C#实现二叉排序树代码实例_C#

二叉排序树，又称为二叉查找树。它或者是一颗空树，或者是具有下列性质的二叉树：

若它的左子树不为空。则左子树上所有的结点的值均小于跟的结点值
若它的右子树部位空，则右子树的所有结点值均大于它的根结点的值
它的左右子树也分别是二叉排序树

1，排序方便
2，查找方便
3，便于插入和删除

C#实现二叉排序树代码实例

c#链式存储二叉排序树，实现简单的排序，以及查找，具体代码如下：

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									namespace _2_1_3二叉排序树

									{

									  /// <summary>

									  /// 结点类

									  /// </summary>

									  class bsnode

									  {

									    //结点

									    public bsnode leftchild { get; set; }

									    public bsnode rightchild { get; set; }

									    public bsnode parent { get; set; }

									    public int data { get; set; }

									    // 构造方法

									    public bsnode(){}

									    public bsnode(int item)

									    {

									      this.data = item;

									    }

									  }

									}

									using system;

									namespace _2_1_3二叉排序树

									{

									  /// <summary>

									  /// 二叉排序树

									  /// </summary>

									  class bstree

									  {

									    bsnode root = null;

									    /// <summary>

									    /// 添加数据

									    /// </summary>

									    public void add(int item)

									    {

									      //创建新结点

									      bsnode newnode = new bsnode(item);

									      if (root == null)     //若为空，则创建为根结点

									      {

									        root = newnode;

									      }

									      else

									      {

									        bsnode temp = root;

									        while (true)

									        {

									          if (item >= temp.data) //放在temp结点的右边

									          {

									            if (temp.rightchild == null)

									            {

									              temp.rightchild = newnode;

									              newnode.parent = temp;

									              break;

									            }

									            else

									            {

									              temp = temp.rightchild;

									            }

									          }

									          else          //放在temp结点的左边

									          {

									            if (temp.leftchild == null)

									            {

									              temp.leftchild = newnode;

									              newnode.parent = temp;

									              break;

									            }

									            else

									            {

									              temp = temp.leftchild;

									            }

									          }

									        }

									      }

									    }

									    /// <summary>

									    /// 中序遍历二叉树

									    /// </summary>

									    public void middlebianli()

									    {

									      middlebianli(root);

									    }

									    //递归方式中序遍历树

									    private void middlebianli(bsnode node)

									    {

									      if (node == null) return;

									      middlebianli(node.leftchild);

									      console.write(node.data + " ");

									      middlebianli(node.rightchild);

									    }

									    /// <summary>

									    ///查找方法-1

									    /// </summary>

									    public bool find1(int item)

									    {

									      return find(item, root);

									    }

									    private bool find(int item, bsnode node)

									    {

									      if (node == null) { return false; }

									      if (node.data == item)

									      {

									        return true;

									      }

									      else

									      {

									        //利用二叉排序树的便利

									        if (item > node.data)

									        {

									          return find(item, node.rightchild);

									        }

									        else

									        {

									          return find(item, node.leftchild);

									        }

									      }

									    }

									    /// <summary>

									    /// 查找方法-2

									    /// </summary>

									    /// <param name="item"></param>

									    /// <returns></returns>

									    public bool find2(int item)

									    {

									      bsnode temp = root;

									      while (true)

									      {

									        if (temp == null) return false;

									        if (temp.data == item) return true;

									        if (item > temp.data)

									        {

									          temp = temp.rightchild;

									        }

									        else

									        {

									          temp = temp.leftchild;

									        }

									      }

									    }

									    public bool delete(int item)

									    {

									      bsnode temp = root;

									      while (true)

									      {

									        if (temp == null) return false;

									        if (temp.data == item)

									        {

									          delete(temp);

									          return true;

									        }

									        if (item > temp.data)

									        {

									          temp = temp.rightchild;

									        }

									        else

									        {

									          temp = temp.leftchild;

									        }

									      }

									    }

									    public void delete(bsnode node)

									    {

									      //叶子结点，即无子树情况

									      if (node.leftchild == null && node.rightchild == null)

									      {

									        if (node.parent == null)

									        {

									          root = null;

									        }

									        else if (node.parent.leftchild == node)

									        {

									          node.parent.leftchild = null;

									        }

									        else if (node.parent.rightchild == node)

									        {

									          node.parent.rightchild = null;

									        }

									        return;

									      }

									      //只有右子树的情况

									      if (node.leftchild == null && node.rightchild != null)

									      {

									        node.data = node.rightchild.data;

									        node.rightchild = null;

									        return;

									      }

									      //只有左子树的情况

									      if (node.leftchild != null && node.rightchild == null)

									      {

									        node.data = node.leftchild.data;

									        node.leftchild = null;

									        return;

									      }

									      //删除的结点有左，右子树

									      bsnode temp = node.rightchild;

									      while (true)

									      {

									        if (temp.leftchild != null)

									        {

									          temp = temp.leftchild;

									        }

									        else

									        {

									          break;

									        }

									      }

									      node.data = temp.data;

									      delete(temp);

									    }

									  }

									}

									using system;

									namespace _2_1_3二叉排序树

									{

									  /// <summary>

									  /// 测试类

									  /// </summary>

									  class program

									  {

									    static void main(string[] args)

									    {

									      bstree tree = new bstree();

									      int[] data = {62,58,28,47,73,99,35,51,93,37 };

									      foreach (int item in data)

									      {

									        tree.add(item);

									      }

									      console.write("中序遍历的结果：");

									      tree.middlebianli();

									      console.writeline();

									      console.writeline("find-1方法查找62是否存在：" + tree.find1(62));

									      console.writeline("find-2方法查找62是否存在：" + tree.find2(62));

									      console.writeline("find-1方法查找63是否存在：" + tree.find1(63)); 

									      console.writeline("find-2方法查找63是否存在：" + tree.find2(63));

									      console.writeline("删除根结点后的结果：");

									      tree.delete(62);

									      tree.middlebianli();

									      console.readkey();

									    }

									  }

									}