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二叉搜索树的C++ 实现

时间:2018-08-12 15:39:17      阅读:113      评论:0      收藏:0      [点我收藏+]

标签:lan   void   最小值   map   default   namespace   最大值   iostream   ref   

参考:https://blog.csdn.net/liuchenjane/article/details/53046715
头文件

#ifndef DEBUG_LRN_TREENODE_H
#define DEBUG_LRN_TREENODE_H


void echo(int i);

class TreeNode;
void inorder_tree_walk(TreeNode* x);
void preorder_tree_walk(TreeNode* x);
TreeNode* tree_minmum(TreeNode* x);
TreeNode* tree_maxmum(TreeNode* x);
TreeNode* tree_search(TreeNode* x, int k);
TreeNode* tree_successor(TreeNode* x);
TreeNode* tree_predecessor(TreeNode* x);
void tree_insert(TreeNode* T, TreeNode* z);
void transplant(TreeNode* T, TreeNode* u,TreeNode* v);
void tree_delete(TreeNode* T, TreeNode* z);


class TreeNode{
public:
    int key;
    TreeNode* left;
    TreeNode* right;
    TreeNode* p;
public:
    TreeNode();
    explicit TreeNode(int val);
    ~TreeNode();
};


#endif //DEBUG_LRN_TREENODE_H

源文件

#include <iostream>
#include <vector>
#include "TreeNode.h"

using namespace std;


void echo(int i){
    std::cout << i << std::endl;
}


TreeNode::TreeNode()
{
    key=0;
    left=right=p=nullptr;
}

TreeNode::TreeNode(int val) {
    key = val;
    left = right = p = nullptr;
}

TreeNode::~TreeNode() = default;


void inorder_tree_walk(TreeNode* x) {
    if (x != nullptr) {
        inorder_tree_walk(x->left);
        cout << x->key << " ";
        inorder_tree_walk(x->right);
    } else
        return;
}


void preorder_tree_walk(TreeNode*x) {
    if (x != nullptr) {
        cout << x->key << " ";
        preorder_tree_walk(x->left);
        preorder_tree_walk(x->right);
    }
}


TreeNode* tree_minmum(TreeNode* x)
{
    while(x->left != nullptr)
        x = x->left;
    return x;
}
TreeNode* tree_maxmum(TreeNode* x)
{
    while(x->right != nullptr)
        x = x->right;
    return x;
}

TreeNode* tree_search(TreeNode* x, int k)
{
    if(x == nullptr || k == x->key)
        return x;
    if(k < x->key)
        return tree_search(x->left, k);
    else return tree_search(x->right, k);
}

TreeNode* tree_successor(TreeNode* x)//大于x.key的最小关键字的节点为后继
{
    if(x->right)
        return tree_minmum(x->right);
    TreeNode* y=x->p;
    while(y&& x==y->right)
    {
        x=y;
        y=y->p;
    }
    return y;
}


TreeNode* tree_predecessor(TreeNode* x)//小于x.key的最大关键字的节点为前驱
{
    if(x->left)
        return tree_maxmum(x->left);
    TreeNode* y=x->p;
    while(y&& x==y->left)
    {
        x=y;
        y=y->p;
    }
    return y;
}


void tree_insert(TreeNode* T, TreeNode* z) //T是现在的BST的树根
{
    if(T == nullptr){
        T = z;
        return;
    };
    TreeNode* y = nullptr;
    TreeNode* x=T;

    while(x != nullptr)
    {
        y = x;
        if(z->key < x->key)
            x = x->left;
        else x = x->right;
    }
    z->p = y;
    if(z->key < y->key)
        y->left = z;
    else y->right = z;
}


//删除节点
void transplant(TreeNode* T, TreeNode* u,TreeNode* v)//用一颗子树代v替另一个子树u
{
    if(u->p == nullptr) {
        T = v;
    }
    else if(u == u->p->left) {
        u->p->left = v;
    }
    else{
        u->p->right = v;
    };
    if(v != nullptr){
        v->p = u->p;
    }
}


void tree_delete(TreeNode* T, TreeNode* z) {
    if (!z->left)
        transplant(T, z, z->right);
    else if (!z->right)
        transplant(T, z, z->left);
    else {
        TreeNode *y = tree_minmum(z->right);
        if (y->p != z) {
            transplant(T, y, y->right);
            y->right = z->right;
            y->right->p = y;
        }
        transplant(T, z, y);
        y->left = z->left;
        y->left->p = y;
    }
}

测试:

#include <iostream>
#include <vector>
#include <string>
#include <map>
#include <set>
#include <algorithm>
#include "TreeNode.h"


using namespace std;
using namespace cv;


void test_bst(){
    auto T = new TreeNode(15);
    vector<int> a = {6, 18, 3, 7, 17, 20, 2, 4, 13, 9};
    for(auto i:a){
        auto z = new TreeNode(i);
        tree_insert(T, z);
    }
    inorder_tree_walk(T);cout<<endl;
    preorder_tree_walk(T);
    TreeNode* min=tree_minmum(T);
    TreeNode* max=tree_maxmum(T);cout<<endl;
    cout<<"最大值:"<<max->key<<"  最小值:"<<min->key<<endl;
    cout<<"查找z=13的节点:";
    TreeNode* z=tree_search(T,13);cout<<z->key<<endl;
    TreeNode* prez=tree_predecessor(z);
    TreeNode* sucz=tree_successor(z);
    cout<<"z的前驱:"<<prez->key<<" "<<"z的后继:"<<sucz->key<<endl;
    tree_delete(T,z);
    cout<<"删除z之后:";
    inorder_tree_walk(T);cout<<endl;

}




int main(int argc, char* argv[])
{
    test_bst();
    return 0;
}

二叉搜索树的C++ 实现

标签:lan   void   最小值   map   default   namespace   最大值   iostream   ref   

原文地址:https://www.cnblogs.com/theodoric008/p/9462935.html

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