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写一个算法 统计二叉树结点个数递归做

写一个算法 统计二叉树结点个数递归做

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知与谁同 2018-07-19 19:51:15 2663 0
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  • 这是我们老师给我们写的二叉树最基本的.......追加、删除节点的程序,很简单,但是也不简单,如果你基础比较好,这个可以忽略,如果不好,看看也无妨,打酱油路过.......呵呵

    #include <iostream>
    using namespace std;
    // 二叉搜索树
    class BsTree {
    public:
    // 构造函数中初始化为空树
    BsTree (void) : m_root (NULL), m_size (0) {}
    // 析构函数中释放剩余节点
    ~BsTree (void) {
    Clear ();
    }
    // 插入数据
    void Insert (int data) {
    Insert (new Node (data), m_root);
    m_size++;
    }
    // 删除数据,不存在返回false
    bool Remove (int data) {
    Node*& find = Find (data, m_root);
    if (find) {
    Insert (find -> m_left, find -> m_right);
    Node* node = find;
    find = find -> m_right;
    delete node;
    m_size--;
    return true;
    }
    return false;
    }
    // 删除所有值为data的数据
    void RemoveAll (int data) {
    while (Remove (data));
    }
    // 清空树
    void Clear (void) {
    Clear (m_root);
    m_size = 0;
    }
    // 将全部old更新为_new
    void Update (int old, int _new) {
    while (Remove (old))
    Insert (_new);
    }
    // 能否找到data
    bool Find (int data) {
    return Find (data, m_root) != NULL;
    }
    // 中序遍历
    void Travel (void) {
    cout << '{';
    Travel (m_root);
    cout << '}' << endl;
    }
    // 获取树的大小
    size_t GetSize (void) {
    return m_size;
    }
    // 获取树的高度
    size_t GetHeight (void) {
    return GetHeight (m_root);
    }
    private:
    // 节点
    class Node {
    public:
    Node (int data) : m_data (data), m_left (NULL), m_right (NULL) {}
    int m_data; // 数据
    Node* m_left; // 左树
    Node* m_right; // 右树
    };
    void Insert (Node* node, Node*& tree) {
    if (! tree)
    tree = node;
    else if (node) {
    if (node -> m_data < tree -> m_data)
    Insert (node, tree -> m_left);
    else
    Insert (node, tree -> m_right);
    }
    }
    Node*& Find (int data, Node*& tree) {
    if (! tree)
    return tree;
    else
    if (data == tree -> m_data)
    return tree;
    else
    if (data < tree -> m_data)
    return Find (data, tree -> m_left);
    else
    return Find (data, tree -> m_right);
    }
    void Clear (Node*& tree) {
    if (tree) {
    Clear (tree -> m_left);
    Clear (tree -> m_right);
    delete tree;
    tree = NULL;
    }
    }
    void Travel (Node*& tree) {
    if (tree) {
    Travel (tree -> m_left);
    cout << ' ' << tree -> m_data << ' ';
    Travel (tree -> m_right);
    }
    }
    size_t GetHeight (Node*& tree) {
    if (tree) {
    size_t lh = GetHeight (tree -> m_left);
    size_t rh = GetHeight (tree -> m_right);
    return (lh > rh ? lh : rh) + 1;
    }
    return 0;
    }
    Node* m_root; // 树根
    size_t m_size; // 树的大小
    };
    int main (void) {
    BsTree bs;
    bs.Insert (50);
    bs.Insert (70);
    bs.Insert (20);
    bs.Insert (60);
    bs.Insert (40);
    bs.Insert (30);
    bs.Insert (10);
    bs.Insert (90);
    bs.Insert (80);
    bs.Travel ();
    cout << bs.GetSize () << ", " << bs.GetHeight () << endl;
    cout << boolalpha << bs.Find (3) << endl;
    cout << boolalpha << bs.Find (10) << endl;
    bs.Remove (60);
    bs.Remove (30);
    bs.Travel ();
    bs.Insert (40);
    bs.Insert (40);
    bs.Travel ();
    bs.RemoveAll (40);
    bs.Travel ();
    bs.Insert (70);
    bs.Insert (70);
    bs.Travel ();
    bs.Update (70, 75);
    bs.Travel ();
    bs.Clear ();
    bs.Travel ();
    return 0;
    }
    2019-07-17 22:54:40
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  • int count(BiTree *t)
    {
    if(t==NULL)
    return 0;

    int left=0,right=0;

    if(t->lchild!=NULL)
    left=count(t->lchild);
    if(t->rchild!=NULL)
    right=count(t->rchild);

    return left+right+1;
    }
    2019-07-17 22:54:40
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