/usr/include/fcl/broadphase/interval_tree.h is in libfcl-dev 0.5.0-5.
This file is owned by root:root, with mode 0o644.
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* Software License Agreement (BSD License)
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* Copyright (c) 2011-2014, Willow Garage, Inc.
* Copyright (c) 2014-2016, Open Source Robotics Foundation
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/** \author Jia Pan */
#ifndef FCL_INTERVAL_TREE_H
#define FCL_INTERVAL_TREE_H
#include <deque>
#include <limits>
namespace fcl
{
/// @brief Interval trees implemented using red-black-trees as described in
/// the book Introduction_To_Algorithms_ by Cormen, Leisserson, and Rivest.
struct SimpleInterval
{
public:
virtual ~SimpleInterval() {}
virtual void print() {}
/// @brief interval is defined as [low, high]
double low, high;
};
/// @brief The node for interval tree
class IntervalTreeNode
{
friend class IntervalTree;
public:
/// @brief Print the interval node information: set left = nil and right = root
void print(IntervalTreeNode* left, IntervalTreeNode* right) const;
/// @brief Create an empty node
IntervalTreeNode();
/// @brief Create an node storing the interval
IntervalTreeNode(SimpleInterval* new_interval);
~IntervalTreeNode();
protected:
/// @brief interval stored in the node
SimpleInterval* stored_interval;
double key;
double high;
double max_high;
/// @brief red or black node: if red = false then the node is black
bool red;
IntervalTreeNode* left;
IntervalTreeNode* right;
IntervalTreeNode* parent;
};
struct it_recursion_node;
/// @brief Interval tree
class IntervalTree
{
public:
IntervalTree();
~IntervalTree();
/// @brief Print the whole interval tree
void print() const;
/// @brief Delete one node of the interval tree
SimpleInterval* deleteNode(IntervalTreeNode* node);
/// @brief delete node stored a given interval
void deleteNode(SimpleInterval* ivl);
/// @brief Insert one node of the interval tree
IntervalTreeNode* insert(SimpleInterval* new_interval);
/// @brief get the predecessor of a given node
IntervalTreeNode* getPredecessor(IntervalTreeNode* node) const;
/// @brief Get the successor of a given node
IntervalTreeNode* getSuccessor(IntervalTreeNode* node) const;
/// @brief Return result for a given query
std::deque<SimpleInterval*> query(double low, double high);
protected:
IntervalTreeNode* root;
IntervalTreeNode* nil;
/// @brief left rotation of tree node
void leftRotate(IntervalTreeNode* node);
/// @brief right rotation of tree node
void rightRotate(IntervalTreeNode* node);
/// @brief recursively insert a node
void recursiveInsert(IntervalTreeNode* node);
/// @brief recursively print a subtree
void recursivePrint(IntervalTreeNode* node) const;
/// @brief recursively find the node corresponding to the interval
IntervalTreeNode* recursiveSearch(IntervalTreeNode* node, SimpleInterval* ivl) const;
/// @brief Travels up to the root fixing the max_high fields after an insertion or deletion
void fixupMaxHigh(IntervalTreeNode* node);
void deleteFixup(IntervalTreeNode* node);
private:
unsigned int recursion_node_stack_size;
it_recursion_node* recursion_node_stack;
unsigned int current_parent;
unsigned int recursion_node_stack_top;
};
}
#endif
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