernelFunctors::Translated_point<K>),(Point_tag, Vector_tag),(Construct_ttag<Point_tag>, Construct_ttag<Vector_cartesian_const_iterator_tag>, Construct_ttag<Point_cartesian_const_iterator_tag>)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Difference_of_points : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Difference_of_points) - typedef R_ R; - typedef typename Get_type<R, RT_tag>::type RT; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_type<R, Vector_tag>::type Vector; - typedef typename Get_functor<R, Construct_ttag<Vector_tag> >::type CV; - typedef typename Get_functor<R, Construct_ttag<Point_cartesian_const_iterator_tag> >::type CI; - typedef Vector result_type; - typedef Point first_argument_type; - typedef Point second_argument_type; - result_type operator()(Point const&a, Point const&b)const{ - CI ci(this->kernel()); - return CV(this->kernel())(make_transforming_pair_iterator(ci(a,Begin_tag()),ci(b,Begin_tag()),std::minus<RT>()),make_transforming_pair_iterator(ci(a,End_tag()),ci(b,End_tag()),std::minus<RT>())); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Difference_of_points_tag,(CartesianDKernelFunctors::Difference_of_points<K>),(Point_tag, Vector_tag),(Construct_ttag<Vector_tag>, Construct_ttag<Point_cartesian_const_iterator_tag>)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Midpoint : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Midpoint) - typedef R_ R; - typedef typename Get_type<R, FT_tag>::type FT; - typedef typename Get_type<R, RT_tag>::type RT; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_functor<R, Construct_ttag<Point_tag> >::type CP; - typedef typename Get_functor<R, Construct_ttag<Point_cartesian_const_iterator_tag> >::type CI; - typedef Point result_type; - typedef Point first_argument_type; - typedef Point second_argument_type; - // There is a division, but it will be cast to RT afterwards anyway, so maybe we could use RT. - struct Average : std::binary_function<FT,RT,FT> { - FT operator()(FT const&a, RT const&b)const{ - return (a+b)/2; - } - }; - result_type operator()(Point const&a, Point const&b)const{ - CI ci(this->kernel()); - //Divide<FT,int> half(2); - //return CP(this->kernel())(make_transforming_iterator(make_transforming_pair_iterator(ci.begin(a),ci.begin(b),std::plus<FT>()),half),make_transforming_iterator(make_transforming_pair_iterator(ci.end(a),ci.end(b),std::plus<FT>()),half)); - return CP(this->kernel())(make_transforming_pair_iterator(ci(a,Begin_tag()),ci(b,Begin_tag()),Average()),make_transforming_pair_iterator(ci(a,End_tag()),ci(b,End_tag()),Average())); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Midpoint_tag,(CartesianDKernelFunctors::Midpoint<K>),(Point_tag),(Construct_ttag<Point_tag>, Construct_ttag<Point_cartesian_const_iterator_tag>)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Squared_length : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Squared_length) - typedef R_ R; - typedef typename Get_type<R, RT_tag>::type RT; - typedef typename Get_type<R, Vector_tag>::type Vector; - typedef typename Get_functor<R, Construct_ttag<Vector_cartesian_const_iterator_tag> >::type CI; - typedef RT result_type; - typedef Vector argument_type; - result_type operator()(Vector const&a)const{ - CI ci(this->kernel()); - typename Algebraic_structure_traits<RT>::Square f; - // TODO: avoid this RT(0)+... - return std::accumulate(make_transforming_iterator(ci(a,Begin_tag()),f),make_transforming_iterator(ci(a,End_tag()),f),RT(0)); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Squared_length_tag,(CartesianDKernelFunctors::Squared_length<K>),(Vector_tag),(Construct_ttag<Vector_cartesian_const_iterator_tag>)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Squared_distance_to_origin : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Squared_distance_to_origin) - typedef R_ R; - typedef typename Get_type<R, RT_tag>::type RT; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_functor<R, Construct_ttag<Point_cartesian_const_iterator_tag> >::type CI; - typedef RT result_type; - typedef Point argument_type; - result_type operator()(Point const&a)const{ - CI ci(this->kernel()); - typename Algebraic_structure_traits<RT>::Square f; - // TODO: avoid this RT(0)+... - return std::accumulate(make_transforming_iterator(ci(a,Begin_tag()),f),make_transforming_iterator(ci(a,End_tag()),f),RT(0)); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Squared_distance_to_origin_tag,(CartesianDKernelFunctors::Squared_distance_to_origin<K>),(Point_tag),(Construct_ttag<Point_cartesian_const_iterator_tag>)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Squared_distance : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Squared_distance) - typedef R_ R; - typedef typename Get_type<R, RT_tag>::type RT; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_functor<R, Construct_ttag<Point_cartesian_const_iterator_tag> >::type CI; - typedef RT result_type; - typedef Point first_argument_type; - typedef Point