• avl树


      具体的执行过程,摘自维基百科,很容易懂。http://zh.wikipedia.org/wiki/AVL%E6%A0%91

    #include <stdio.h>
    #include <malloc.h>
    #include <assert.h>
    
    
    
    typedef int ElementType;
    
    typedef struct AvlNode
    {
        /* data */
        ElementType element;
        struct AvlNode* leftChild;
        struct AvlNode* rightChild;
    } AvlNode;
    
    int max( int a, int b )
    {
        return a > b ? a : b;
    }
    
    int Height( AvlNode* node )
    {
        int height = 0;
    
        if ( node != NULL )
        {
            /* code */
            height = 1 + max( Height( node->leftChild ), Height( node->rightChild ) );
        }
    
        return height;
    }
    
    int GetHeight( AvlNode* node )
    {
        int height = 0;
        height = Height( node );
    
        return height - 1;
    }
    
    void RotateLeft( AvlNode** root )
    {
        AvlNode* pMiddleNode = ( *root )->rightChild;
    
        ( *root )->rightChild = pMiddleNode->leftChild;
        pMiddleNode->leftChild = *root;
    
        *root = pMiddleNode;
    
    }
    
    void RotateRight( AvlNode** root )
    {
        AvlNode* pMiddleNode = ( *root )->leftChild;
    
        ( *root )->leftChild = pMiddleNode->rightChild;
        pMiddleNode->rightChild = *root;
    
        *root = pMiddleNode;
    
    }
    
    void RotateLeftRight( AvlNode** root )
    {
        RotateLeft( &( *root )->leftChild );
        RotateRight( root );
    }
    
    void RotateRightLeft( AvlNode** root )
    {
        RotateRight( &( *root )->rightChild );
        RotateLeft( root );
    }
    
    void InsertNode( ElementType element, AvlNode** root )
    {
        AvlNode** pNode = root;
        AvlNode* pTreeNode = NULL;
    
        if ( *pNode == NULL )
        {
            /* code */
            pTreeNode = ( AvlNode* )malloc( sizeof( AvlNode ) );
            pTreeNode->element = element;
            pTreeNode->rightChild = NULL;
            pTreeNode->leftChild = NULL;
    
            *pNode = pTreeNode;
    
            return;
        } 
        else if ( element < (*pNode)->element )
        {
            InsertNode( element, &( (*pNode)->leftChild ));
    
            if ( GetHeight( (*pNode)->leftChild )  - GetHeight( (*pNode)->rightChild ) > 1 )
            {
                if ( element < (*pNode)->leftChild->element )
                {
                    RotateRight( root );
                }
                else
                {
                    RotateLeftRight( root );
                }
            }
        }
        else if ( element > (*pNode)->element )
        {
            InsertNode( element, &( (*pNode)->rightChild ) );
            
            if ( GetHeight( (*pNode)->rightChild )  - GetHeight( (*pNode)->leftChild ) > 1 )
            {
                if ( element > ( *pNode )->rightChild->element )
                {
                    RotateLeft( root );
                }
                else
                {
                    RotateRightLeft( root );
                }
            }
        }
        
    }
    
    void TestGetHeightInTree()
    {
        AvlNode* root = ( AvlNode* )malloc( sizeof( AvlNode ) );
        int testHeight = 0;
    
    
        root->element = 4;
        root->leftChild = NULL;
        root->rightChild = NULL;
    
    
    
        root->leftChild = ( AvlNode* )malloc( sizeof( AvlNode ) );
        root->leftChild->element = 3;
        root->leftChild->leftChild = NULL;
        root->leftChild->rightChild = NULL;
    
        testHeight = GetHeight( root->leftChild );
        assert( 0 == testHeight );
        testHeight = GetHeight( root );
        assert( 1 == testHeight );
    
        root->leftChild->leftChild = ( AvlNode* )malloc( sizeof( AvlNode ) );
        root->leftChild->leftChild->leftChild = NULL;
        root->leftChild->leftChild->rightChild = NULL;
        root->leftChild->leftChild->element = 2;
    
        testHeight = GetHeight( root->leftChild );
        assert( 1 == testHeight );
        testHeight = GetHeight( root->leftChild->leftChild );
        assert( 0 == testHeight );
        testHeight = GetHeight( root );
        assert( 2 == testHeight );
    }
    
    void TestRotateRight()
    {
        AvlNode* root = ( AvlNode* )malloc( sizeof( AvlNode ) );
    
        root->rightChild = NULL;
        root->leftChild = NULL;
        root->element = 4;
    
        root->leftChild = ( AvlNode* )malloc( sizeof( AvlNode ) );
        root->leftChild->element = 2;
        root->leftChild->rightChild = NULL;
        root->leftChild->leftChild = NULL;
    
        root->leftChild->leftChild = ( AvlNode* )malloc( sizeof( AvlNode ) );
        root->leftChild->leftChild->element = 1;
    
