// ====================================================================== // // Copyright (c) 2000 The CGAL Consortium // // This software and related documentation is part of an INTERNAL release // of the Computational Geometry Algorithms Library (CGAL). It is not // intended for general use. // // ---------------------------------------------------------------------- // // release : // release_date : // // file : include/CGAL/Cartesian/Direction_2.h // revision : $Revision$ // revision_date : $Date$ // author(s) : Andreas Fabri, Herve Bronnimann // coordinator : INRIA Sophia-Antipolis (Mariette.Yvinec@sophia.inria.fr) // // ====================================================================== #ifndef CGAL_CARTESIAN_DIRECTION_2_H #define CGAL_CARTESIAN_DIRECTION_2_H CGAL_BEGIN_NAMESPACE template < class R_ > class DirectionC2 : public R_::Direction_handle_2 { CGAL_VC7_BUG_PROTECTED typedef typename R_::FT FT; typedef typename R_::Point_2 Point_2; typedef typename R_::Vector_2 Vector_2; typedef typename R_::Line_2 Line_2; typedef typename R_::Ray_2 Ray_2; typedef typename R_::Segment_2 Segment_2; typedef typename R_::Direction_2 Direction_2; typedef typename R_::Aff_transformation_2 Aff_transformation_2; typedef typename R_::Direction_handle_2 base; typedef typename base::element_type rep; public: typedef R_ R; DirectionC2() : base(rep()) {} DirectionC2(const Vector_2 &v) : base(v) {} DirectionC2(const Line_2 &l) : base(l.direction()) {} DirectionC2(const Ray_2 &r) : base(r.direction()) {} DirectionC2(const Segment_2 &s) : base(s.direction()) {} DirectionC2(const FT &x, const FT &y) : base(rep(x, y)) {} bool operator==(const DirectionC2 &d) const; bool operator!=(const DirectionC2 &d) const; bool operator>=(const DirectionC2 &d) const; bool operator<=(const DirectionC2 &d) const; bool operator>(const DirectionC2 &d) const; bool operator<(const DirectionC2 &d) const; bool counterclockwise_in_between( const DirectionC2 &d1, const DirectionC2 &d2) const; Vector_2 to_vector() const; Vector_2 vector() const { return to_vector(); } Direction_2 perpendicular(const Orientation &o) const; Direction_2 transform(const Aff_transformation_2 &t) const { return t.transform(*this); } Direction_2 operator-() const; const FT & delta(int i) const; const FT & dx() const { return Ptr()->e0; } const FT & dy() const { return Ptr()->e1; } }; #ifdef CGAL_CFG_TYPENAME_BUG #define typename #endif template < class R > inline bool DirectionC2::operator==(const DirectionC2 &d) const { if (identical(d)) return true; return equal_direction(*this, d); } template < class R > inline bool DirectionC2::operator!=(const DirectionC2 &d) const { return !( *this == d ); } template < class R > CGAL_KERNEL_MEDIUM_INLINE bool DirectionC2::operator<(const DirectionC2 &d) const { return compare_angle_with_x_axis(*this, d) == SMALLER; } template < class R > CGAL_KERNEL_INLINE bool DirectionC2::operator>(const DirectionC2 &d) const { return d < *this; } template < class R > CGAL_KERNEL_INLINE bool DirectionC2::operator>=(const DirectionC2 &d) const { return compare_angle_with_x_axis(*this, d) != SMALLER; } template < class R > CGAL_KERNEL_INLINE bool DirectionC2::operator<=(const DirectionC2 &d) const { return compare_angle_with_x_axis(*this, d) != LARGER; } template < class R > CGAL_KERNEL_INLINE bool DirectionC2:: counterclockwise_in_between(const DirectionC2 &d1, const DirectionC2 &d2) const // returns true, iff \ccVar\ is not equal to \ccc{d1}, and // while rotating counterclockwise starting at \ccc{d1}, // \ccVar\ is reached strictly before \ccc{d2} is reached. // Note that true is returned if \ccc{d1} == \ccc{d2}, unless // also \ccVar\ == \ccc{d1}. { if ( d1 < *this) return ( *this < d2 )||( d2 <= d1 ); else return ( *this < d2 )&&( d2 <= d1 ); } template < class R > inline typename DirectionC2::Vector_2 DirectionC2::to_vector() const { return Vector_2(dx(), dy()); } template < class R > CGAL_KERNEL_MEDIUM_INLINE typename DirectionC2::Direction_2 DirectionC2::perpendicular(const Orientation &o) const { CGAL_kernel_precondition(o != COLLINEAR); if (o == COUNTERCLOCKWISE) return DirectionC2(-dy(), dx()); else return DirectionC2(dy(), -dx()); } template < class R > inline typename DirectionC2::Direction_2 DirectionC2::operator-() const { return DirectionC2(-dx(), -dy()); } template < class R > CGAL_KERNEL_INLINE const typename DirectionC2::FT & DirectionC2::delta(int i) const { CGAL_kernel_precondition( ( i == 0 ) || ( i == 1 ) ); return (i==0) ? dx() : dy(); } #ifndef CGAL_NO_OSTREAM_INSERT_DIRECTIONC2 template < class R > std::ostream& operator<<(std::ostream &os, const DirectionC2 &d) { typename R::Vector_2 v = d.to_vector(); switch(os.iword(IO::mode)) { case IO::ASCII : return os << v.x() << ' ' << v.y(); case IO::BINARY : write(os, v.x()); write(os, v.y()); return os; default: return os << "DirectionC2(" << v.x() << ", " << v.y() << ')'; } } #endif // CGAL_NO_OSTREAM_INSERT_DIRECTIONC2 #ifndef CGAL_NO_ISTREAM_EXTRACT_DIRECTIONC2 template < class R > std::istream& operator>>(std::istream &is, DirectionC2 &p) { typename R::FT x, y; switch(is.iword(IO::mode)) { case IO::ASCII : is >> x >> y; break; case IO::BINARY : read(is, x); read(is, y); break; default: std::cerr << std::endl << "Stream must be in ascii or binary mode" << std::endl; break; } if (is) p = DirectionC2(x, y); return is; } #endif // CGAL_NO_ISTREAM_EXTRACT_DIRECTIONC2 #ifdef CGAL_CFG_TYPENAME_BUG #undef typename #endif CGAL_END_NAMESPACE #endif // CGAL_CARTESIAN_DIRECTION_2_H