• AVLTree 平衡树


    //测试数据
    //第一组:7个输入,测试LL型,40,36,44,32,38,28,24;
    //第二组:7个输入,测试RR型,40,36,44,43,48,52,56;
    //第三组:7个输入,测试LR型,40,36,44,32,37,38,39;
    //第四组:7个输入,测试RL型,40,36,44,48,43,42,41;

    #include<iostream>
    #define Element int
    using namespace std;

    typedef struct AVLNode
    {
    Element data;
    int height;
    AVLNode* LeftChild,*RightChild;
    AVLNode():data(0),height(0),LeftChild(NULL),RightChild(NULL){
    }
    AVLNode(Element e,int heig,AVLNode* L,AVLNode* R):data(e),height(heig),LeftChild(L),RightChild(R){
    }
    } AVLNode;

    int MaxHeight(int a,int b)
    {
    return a>b?a:b;
    }

    int GetHeight(AVLNode* &Node)
    {
    if(Node == NULL) return -1;
    else return Node->height = MaxHeight(GetHeight(Node->LeftChild),GetHeight(Node->RightChild)) + 1;
    }

    void InorderWalk(AVLNode* Node)
    {
    if(Node)
    {
    InorderWalk(Node->LeftChild);
    cout<<Node->data<<"("<<Node->height<<") ";
    InorderWalk(Node->RightChild);
    }
    }

    AVLNode* Serach(AVLNode* root,Element key)
    {
    AVLNode* p = root;
    while(p && p->data != key)
    {
    if(key < p->data)
    p = p->LeftChild;
    else
    p = p->RightChild;
    }
    return p;
    }

    void LLRotation(AVLNode* &Node)
    {
    cout<<"LLRotation."<<endl;
    AVLNode* p = Node->LeftChild;
    Node->LeftChild = p->LeftChild;
    p->LeftChild = p->RightChild;
    p->RightChild = Node->RightChild;
    Node->RightChild = p;
    Element temp = p->data; p->data = Node->data; Node->data = temp;
    }

    void RRRotation(AVLNode* &Node)
    {
    cout<<"RRRotation."<<endl;
    AVLNode* p = Node->RightChild;
    Node->RightChild = p->RightChild;
    p->RightChild = p->LeftChild;
    p->LeftChild = Node->LeftChild;
    Node->LeftChild = p;
    Element temp = p->data; p->data = Node->data; Node->data = temp;
    }

    void LRRotation(AVLNode* &Node)
    {
    cout<<"LRRotation(先RR后LL)."<<endl;
    RRRotation(Node->LeftChild);
    LLRotation(Node);
    }

    void RLRotation(AVLNode* &node)
    {
    cout<<"RLRotation(先LL后RR)."<<endl;
    LLRotation(node->RightChild);
    RRRotation(node);
    }

    void Insert(AVLNode* &root,Element e)
    {
    AVLNode* p = root;
    if(p == NULL)
    {
    AVLNode* pt = new AVLNode(e,0,NULL,NULL);
    root = pt;
    }
    else
    {
    if(e <= p->data)
    {
    Insert(p->LeftChild,e);
    if(GetHeight(p->LeftChild) - GetHeight(p->RightChild) == 2)
    {
    if(e < p->LeftChild->data)
    {
    LLRotation(p);
    }
    else
    {
    LRRotation(p);
    }
    }
    p->height = MaxHeight(GetHeight(p->LeftChild),GetHeight(p->RightChild)) + 1;
    }
    else if(e > p->data)
    {
    Insert(p->RightChild,e);
    if(GetHeight(p->RightChild) - GetHeight(p->LeftChild) == 2)
    {
    if(e < p->LeftChild->data)
    {
    RLRotation(p);
    }
    else
    {
    RRRotation(p);
    }
    }
    p->height = MaxHeight(GetHeight(p->LeftChild),GetHeight(p->RightChild)) + 1;
    }
    }
    }

    void Delete(AVLNode* &root,Element key)
    {
    if(!root)
    {
    cout<<"No Record!"<<endl;
    }
    else
    {
    if(key == root->data)
    {
    if ( NULL==root->LeftChild && NULL==root->RightChild ) //叶节点
    {

