// 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/v5.1/SearchStructures/include/CGAL/Tree_base.h $ // $Id: Tree_base.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_TREE_BASE_H #define CGAL_TREE_BASE_H #include #include #include #include #include #include #include #include #ifndef CGAL_TREE_BASE_nullptr #define CGAL_TREE_BASE_nullptr 0 #endif #define stlvector namespace CGAL { //link type definition of an ordinary vertex of the tree template < typename Node > struct Tree_node_base { Node *parent_link; Node *left_link; Node *right_link; Tree_node_base() : parent_link(0), left_link(0), right_link(0) {} Tree_node_base(Node* ll, Node* rl) : parent_link(0), left_link(ll), right_link(rl) {} }; // ------------------------------------------------------------------- // pure virtual abstract base class. // Designed according to the Prototype Design Pattern // A tree class has to be derived from this class. template class Tree_base { protected: Tree_base(Tree_base const &); // prevent access void operator= (Tree_base const &); // prevent access public: typedef double vit; typedef int lit; typedef int lbit; typedef double vbit; typedef char oit; // typedef std::vector::iterator vit; //typedef std::list::iterator lit; //typedef std::back_insert_iterator lbit; //typedef std::back_insert_iterator vbit; typedef Tree_base Tree_base_type; Tree_base() {} virtual ~Tree_base() {} // 'clone()' returns an object which can be used as argument to 'delete' virtual Tree_base *clone() const = 0; //virtual Tree_base_type *clone() const = 0; // 'make_tree()' returns an object which can be used as argument to 'delete' virtual bool make_tree(const typename std::list::iterator& beg, const typename std::list::iterator& end, lit *dummy=0) =0; #ifdef stlvector virtual bool make_tree(const typename std::vector::iterator& beg, const typename std::vector::iterator& end, vit *dummy=0) =0; #endif #ifdef carray virtual bool make_tree(const C_Data *beg, const C_Data *end) =0; #endif virtual std::back_insert_iterator< std::list > window_query(C_Window const &win, std::back_insert_iterator< std::list > out,lbit *dummy=0 ) = 0; virtual std::back_insert_iterator< std::vector > window_query(C_Window const &win, std::back_insert_iterator< std::vector > out,vbit *dummy=0) = 0; #ifdef carray virtual C_Data * window_query( C_Window const &win, C_Data * out) = 0; #endif #ifdef ostreamiterator typedef std::ostream_iterator< C_Data> oit; virtual std::ostream_iterator< C_Data> window_query( C_Window const &win, std::ostream_iterator< C_Data> out, oit *dummy=0 ) = 0; #endif virtual std::back_insert_iterator< std::list< C_Data> > enclosing_query( C_Window const &win, std::back_insert_iterator< std::list< C_Data> > out, lbit *dummy=0 ) = 0; virtual std::back_insert_iterator< std::vector< C_Data> > enclosing_query( C_Window const &win, std::back_insert_iterator< std::vector< C_Data> > out,vbit *dummy=0 ) = 0; #ifdef carray virtual C_Data * enclosing_query( C_Window const &win, C_Data *out) = 0; #endif #ifdef ostreamiterator virtual std::ostream_iterator< C_Data> enclosing_query( C_Window const &win, std::ostream_iterator< C_Data> out, oit *dummy=0) = 0; #endif virtual bool is_inside( C_Window const &win, C_Data const& object) const =0; virtual bool is_anchor()const =0; virtual bool is_valid()const =0; }; // ------------------------------------------------------------------- // Tree Anchor: this class is used as a recursion anchor. // The derived tree classes can be nested. Use this class as the // most inner class. This class is doing nothin exept stopping the recursion template class Tree_anchor: public Tree_base< C_Data, C_Window> { public: // Construct a factory with the given factory as sublayer Tree_anchor() {} virtual ~Tree_anchor(){} Tree_base *clone() const { return new Tree_anchor(); } typedef Tree_base tbt; // Tree_base_type *clone() const { return new Tree_anchor(); } bool make_tree(const typename std::list< C_Data>::iterator& /*beg*/, const typename std::list< C_Data>::iterator& /*end*/, typename tbt::lit * =0) { return true; } #ifdef stlvector bool make_tree(const typename std::vector< C_Data>::iterator& /*beg*/, const typename std::vector< C_Data>::iterator& /*end*/, typename tbt::vit * =0) { return true; } #endif #ifdef carray bool make_tree(const C_Data * /*beg*/, const C_Data * /*end*/) { return true; } #endif std::back_insert_iterator< std::list< C_Data> > window_query( C_Window const &, std::back_insert_iterator< std::list< C_Data> > out, typename tbt::lbit * =0){ return out; } std::back_insert_iterator< std::vector< C_Data> > window_query( C_Window const &, std::back_insert_iterator< std::vector< C_Data> > out, typename tbt::vbit * =0){ return out; } #ifdef carray C_Data * window_query( C_Window const &, C_Data * out){ return out; } #endif #ifdef ostreamiterator std::ostream_iterator< C_Data> window_query( C_Window const &, std::ostream_iterator< C_Data> out, typename tbt::oit *dummy=0){ return out; } #endif std::back_insert_iterator< std::list< C_Data> > enclosing_query( C_Window const &, std::back_insert_iterator< std::list< C_Data> > out, typename tbt::lbit * =0){ return out; } std::back_insert_iterator< std::vector< C_Data> > enclosing_query( C_Window const &, std::back_insert_iterator< std::vector< C_Data> > out, typename tbt::vbit * =0){ return out; } #ifdef carray C_Data * enclosing_query( C_Window const &, C_Data * out){ return out; } #endif #ifdef ostreamiterator std::ostream_iterator< C_Data> enclosing_query( C_Window const &, std::ostream_iterator< C_Data> out, typename tbt::oit *dummy=0){ return out; } #endif bool is_valid()const{ return true;} protected: bool is_inside( C_Window const &, C_Data const&) const { return true; } bool is_anchor()const {return true;} }; } //namespace CGAL #endif