second_argument_type; - struct Sq_diff : std::binary_function<RT,RT,RT> { - RT operator()(RT const&a, RT const&b)const{ - return CGAL::square(a-b); - } - }; - result_type operator()(Point const&a, Point const&b)const{ - CI ci(this->kernel()); - Sq_diff f; - // TODO: avoid this RT(0)+... - return std::accumulate(make_transforming_pair_iterator(ci(a,Begin_tag()),ci(b,Begin_tag()),f),make_transforming_pair_iterator(ci(a,End_tag()),ci(b,End_tag()),f),RT(0)); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Squared_distance_tag,(CartesianDKernelFunctors::Squared_distance<K>),(Point_tag),(Construct_ttag<Point_cartesian_const_iterator_tag>)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Scalar_product : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Scalar_product) - typedef R_ R; - typedef typename Get_type<R, RT_tag>::type RT; - typedef typename Get_type<R, Vector_tag>::type Vector; - typedef typename Get_functor<R, Construct_ttag<Vector_cartesian_const_iterator_tag> >::type CI; - typedef RT result_type; - typedef Vector first_argument_type; - typedef Vector second_argument_type; - result_type operator()(Vector const&a, Vector const&b)const{ - CI ci(this->kernel()); - std::multiplies<RT> f; - // TODO: avoid this RT(0)+... - return std::accumulate( - make_transforming_pair_iterator(ci(a,Begin_tag()),ci(b,Begin_tag()),f), - make_transforming_pair_iterator(ci(a, End_tag()),ci(b, End_tag()),f), - RT(0)); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Scalar_product_tag,(CartesianDKernelFunctors::Scalar_product<K>),(Vector_tag),(Construct_ttag<Vector_cartesian_const_iterator_tag>)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Compare_distance : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Compare_distance) - typedef R_ R; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_functor<R, Squared_distance_tag>::type CSD; - typedef typename Get_type<R, Comparison_result_tag>::type result_type; - typedef Point first_argument_type; - typedef Point second_argument_type; - typedef Point third_argument_type; // why am I doing this already? - typedef Point fourth_argument_type; - result_type operator()(Point const&a, Point const&b, Point const&c)const{ - CSD csd(this->kernel()); - return CGAL_NTS compare(csd(a,b),csd(a,c)); - } - result_type operator()(Point const&a, Point const&b, Point const&c, Point const&d)const{ - CSD csd(this->kernel()); - return CGAL_NTS compare(csd(a,b),csd(c,d)); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Compare_distance_tag,(CartesianDKernelFunctors::Compare_distance<K>),(Point_tag),(Squared_distance_tag)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Less_point_cartesian_coordinate : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Less_point_cartesian_coordinate) - typedef R_ R; - typedef typename Get_type<R, Bool_tag>::type result_type; - typedef typename Get_functor<R, Compute_point_cartesian_coordinate_tag>::type Cc; - // TODO: This is_exact thing should be reengineered. - // the goal is to have a way to tell: don't filter this - typedef typename CGAL::Is_exact<Cc> Is_exact; - - template<class V,class W,class I> - result_type operator()(V const&a, W const&b, I i)const{ - Cc c(this->kernel()); - return c(a,i)<c(b,i); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Less_point_cartesian_coordinate_tag,(CartesianDKernelFunctors::Less_point_cartesian_coordinate<K>),(),(Compute_point_cartesian_coordinate_tag)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Compare_point_cartesian_coordinate : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Compare_point_cartesian_coordinate) - typedef R_ R; - typedef typename Get_type<R, Comparison_result_tag>::type result_type; - typedef typename Get_functor<R, Compute_point_cartesian_coordinate_tag>::type Cc; - // TODO: This is_exact thing should be reengineered. - // the goal is to have a way to tell: don't filter this - typedef typename CGAL::Is_exact<Cc> Is_exact; - - template<class V,class W,class I> - result_type operator()(V const&a, W const&b, I i)const{ - Cc c(this->kernel()); - return CGAL_NTS compare(c(a,i),c(b,i)); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Compare_point_cartesian_coordinate_tag,(CartesianDKernelFunctors::Compare_point_cartesian_coordinate<K>),(),(Compute_point_cartesian_coordinate_tag)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Compare_lexicographically : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Compare_lexicographically) - typedef R_ R; - typedef typename Get_type<R, Comparison_result_tag>::type result_type; - typedef typename Get_functor<R, Construct_ttag<Point_cartesian_const_iterator_tag> >::type CI; - // TODO: This is_exact thing should be reengineered. - // the goal is to have a way to tell: don't filter this - typedef typename CGAL::Is_exact<CI> Is_exact; - - template<class V,class W> - result_type operator()(V const&a, W const&b)const{ - CI c(this->kernel()); -#ifdef CGAL_CXX11 - auto -#else - typename CI::result_type -#endif - a_begin=c(a,Begin_tag()), - b_begin=c(b,Begin_tag()), - a_end=c(a,End_tag()); - result_type res; - // can't we do slightly better for Uncertain<*> ? - // after res=...; if(is_uncertain(res))return indeterminate<result_type>(); - do res=CGAL_NTS compare(*a_begin++,*b_begin++); - while(a_begin!