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數據結構--AVL樹

發布時間:2020-07-04 19:30:37 來源:網絡 閱讀:423 作者:馬尾和披肩 欄目:編程語言

AVL樹是高度平衡的二叉搜索樹,較搜索樹而言降低了樹的高度;時間復雜度減少了使其搜索起來更方便;

1.性質:

(1)左子樹和右子樹高度之差絕對值不超過1;

(2)樹中每個左子樹和右子樹都必須為AVL樹;

(3)每一個節點都有一個平衡因子(-1,0,1:右子樹-左子樹)

(4)遍歷一個二叉搜索樹可以得到一個遞增的有序序列

2.結構:

  平衡二叉樹是對二叉搜索樹(又稱為二叉排序樹)的一種改進。二叉搜索樹有一個缺點就是,樹的結構是無法預料的。任意性非常大。它僅僅與節點的值和插入的順序有關系。往往得到的是一個不平衡的二叉樹。在最壞的情況下。可能得到的是一個單支二叉樹,其高度和節點數同樣,相當于一個單鏈表。對其正常的時間復雜度有O(lb n)變成了O(n)。從而喪失了二叉排序樹的一些應該有的長處。

    當插入一個新的節點的時候。在普通的二叉樹中不用考慮樹的平衡因子,僅僅要將大于根節點的值插入到右子樹,小于節點的值插入到左子樹,遞歸就可以。

   而在平衡二叉樹則不一樣,在插入節點的時候,假設插入節點之后有一個節點的平衡因子要大于2或者小于-2的時候,他須要對其進行調整。如今僅僅考慮插入到節點的左子樹部分(右子樹與此同樣)。主要分為下面三種情況:

(1)若插入前一部分節點的左子樹高度和右子樹高度相等。即平衡因子為0。插入后平衡因子變為1。仍符合平衡的條件不用調整。

(2)若插入前左子樹高度小于右子樹高度。即平衡因子為-1,則插入后將使平衡因子變為0,平衡性反倒得到調整,所以不必調整。

(3)若插入前左子樹的高度大于右子樹高度。即平衡因子為1。則插入左子樹之后會使得平衡因子變為2,這種情況下就破壞了平衡二叉樹的結構。所以必須對其進行調整,使其加以改善。


調整二叉樹首先要明確一個定義。即最小不平衡子樹。最小不平衡子樹是指以離插入節點近期、且平衡因子絕對值大于1的節點做根的子樹。

 在構建AVL樹的時候使用三叉鏈:parent,left,right方便回溯,也可以用遞歸或者棧解決;

在插入一個新節點后,一個平衡二叉樹可能失衡,失衡情況下相應的調整方法

(1)右旋

數據結構--AVL樹數據結構--AVL樹

(2)左旋

數據結構--AVL樹

數據結構--AVL樹

(3)右左雙旋


數據結構--AVL樹數據結構--AVL樹


(4)左右雙旋

數據結構--AVL樹


#include<iostream>
using namespace std;
template<class K,class V>
struct AVLTreeNode
{
           AVLTreeNode<K ,V>*_left;
           AVLTreeNode<K ,V>*_right;
           AVLTreeNode<K ,V>*_parent;
           K _key;
           V _value;
           int _bf;//平衡因子
          AVLTreeNode( const K & key,const V& value ):_bf(0)
                                                       ,_left(NULL)
                                                                                                          ,_right( NULL)
                                                                                                          ,_parent( NULL)
                                                                                                          ,_key( key)
                                                                                                          ,_value( value)
                                                                                                          
