// Copyright (c) 2000 Max-Planck-Institute Saarbruecken (Germany). // All rights reserved. // // This file is part of CGAL (www.cgal.org); you may redistribute it under // the terms of the Q Public License version 1.0. // See the file LICENSE.QPL distributed with CGAL. // // 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. // // $Source$ // $Revision$ $Date$ // $Name$ // // Author(s) : Susan Hert /* Node of a rotation tree, used for computing the visibility graph of a set of non-intersecting segments in a graph Associated with each node in the rotation tree is the following information - the coordinates of the associated segment endpoint - a pointer to the parent - a pointer to the left sibling - a pointer to the right sibling - a pointer to the rightmost child. */ #ifndef CGAL_ROTATION_TREE_NODE_H #define CGAL_ROTATION_TREE_NODE_H #include // MSVC6 doesn't work with the CGALi::vector but it does with the std::vector // (from stlport?) #if (defined( _MSC_VER) && (_MSC_VER <= 1200)) || defined(__BORLANDC__) #include #else #include #endif // MSVC6 namespace CGAL { template class Rotation_tree_2; template class Rotation_tree_node_2 : public Traits::Point_2 { public: typedef typename Traits::Point_2 Base_point; typedef Rotation_tree_node_2 Self; #if (defined( _MSC_VER) && (_MSC_VER <= 1200)) || defined(__BORLANDC__) typedef std::vector< Self > Tree; #else typedef CGALi::vector< Self > Tree; #endif typedef typename Tree::iterator Tree_iterator; typedef std::pair Node_ref; Rotation_tree_node_2(Base_point p) : Base_point(p) { _parent.second = false; _left_sibling.second = false; _right_sibling.second = false; _rightmost_child.second = false; } bool has_left_sibling() const { return _left_sibling.second; } Tree_iterator left_sibling() const { return _left_sibling.first; } bool has_right_sibling() const { return _right_sibling.second; } Tree_iterator right_sibling() const { return _right_sibling.first; } bool has_parent() const { return _parent.second; } Tree_iterator parent() const { return _parent.first; } bool has_children() const { return _rightmost_child.second; } Tree_iterator rightmost_child() const { return _rightmost_child.first; } void set_left_sibling(Tree_iterator ls) { _left_sibling.first = ls; _left_sibling.second = true; } void clear_left_sibling() { _left_sibling.second = false; } void set_right_sibling(Tree_iterator rs) { _right_sibling.first = rs; _right_sibling.second = true; } void clear_right_sibling() { _right_sibling.second = false; } void set_parent(Tree_iterator p) { _parent.first = p; _parent.second = true; } void clear_parent() { _parent.second = false; } void set_rightmost_child(Tree_iterator c) { _rightmost_child.first = c; _rightmost_child.second = true; } void clear_rightmost_child() { _rightmost_child.second = false; } bool is_a_leaf() { return !_rightmost_child.second; } private: Node_ref _parent; Node_ref _left_sibling; Node_ref _right_sibling; Node_ref _rightmost_child; }; #ifdef CGAL_PARTITION_DEBUG template std::ostream& operator<<(std::ostream& os, const Rotation_tree_node_2& node) { os << node.x() << " " << node.y() << " "; if (node.has_parent()) os << " parent " << (*node.parent()).x() << " " << (*node.parent()).y() << " "; if (node.has_left_sibling()) os << " left sibling " << (*node.left_sibling()).x() << " " << (*node.left_sibling()).y() << " "; if (node.has_right_sibling()) os << " right sibling " << (*node.right_sibling()).x() << " " << (*node.right_sibling()).y() << " "; if (node.has_children()) os << " rightmost child " << (*node.rightmost_child()).x() << " " << (*node.rightmost_child()).y(); return os; } #endif // CGAL_PARTITION_DEBUG } #endif // CGAL_ROTATION_NODE_TREE_H