// Copyright (c) 2000,2001 // Utrecht University (The Netherlands), // ETH Zurich (Switzerland), // INRIA Sophia-Antipolis (France), // Max-Planck-Institute Saarbruecken (Germany), // and Tel-Aviv University (Israel). All rights reserved. // // 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. // // $URL$ // $Id$ // SPDX-License-Identifier: LGPL-3.0+ // // // Author(s) : Michael Seel #ifndef CGAL_RAY_D_H #define CGAL_RAY_D_H #include #include #include #include #include #include #include namespace CGAL { template std::istream& operator>>(std::istream&, Ray_d&); template std::ostream& operator<<(std::ostream&, const Ray_d&); /*{\Manpage {Ray_d}{R}{Rays in d-space}{r}}*/ template class Ray_d : public Handle_for< Pair_d > { typedef Pair_d Pair; typedef Handle_for Base; typedef Ray_d Self; using Base::ptr; /*{\Mdefinition An instance of data type |Ray_d| is a ray in $d$-dimensional Euclidian space. It starts in a point called the source of |\Mvar| and it goes to infinity.}*/ public: typedef CGAL::Dynamic_dimension_tag Ambient_dimension; typedef CGAL::Dimension_tag<1> Feature_dimension; /*{\Mtypes 4}*/ typedef p_R R; /*{\Mtypemember the representation type.}*/ typedef typename p_R::RT RT; /*{\Mtypemember the ring type.}*/ typedef typename p_R::FT FT; /*{\Mtypemember the field type.}*/ typedef typename p_R::LA LA; /*{\Mtypemember the linear algebra layer.}*/ typedef typename Vector_d::Base_vector Base_vector; friend class Line_d; friend class Segment_d; private: Ray_d(const Base& b) : Base(b) {} public: /*{\Mcreation 3}*/ Ray_d() : Base( Pair() ) {} /*{\Mcreate introduces some ray in $d$-dimensional space }*/ Ray_d(const Point_d& p, const Point_d& q) /*{\Mcreate introduces a ray through |p| and |q| and starting at |p|. \precond $p$ and $q$ are distinct and have the same dimension. }*/ : Base( Pair(p,q) ) { CGAL_assertion_msg(!ptr()->is_degenerate(), "Ray_d::constructor: the two points must be different." ); CGAL_assertion_msg((p.dimension()==q.dimension()), "Ray_d::constructor: the two points must have the same dimension." ); } Ray_d(const Point_d& p, const Direction_d& dir) /*{\Mcreate introduces a ray starting in |p| with direction |dir|. \precond |p| and |dir| have the same dimension and |dir| is not trivial.}*/ : Base( Pair(p,p+dir.vector()) ) { CGAL_assertion_msg((p.dimension()==dir.dimension()), "Ray_d::constructor: the p and dir must have the same dimension." ); CGAL_assertion_msg(!dir.is_degenerate(), "Ray_d::constructor: dir must be non-degenerate." ); } Ray_d(const Segment_d& s) /*{\Mcreate introduces a ray through |s.source()| and |s.target()| and starting at |s.source()|. \precond $s$ is not trivial. }*/ : Base( s ) { CGAL_assertion_msg(!s.is_degenerate(), "Ray_d::constructor: segment is trivial."); } Ray_d(const Ray_d& r) : Base(r) {} /*{\Moperations 3 3}*/ int dimension() const { return (ptr()->_p[0].dimension()); } /*{\Mop returns the dimension of the underlying space.}*/ Point_d source() const { return (ptr()->_p[0]); } /*{\Mop returns the source point of |\Mvar|. }*/ Point_d point(int i) const /*{\Mop returns a point on |\Mvar|. |point(0)| is the source. |point(i)|, with $i>0$, is different from the source. \precond $i \geq 0$.}*/ { return (ptr()->_p[i%2]); } Direction_d direction() const /*{\Mop returns the direction of |\Mvar|. }*/ { return ptr()->direction(); } inline Line_d supporting_line() const; /*{\Mop returns the supporting line of |\Mvar|.}*/ Ray_d opposite() const /*{\Mop returns the ray with direction opposite to |\Mvar| and starting in |source|.}*/ { return Ray_d(source(),-direction()); } Ray_d transform(const Aff_transformation_d& t) const /*{\Mop returns $t(l)$. }*/ { return Ray_d(point(0).transform(t),point(1).transform(t)); } Ray_d operator+(const Vector_d& v) const /*{\Mbinop returns |\Mvar+v|, i.e., |\Mvar| translated by vector $v$.}*/ { return Ray_d(point(0)+v, point(1)+v); } bool has_on(const Point_d& p) const /*{\Mop A point is on |r|, iff it is equal to the source of |r|, or if it is in the interior of |r|.}*/ { typename R::Position_on_line_d pos; FT l; if (pos(p,point(0),point(1),l)) return (FT(0)<=l); return false; } /*{\Mtext \headerline{Non-Member Functions}}*/ bool operator==(const Ray_d& r1) const { if ( this->identical(r1) ) return true; if ( dimension() != r1.dimension() ) return false; return source() == r1.source() && direction() == r1.direction(); } bool operator!=(const Ray_d& r1) { return !operator==(r1); } friend std::istream& operator>> <> (std::istream&, Ray_d&); friend std::ostream& operator<< <> (std::ostream&, const Ray_d&); }; // end of class template bool parallel(const Ray_d& r1, const Ray_d& r2) /*{\Mfunc returns true if the unoriented supporting lines of |r1| and |r2| are parallel and false otherwise. }*/ { return (r1.direction() == r2.direction()) || (r1.direction() == -(r2.direction())); } template std::istream& operator>>(std::istream& I, Ray_d& r) { r.copy_on_write(); r.ptr()->read(I); CGAL_assertion_msg(r.point(0)!=r.point(1), "Line_d::operator>>: trivial ray."); CGAL_assertion_msg(r.point(0).dimension()==r.point(1).dimension(), "Ray_d::operator>>: dimensions disagree."); return I; } template std::ostream& operator<<(std::ostream& O, const Ray_d& r) { r.ptr()->print(O,"Ray_d"); return O; } /*{\Mimplementation Rays are implemented by a pair of points as an item type. All operations like creation, initialization, tests, direction calculation, input and output on a ray $r$ take time $O(|r.dimension()|)$. |dimension()|, coordinate and point access, and identity test take constant time. The space requirement is $O(|r.dimension()|)$.}*/ } //namespace CGAL #endif // CGAL_RAYHD_H //----------------------- end of file ----------------------------------