=a_end && res==EQUAL); - return res; - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Compare_lexicographically_tag,(CartesianDKernelFunctors::Compare_lexicographically<K>),(),(Construct_ttag<Point_cartesian_const_iterator_tag>)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Less_lexicographically : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Less_lexicographically) - typedef R_ R; - typedef typename Get_type<R, Bool_tag>::type result_type; - typedef typename Get_functor<R, Compare_lexicographically_tag>::type CL; - typedef typename CGAL::Is_exact<CL> Is_exact; - - template <class V, class W> - result_type operator() (V const&a, W const&b) const { - CL c (this->kernel()); - return c(a,b) < 0; - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Less_lexicographically_tag,(CartesianDKernelFunctors::Less_lexicographically<K>),(),(Compare_lexicographically_tag)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Less_or_equal_lexicographically : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Less_or_equal_lexicographically) - typedef R_ R; - typedef typename Get_type<R, Bool_tag>::type result_type; - typedef typename Get_functor<R, Compare_lexicographically_tag>::type CL; - typedef typename CGAL::Is_exact<CL> Is_exact; - - template <class V, class W> - result_type operator() (V const&a, W const&b) const { - CL c (this->kernel()); - return c(a,b) <= 0; - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Less_or_equal_lexicographically_tag,(CartesianDKernelFunctors::Less_or_equal_lexicographically<K>),(),(Compare_lexicographically_tag)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Equal_points : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Equal_points) - typedef R_ R; - typedef typename Get_type<R, Bool_tag>::type result_type; - typedef typename Get_functor<R, Construct_ttag<Point_cartesian_const_iterator_tag> >::type CI; - // TODO: This is_exact thing should be reengineered. - // the goal is to have a way to tell: don't filter this - typedef typename CGAL::Is_exact<CI> Is_exact; - - template<class V,class W> - result_type operator()(V const&a, W const&b)const{ - CI c(this->kernel()); -#ifdef CGAL_CXX11 - auto -#else - typename CI::result_type -#endif - a_begin=c(a,Begin_tag()), - b_begin=c(b,Begin_tag()), - a_end=c(a,End_tag()); - result_type res = true; - // Is using CGAL::possibly for Uncertain really an optimization? - do res = res & (*a_begin++ == *b_begin++); - while(a_begin!=a_end && possibly(res)); - return res; - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Equal_points_tag,(CartesianDKernelFunctors::Equal_points<K>),(),(Construct_ttag<Point_cartesian_const_iterator_tag>)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Oriented_side : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Oriented_side) - typedef R_ R; - typedef typename Get_type<R, Oriented_side_tag>::type result_type; - typedef typename Get_type<R, Point_tag>::type Point; - typedef typename Get_type<R, Hyperplane_tag>::type Hyperplane; - typedef typename Get_type<R, Sphere_tag>::type Sphere; - typedef typename Get_functor<R, Value_at_tag>::type VA; - typedef typename Get_functor<R, Hyperplane_translation_tag>::type HT; - typedef typename Get_functor<R, Squared_distance_tag>::type SD; - typedef typename Get_functor<R, Squared_radius_tag>::type SR; - typedef typename Get_functor<R, Center_of_sphere_tag>::type CS; - - result_type operator()(Hyperplane const&h, Point const&p)const{ - HT ht(this->kernel()); - VA va(this->kernel()); - return CGAL::compare(va(h,p),ht(h)); - } - result_type operator()(Sphere const&s, Point const&p)const{ - SD sd(this->kernel()); - SR sr(this->kernel()); - CS cs(this->kernel()); - return CGAL::compare(sd(cs(s),p),sr(s)); - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Oriented_side_tag,(CartesianDKernelFunctors::Oriented_side<K>),(Point_tag,Sphere_tag,Hyperplane_tag),(Value_at_tag,Hyperplane_translation_tag,Squared_distance_tag,Squared_radius_tag,Center_of_sphere_tag)); - -namespace CartesianDKernelFunctors { -template<class R_> struct Has_on_positive_side : private Store_kernel<R_> { - CGAL_FUNCTOR_INIT_STORE(Has_on_positive_side) - typedef R_ R; - typedef typename Get_type<R, Bool_tag>::type result_type; - typedef typename Get_functor<R, Oriented_side_tag>::type OS; - - template <class Obj, class Pt> - result_type operator()(Obj const&o, Pt const&p)const{ - OS os(this->kernel()); - return os(o,p) == ON_POSITIVE_SIDE; - } -}; -} - -CGAL_KD_DEFAULT_FUNCTOR(Has_on_positive_side_tag,(CartesianDKernelFunctors::Has_on_positive_side<K>),(),(Oriented_side_tag)); - -} -#include <CGAL/NewKernel_d/Coaffine.h> -#endif // CGAL_KERNEL_D_FUNCTION_OBJECTS_CARTESIAN_H |