// Copyright (c) 1997 ETH Zurich (Switzerland). // All rights reserved. // // This file is part of CGAL (www.cgal.org). // // $URL: https://github.com/CGAL/cgal/blob/v5.3/SearchStructures/include/CGAL/Range_tree_k.h $ // $Id: Range_tree_k.h 0779373 2020-03-26T13:31:46+01:00 Sébastien Loriot // SPDX-License-Identifier: GPL-3.0-or-later OR LicenseRef-Commercial // // // Author(s) : Gabriele Neyer #ifndef CGAL_RANGE_TREE_K_H #define CGAL_RANGE_TREE_K_H #include // Predefined k-dimensional Range Trees (k=1..4) // The trees can either be templated with d arbitrary types // (e.g., Range_tree_3) // or with an unary type for each dimension // (e.g., Range_tree_uni_4). // The container class and sequence container class as well as the // interfaces are defined in these classes. #include #include #include #include #include //------------------------------------------------------------------- // A one dimensional Range Tree is defined in this class. // Ti is the type of each dimension of the tree. namespace CGAL { template class Range_tree_1 { public: typedef C_Traits_1 Traits; typedef typename C_Traits_1::Key Key; typedef typename C_Traits_1::Interval Interval; typedef typename C_Traits_1::Key_1 Key_1; typedef typename C_Traits_1::key_1 key_1; typedef typename C_Traits_1::low_1 low_1; typedef typename C_Traits_1::high_1 high_1; typedef typename C_Traits_1::compare_1 compare_1; typedef tree_point_traits I1; typedef Tree_anchor Tree_anchor_type; Tree_anchor_type *anchor; typedef Range_tree_d Range_tree_1_type; Range_tree_1_type * range_tree_1; Range_tree_1() { anchor = new Tree_anchor_type; range_tree_1 = new Range_tree_1_type(*anchor); } template Range_tree_1(const T& first, const T& last) : anchor(new Tree_anchor_type), range_tree_1(new Range_tree_1_type(*anchor)) { range_tree_1->make_tree(first,last); } template bool make_tree(const T& first, const T& last) { delete range_tree_1; delete anchor; anchor = new Tree_anchor_type; range_tree_1 = new Range_tree_1_type(*anchor); return range_tree_1->make_tree(first,last); } template T window_query(Interval const &win, const T& result) { return range_tree_1->window_query(win, result); } ~Range_tree_1() { if (range_tree_1!=0) delete range_tree_1; if (anchor!=0) delete anchor; } }; //------------------------------------------------------------------- // A two dimensional Range Tree is defined in this class. // Ti is the type of each dimension of the tree. template class Range_tree_2 { public: typedef C_Traits_2 Traits; typedef typename C_Traits_2::Key Key; typedef typename C_Traits_2::Interval Interval; typedef typename C_Traits_2::Key_2 Key_2; typedef typename C_Traits_2::Key_1 Key_1; typedef typename C_Traits_2::key_1 key_1; typedef typename C_Traits_2::key_2 key_2; typedef typename C_Traits_2::low_1 low_1; typedef typename C_Traits_2::high_1 high_1; typedef typename C_Traits_2::low_2 low_2; typedef typename C_Traits_2::high_2 high_2; typedef typename C_Traits_2::compare_1 compare_1; typedef typename C_Traits_2::compare_2 compare_2; typedef tree_point_traits I1; typedef tree_point_traits I2; typedef Tree_anchor Tree_anchor_type; Tree_anchor_type *anchor; typedef Range_tree_d Range_tree_1_type; Range_tree_1_type * range_tree_1; typedef Range_tree_d Range_tree_2_type; Range_tree_2_type *range_tree_2; Range_tree_2() : anchor(new Tree_anchor_type), range_tree_1(new Range_tree_1_type(*anchor)), range_tree_2(new Range_tree_2_type(*range_tree_1)) {} template Range_tree_2(const T& first, const T& last) : anchor(new Tree_anchor_type), range_tree_1(new Range_tree_1_type(*anchor)), range_tree_2(new Range_tree_2_type(*range_tree_1)) { range_tree_2->make_tree(first,last); } template bool make_tree(const T& first, const T& last) { delete range_tree_2; delete range_tree_1; delete anchor; anchor = new Tree_anchor_type; range_tree_1 = new Range_tree_1_type(*anchor); range_tree_2 = new Range_tree_2_type(*range_tree_1); return range_tree_2->make_tree(first,last); } template T window_query(Interval const &win, const T& result) { return range_tree_2->window_query(win, result); } ~Range_tree_2() { if (range_tree_2!=0) delete range_tree_2; if (range_tree_1!=0) delete range_tree_1; if (anchor!