    delete root;
    root = NULL;
    }

    else if(root->LeftChild != NULL && root->RightChild == NULL)
    {
    AVLNode* p = root->LeftChild;
    root->data = p->data;
    root->LeftChild = p->LeftChild;
    root->RightChild = p->RightChild;
    root->height = MaxHeight(GetHeight(root->LeftChild),GetHeight(root->RightChild));// 重新更新该节点一下的所有结点高度信息
    delete root;
    root = NULL;
    }
    else if(root->LeftChild = NULL && root->RightChild != NULL)
    {
    AVLNode* p = root->RightChild;
    root->data = p->data;
    root->LeftChild = p->LeftChild;
    root->RightChild = p->RightChild;
    root->height = MaxHeight(GetHeight(root->LeftChild),GetHeight(root->RightChild));// 重新更新该节点一下的所有结点高度信息
    delete root;
    root = NULL;
    }
    else //左右两个孩子
    {
    AVLNode* p = root->RightChild;
    if(p->LeftChild == NULL) //右孩子没有左孩子
    {
    root->data = p->data;
    root->RightChild = p->RightChild;
    delete p;
    p = NULL;
    if(GetHeight(p->RightChild) - GetHeight(p->LeftChild) == 2)
    {
    if(GetHeight(root->LeftChild->LeftChild) >= GetHeight(p->LeftChild->RightChild))
    {
    LLRotation(root) ;
    }
    else
    {
    LRRotation(root);
    }
    }
    root->height = MaxHeight(GetHeight(root->LeftChild),GetHeight(root->RightChild));// 重新更新该节点一下的所有结点高度信息
    }
    else //右孩子有左孩子
    {
    while(p->LeftChild->LeftChild != NULL)
    {
    p = p->LeftChild;
    }
    AVLNode* pt = p->LeftChild;
    root->data = pt->data;
    p->LeftChild = pt->RightChild;
    delete pt; pt = NULL;
    if( GetHeight( root->LeftChild ) - GetHeight(root->RightChild)>=2 ) // 调整结点,保持平衡。
    {
    if( GetHeight( root->LeftChild->LeftChild ) >= GetHeight(root->LeftChild->RightChild))
    {
    LLRotation(root);
    }
    else
    {
    LRRotation(root);
    }

    }
    root->height = MaxHeight(GetHeight(root->LeftChild),GetHeight(root->RightChild));// 重新更新该节点一下的所有结点高度信息

    }
    }
    }


    else if( key<root->data ) //在左子树删除数据
    {
    Delete(root->LeftChild,key);
    if( GetHeight( root->LeftChild ) - GetHeight(root->RightChild)<=-2 ) // 调整结点,保持平衡。
    {
    if( GetHeight( root->RightChild->LeftChild ) >= GetHeight( root->RightChild->RightChild) )
    {
    RLRotation(root);
    }
    else
    {
    RRRotation(root);
    }

    }
    root->height = MaxHeight(GetHeight(root->LeftChild),GetHeight(root->RightChild));// 重新更新该节点一下的所有结点高度信息
    }


    else //在右子树删除数据
    {
    Delete(root->RightChild,key);
    if( GetHeight( root->LeftChild ) - GetHeight(root->RightChild)>=2) // 调整结点,保持平衡。
    {
    if( GetHeight( root->LeftChild->LeftChild ) >= GetHeight(root->LeftChild->RightChild) )
    {
    LLRotation(root);
    }
    else
    {
    LRRotation(root);
    }
    }
    root->height = MaxHeight(GetHeight(root->LeftChild),GetHeight(root->RightChild)); // 重新更新该节点一下的所有结点高度信息
    }

    }
    }

    int main()
    {
    AVLNode *root=NULL;
    int num;
    Element e;
    ///////////创建平衡二叉树
    cout<<"创建平衡二叉树,请输入节点数:"<<endl;
    cin>>num;
    cout<<"输入"<<num<<"个节点的数值,以空格或者回车符分开:"<<endl;
    while(num--)
    {

    cin>>e;
    Insert(root,e);
    cout<<"此时根节点数据为:"<<root->data<<"("<<root->height<<")"<<endl<<"中序遍历结果为:"<<endl;
    InorderWalk(root); cout<<endl<<endl;

    }
    cout<<"创建平衡二叉树完毕,中序遍历输出为:"<<endl;
    InorderWalk(root); cout<<endl<<endl;
    //////////插入数据
    cout<<"请输入要插入的数"<<endl;
    cin>>e;
    Insert(root,e);
    cout<<"此时根节点数据为:"<<root->data<<"("<<root->height<<")"<<endl;
    cout<<"插入新元素后的平衡二叉树,中序遍历输出为:"<<endl;
    InorderWalk(root);cout<<endl<<endl;
    ///////////删除结点
    cout<<"输入你选择删除的数"<<endl;
    cin>>e;
    Delete(root,e);
    cout<<"删除操作后的二叉搜索树"<<endl;
    InorderWalk(root); cout<<endl<<endl;
    ///////////删除结点
    cout<<"输入你选择删除的数"<<endl;
    cin>>e;
    Delete(root,e);
    cout<<"删除操作后的二叉搜索树"<<endl;
    InorderWalk(root); cout<<endl<<endl;
    //////////查找结点
    cout<<endl<<"输入要查找的数,系统找到则输出:"<<endl;
    cin>>e;
    AVLNode *p=Serach(root,e);
    if (p) cout<<p->data<<endl;
    else cout<<"没有找到该数"<<endl;
    return 0;

    }

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  • 原文地址:https://www.cnblogs.com/lsh123/p/5915423.html
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