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BSTree.h
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BSTree.h
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/*************************************************************************
> File Name: BTREE.h
> Author: Louis1992
> Mail: [email protected]
> Blog: http://gzc.github.io
> Created Time: Sun May 3 00:05:14 2015
************************************************************************/
#ifndef BTREE_H_
#define BTREE_H_
#include <iostream>
#include <iomanip>
using namespace std;
template <class type>
class BSTree
{
private:
class BSTNode
{
public:
BSTNode* left;
BSTNode* right;
type data; BSTNode():left(NULL),right(NULL) {}
BSTNode(type a_data):data(a_data),left(NULL),right(NULL) {}
};
typedef BSTNode* bp;
bp m_root;
public:
BSTree():m_root(NULL) {}
~BSTree() {deleteNode(m_root);}
bool isEmpty() const {return m_root == NULL;}
bool find(const type& a_data) const;
void insert(const type& a_data) {insertAux(m_root,a_data);}
void remove(const type& a_data);
void inorder(ostream& out) const {inorderAux(out, m_root);}
void graph(ostream& out) const {graphAux(out, 0, m_root);}
protected:
void deleteNode(bp a_node);
void insertAux(bp& a_subRoot, const type& a_data);
void inorderAux(ostream& out, bp a_subRoot) const;
void graphAux(ostream& out, int a_indent, bp a_subRoot) const;
void find2(const type& a_data, bool& found, bp& a_locPtr, bp& a_parent) const;
};
#endif
template <class type>
inline void BSTree<type>::deleteNode(bp a_node)
{
if (a_node->left != NULL)
deleteNode(a_node->left);
else if (a_node->right != NULL)
deleteNode(a_node->right);
else if (a_node != NULL)
{
delete a_node;
a_node = NULL;
}
}
template <class type>
inline void BSTree<type>::insertAux(bp& a_subRoot, const type& a_data)
{
if (a_subRoot == NULL)
a_subRoot = new BSTree<type>::BSTNode(a_data);
else if (a_data < a_subRoot->data)
insertAux(a_subRoot->left,a_data);
else if (a_subRoot->data < a_data)
insertAux(a_subRoot->right,a_data);
else
std::cerr << "a_data already in the tree!\n";
}
template <class type>
inline void BSTree<type>::inorderAux(ostream& out, BSTree<type>::bp a_subRoot) const
{
if (a_subRoot != NULL)
{
inorderAux(out, a_subRoot->left);//L
out << a_subRoot->data << " ";//V
inorderAux(out, a_subRoot->right);//R
}
}
template <class type>
inline void BSTree<type>::graphAux(ostream& out, int a_indent, bp a_subRoot) const
{
if (a_subRoot != NULL)
{
graphAux(out, a_indent+8, a_subRoot->right); //R
out << setw(a_indent) << " " << a_subRoot->data << endl; //V
graphAux(out, a_indent+8, a_subRoot->left); //L
}
}
template <class type>
inline bool BSTree<type>::find(const type& a_data) const
{
bp locPtr = m_root;
bool found = false;
while (!found && locPtr != NULL)
{
if (a_data < locPtr->data)
{
locPtr = locPtr->left;
}
else if (locPtr->data < a_data)
{
locPtr = locPtr->right;
}
else
{
found = true;
}
}
return found;
}
template <class type>
inline void BSTree<type>::find2(const type& a_data, bool& found,
bp& a_locPtr,
bp& a_parent) const
{
a_locPtr = m_root;
a_parent = NULL;
found = false;
while (!found && a_locPtr != NULL)
{
if (a_data < a_locPtr->data)
{
a_parent = a_locPtr;
a_locPtr = a_locPtr->left;
}
else if (a_locPtr->data < a_data)
{
a_parent = a_locPtr;
a_locPtr = a_locPtr->right;
}
else
{
found = true;
}
}
}
template <class type>
inline void BSTree<type>::remove(const type& a_data)
{
bool found = false;
bp x; //被删除的节点
bp parent;
find2(a_data,found,x,parent);
if (!found)
{
std::cerr << "a_data is not in the tree!\n";
return;
}
if (x->left != NULL && x->right != NULL)//节点有两个子女
{
//查找x的中续后继节点及其双亲节点
bp xSucc = x->right;
parent = x;
while (xSucc->left != NULL)
{
parent = xSucc;
xSucc = xSucc->left;
}
x->data = xSucc->data;
x = xSucc;
}
bp subTree = x->left;
if (subTree == NULL)
{
subTree = x->right;
}
if (parent == NULL)
{
m_root = subTree;
}
else if (parent->left == x)
{
parent->left = subTree;
}
else
{
parent->right = subTree;
}
delete x;
}