=0) delete anchor; } }; //------------------------------------------------------------------- // A three dimensional Range Tree is defined in this class. // Ti is the type of each dimension of the tree. template class Range_tree_3 { public: typedef C_Traits_3 Traits; typedef typename C_Traits_3::Key Key; typedef typename C_Traits_3::Interval Interval; typedef typename C_Traits_3::Key_1 Key_1; typedef typename C_Traits_3::Key_2 Key_2; typedef typename C_Traits_3::Key_3 Key_3; typedef typename C_Traits_3::key_1 key_1; typedef typename C_Traits_3::key_2 key_2; typedef typename C_Traits_3::key_3 key_3; typedef typename C_Traits_3::low_1 low_1; typedef typename C_Traits_3::high_1 high_1; typedef typename C_Traits_3::low_2 low_2; typedef typename C_Traits_3::high_2 high_2; typedef typename C_Traits_3::low_3 low_3; typedef typename C_Traits_3::high_3 high_3; typedef typename C_Traits_3::compare_1 compare_1; typedef typename C_Traits_3::compare_2 compare_2; typedef typename C_Traits_3::compare_3 compare_3; typedef tree_point_traits I1; typedef tree_point_traits I2; typedef tree_point_traits I3; typedef Tree_anchor Tree_anchor_type; Tree_anchor_type *anchor; typedef Range_tree_d Range_tree_1_type; Range_tree_1_type * range_tree_1; typedef Range_tree_d Range_tree_2_type; Range_tree_2_type * range_tree_2; typedef Range_tree_d Range_tree_3_type; Range_tree_3_type *range_tree_3; Range_tree_3() : anchor(new Tree_anchor_type), range_tree_1(new Range_tree_1_type(*anchor)), range_tree_2(new Range_tree_2_type(*range_tree_1)), range_tree_3(new Range_tree_3_type(*range_tree_2)) {} template Range_tree_3(const T& first, const T& last) : anchor(new Tree_anchor_type), range_tree_1(new Range_tree_1_type(*anchor)), range_tree_2(new Range_tree_2_type(*range_tree_1)), range_tree_3(new Range_tree_3_type(*range_tree_2)) { range_tree_3->make_tree(first,last); } template bool make_tree(const T& first, const T& last) { delete range_tree_3; delete range_tree_2; delete range_tree_1; delete anchor; anchor = new Tree_anchor_type; range_tree_1 = new Range_tree_1_type(*anchor); range_tree_2 = new Range_tree_2_type(*range_tree_1); range_tree_3 = new Range_tree_3_type(*range_tree_2); return range_tree_3->make_tree(first,last); } template T window_query(Interval const &win, const T& result) { return range_tree_3->window_query(win, result); } ~Range_tree_3() { if (range_tree_3!=0) delete range_tree_3; if (range_tree_2!=0) delete range_tree_2; if (range_tree_1!=0) delete range_tree_1; if (anchor!=0) delete anchor; } }; //------------------------------------------------------------------- // A three dimensional Range Tree is defined in this class. // Ti is the type of each dimension of the tree. template class Range_tree_4 { public: typedef C_Traits_4 Traits; typedef typename C_Traits_4::Key Key; typedef typename C_Traits_4::Interval Interval; typedef typename C_Traits_4::Key_1 Key_1; typedef typename C_Traits_4::Key_2 Key_2; typedef typename C_Traits_4::Key_3 Key_3; typedef typename C_Traits_4::Key_4 Key_4; typedef typename C_Traits_4::key_1 key_1; typedef typename C_Traits_4::key_2 key_2; typedef typename C_Traits_4::key_4 key_4; typedef typename C_Traits_4::key_3 key_3; typedef typename C_Traits_4::low_1 low_1; typedef typename C_Traits_4::high_1 high_1; typedef typename C_Traits_4::low_2 low_2; typedef typename C_Traits_4::high_2 high_2; typedef typename C_Traits_4::low_3 low_3; typedef typename C_Traits_4::high_3 high_3; typedef typename C_Traits_4::low_4 low_4; typedef typename C_Traits_4::high_4 high_4; typedef typename C_Traits_4::compare_1 compare_1; typedef typename C_Traits_4::compare_2 compare_2; typedef typename C_Traits_4::compare_3 compare_3; typedef typename C_Traits_4::compare_4 compare_4; typedef tree_point_traits I1; typedef tree_point_traits I2; typedef tree_point_traits I3; typedef tree_point_traits I4; typedef Tree_anchor Tree_anchor_type; Tree_anchor_type *anchor; typedef Range_tree_d Range_tree_1_type; Range_tree_1_type * range_tree_1; typedef Range_tree_d Range_tree_2_type; Range_tree_2_type * range_tree_2; typedef Range_tree_d Range_tree_3_type; Range_tree_3_type *range_tree_3; typedef Range_tree_d Range_tree_4_type; Range_tree_4_type *range_tree_4; Range_tree_4() : anchor(new Tree_anchor_type), range_tree_1(new Range_tree_1_type(*anchor)), range_tree_2(new Range_tree_2_type(*range_tree_1)), range_tree_3(new Range_tree_3_type(*range_tree_2)), range_tree_4(new Range_tree_4_type(*range_tree_3)) {} template Range_tree_4(const T& first, const T& last) : anchor(new Tree_anchor_type), range_tree_1(new Range_tree_1_type(*anchor)), range_tree_2(new Range_tree_2_type(*range_tree_1)), range_tree_3(new Range_tree_3_type(*range_tree_2)), range_tree_4(new Range_tree_4_type(*range_tree_3)) { range_tree_4->make_tree(first,last); } template bool make_tree(const T& first, const T& last) { delete range_tree_4; delete range_tree_3; delete range_tree_2; delete range_tree_1; delete anchor; anchor = new Tree_anchor_type; range_tree_1 = new Range_tree_1_type(*anchor); range_tree_2 = new Range_tree_2_type(*range_tree_1); range_tree_3 = new Range_tree_3_type(*range_tree_2); range_tree_4 = new Range_tree_4_type(*range_tree_3); return range_tree_4->make_tree(first,last); } template T window_query(Interval const &win, const T& result) { return range_tree_4->window_query(win, result); } ~Range_tree_4() { if (range_tree_4!=0) delete range_tree_4; if (range_tree_3!=0) delete range_tree_3; if (range_tree_2!=0) delete range_tree_2; if (range_tree_1!=0) delete range_tree_1; if (anchor!=0) delete anchor; } }; } //namespace CGAL #endif