          {}
};
template<class K,class V>
class AVLTree
{
           typedef AVLTreeNode <K,V> Node;
protected:
           Node* _root;
public:
          AVLTree():_root( NULL)
          {}
           bool Insert(const K& key,const V& value)
          {
            if(_root==NULL )
            {
                     _root= new Node (key,value);
                     return true ;
            }
                    Node* cur=_root;
                    Node* parent=NULL ;
                    while(cur)
                   {
                              if(cur->_key>key )
                             {
                                      parent=cur;
                                      cur=cur->_left;
                             }
                              else if (cur->_key<key)
                             {
                                      parent=cur;
                                      cur=cur->_right;
                             }
                              else
                             {
                              return false ;
                             }
                   }
                    //插入
                   cur= new Node (key,value);
                    if(parent->_key<key )
                   {
                             parent->_right=cur;
                             cur->_parent=parent;
                   }
                    else
                   {
                   parent->_left=cur;
                   cur->_parent=parent;
                   }
                    //檢查是否平衡
                    //1更新平衡因子,不滿足條件時進行旋轉
                    while(parent)
                   {
                    if(cur==parent->_left)
                              parent->_bf --;
                    else
                             parent->_bf ++;
                    if(parent->_bf ==0)
                    {
                              break;
                    }
                    // -1 1
                    else if (parent->_bf ==-1||parent->_bf ==1)
                    {
                    cur=parent;
                    parent=cur->_parent;
                    }
                              else
                              {
                              //旋轉處理2 -2
                                       if(cur->_bf ==1)
                                      {
                                                 if(parent->_bf==2)
                                                 RotateL(parent);
                                                 else//-2
                                                 RotateLR(parent);
                                      }
                                       else
                                      {
                                       if(parent->_bf ==-2)
                                         RotateR(parent);
                                       else//2
                                                RotateRL(parent);
                                      }
                                       break;
                              }
                   }
                    return true ;
          }
           //左單旋
           void RotateL(Node * parent)
          {
                     Node* subR=parent ->_right;
                     Node* subRL=subR->_left;
                     if(subRL)
                     subRL->_parent = parent;
                     subR->_left= parent;
                     Node* ppNode=parent ->_parent;
                     parent->_parent=subR;
                     if(ppNode==NULL )
                     {
                                      _root=subR;
                     }
                     else
                     {
                                       if(ppNode->_left=parent )
                                      {
                                                 ppNode->_left=subR;
                                      }
                                       else
                                      {
                                                 ppNode->_right=subR;
                                      }
                     }
                     parent->_bf=subR->_bf=0;
          }
           //右單旋
           void RotateR(Node * parent)
          {
                    Node* subL=parent ->_left;
                    Node* subLR=subL->_right;
                    if(subLR)
                    subLR->_parent = parent;
                    subL->_right = parent;
                    Node* ppNode=parent ->_parent;
                    if(ppNode==NULL )
                    {
                             _root=subL;
                    }
                    else
                    {
                     if(ppNode->_left==parent )
                               ppNode->_left=subL;
                     else
                               ppNode->_right=subL;
                    }
                    parent->_bf =subL->_bf =0;
          }
           //左右雙旋
           void RotateLR(Node * parent)
          {
           Node* subL=parent ->_left;
           Node* subLR=subL->_right ;
           int bf=subLR->_bf ;
          RotateL( parent->_left);
          RotateR( parent);
           //根據subLR的平衡因子修正其他節點的平衡因子
                    if(bf==-1)
                   {
                             subL->_bf =0;
                              parent->_bf =1;
                   }
                    else if (bf==1)
                   {
                     subL->_bf =-1;
                     parent->_bf=0;
                   }
          }
           //右左雙旋
           void RotateRL(Node * parent)
          {
                    Node* subR=parent ->_right ;
                    Node* subRL=subR->_left ;
                    int bf=subRL->_bf ;
                   RotateR( parent->_right);
                   RotateL( parent);
                    if(bf==1)
                   {
                    subR->_bf =0;
                    parent->_bf =-1;
                   }
                    else if (bf==-1)
                   {
                   subR->_bf = 1;
                    parent->_bf = 0;
                   }
          }
           //中序遍歷
           void Inorder()
          {
             _Inorder(_root);
             cout<<endl;
          }
           void _Inorder(Node * root)
          {
           if(_root==NULL )
                    return;
           _Inorder( root->_left);
           cout<< root->_key <<" " ;
           _Inorder( root->_right );
          }
           //判斷是否平衡
           bool IsBalence()
          {
             return _IsBalence(_root);
          }
          
           bool _IsBalence(Node * root)
          {
            if(root ==NULL)
                     return true ;
            int left=_Height(root ->_left );
            int right= _Height(root ->_right );
            if(right-left!=root ->_bf || abs(right-left)>1)
            {
             cout<< "節點的平衡因子異常" <<endl;
             cout<< root->_key ;
             return false ;
            }
            return _IsBalence(root ->_left)&&_IsBalence(root->_left);
          }
//求子樹的高度
           int _Height(Node * root)
          {
            if(root ==NULL)
             return 0;
           int left=_Height(root ->_left );
           int right= _Height(root ->_right );
           return left>right?left+1:right+1;
          }
           //前邊方法的優化
           //后續遍歷先求子書的高度的同時就可以
           //判斷出子樹是否平衡,然后依次求根節點的高度
           bool _Isbalence(Node * root, int& height )
          {
             if(root ==NULL)
                      {
                                height=0;
                                return true ;
                      }
             if(root ->_left ==NULL&& root->_right ==NULL )
                      {
                                height=1;
                                returnn true;
                      }
             int leftheight=0;
            if(_Isbalence(root ->_left ,leftheight)==false)
                     return false ;
            int rightheight=0;
            if(_Isbalence(root ->_right ,rightheight)==false)
                     return false ;
            height=leftheight>rightheight?leftheight:rightheight;
          }
};
void TestTree()
{
           int a[] = {16, 3, 7, 11, 9, 26, 18, 14, 15};
           AVLTree<int , int> t;
           for (size_t i = 0; i < sizeof(a)/ sizeof(a[0]); ++i)
          {
                   t.Insert(a[i], i);
          }
          t.Inorder();
          cout<< "是否平衡?" <<t.IsBalence()<<endl;
}


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