        RotateRight( &root );
        assert( 2 == root->element );
        assert( 1 == root->leftChild->element );
        assert( 4 == root->rightChild->element );
    }
    
    void TestRotateLeft()
    {
        AvlNode* root = ( AvlNode* )malloc( sizeof( AvlNode ) );
    
        root->rightChild = NULL;
        root->leftChild = NULL;
        root->element = 1;
    
        root->rightChild = ( AvlNode* )malloc( sizeof( AvlNode ) );
        root->rightChild->element = 2;
        root->rightChild->rightChild = NULL;
        root->rightChild->leftChild = NULL;
    
        root->rightChild->rightChild = ( AvlNode* )malloc( sizeof( AvlNode ) );
        root->rightChild->rightChild->element = 4;
    
        RotateLeft( &root );
        assert( 2 == root->element );
        assert( 1 == root->leftChild->element );
        assert( 4 == root->rightChild->element );
    }
    
    void TestInsertRightRotateNode()
    {
        AvlNode* root = ( AvlNode* )malloc( sizeof( AvlNode ) );
    
        AvlNode* testNode = NULL;
    
        root->element = 1;
        root->leftChild = NULL;
        root->rightChild = NULL;
    
        InsertNode( 2, &root );
        assert( 2 == root->rightChild->element );
        assert( NULL == root->rightChild->leftChild );
        assert( NULL == root->rightChild->rightChild );
        
    
        InsertNode( 4, &root );
        assert( 2 == root->element );
        assert( 4 == root->rightChild->element );
        assert( 1 == root->leftChild->element );
    
        testNode = root->rightChild;
    
        InsertNode( 6, &root );
        assert( 6 == testNode->rightChild->element );
    
    
        InsertNode( 8, &root );
        testNode = root->rightChild->rightChild;
        assert( 2 == root->element );
        assert( 8 == testNode->element );
    
        InsertNode( 10, &root );
        assert( 6 == root->element );
        assert( 2 == root->leftChild->element );
        assert( 4 == root->leftChild->rightChild->element );
        assert( 1 == root->leftChild->leftChild->element );
        assert( 8 == root->rightChild->element );
        assert( 10 == root->rightChild->rightChild->element );
    
    
    }
    
    void TestInsertLeftRotateNode()
    {
        AvlNode* root = ( AvlNode* )malloc( sizeof( AvlNode ) );
    
        AvlNode* testNode = NULL;
    
        root->element = 20;
        root->leftChild = NULL;
        root->rightChild = NULL;
    
        InsertNode( 18, &root );
        assert( 18 == root->leftChild->element );
        assert( NULL == root->leftChild->leftChild );
        assert( NULL == root->leftChild->rightChild );
        
    
        InsertNode( 14, &root );
        assert( 18 == root->element );
        assert( 20 == root->rightChild->element );
        assert( 14 == root->leftChild->element );
    
        testNode = root->leftChild;
    
        InsertNode( 10, &root );
        assert( 10 == testNode->leftChild->element );
    
    
        InsertNode( 6, &root );
        assert( 18 == root->element );
        assert( 10 == root->leftChild->element );
        assert( 20 == root->rightChild->element );
        assert( 14 == root->leftChild->rightChild->element );
        assert( 6 == root->leftChild->leftChild->element );
    
    
        InsertNode( 2, &root );
        assert( 10 == root->element );
        assert( 6 == root->leftChild->element );
        assert( 2 == root->leftChild->leftChild->element );
        assert( 18 == root->rightChild->element );
        assert( 20 == root->rightChild->rightChild->element );
        assert( 14 == root->rightChild->leftChild->element );
    }
    
    void TestInsertRotateLeftRight()
    {
        AvlNode* root = ( AvlNode* )malloc( sizeof( AvlNode ) );
    
        AvlNode* testNode = NULL;
    
        root->element = 20;
        root->leftChild = NULL;
        root->rightChild = NULL;
    
        InsertNode( 18, &root );
        InsertNode( 14, &root );
        InsertNode( 8, &root );
        InsertNode( 10, &root );
        assert( 18 == root->element );
        assert( 10 == root->leftChild->element );
        assert( 20 == root->rightChild->element );
        assert( 8 == root->leftChild->leftChild->element );
        assert( 14 == root->leftChild->rightChild->element );
    }
    
    void TestInsertRotateRightLeft()
    {
        AvlNode* root = ( AvlNode* )malloc( sizeof( AvlNode ) );
    
        AvlNode* testNode = NULL;
    
        root->element = 10;
        root->leftChild = NULL;
        root->rightChild = NULL;
    
        InsertNode( 8, &root );
        InsertNode( 14, &root );
        InsertNode( 18, &root );
        InsertNode( 16, &root );
        assert( 10 == root->element );
        assert( 8 == root->leftChild->element );
        assert( 16 == root->rightChild->element );
        assert( 14 == root->rightChild->leftChild->element );
        assert( 18 == root->rightChild->rightChild->element );    
    }
    
    void TestAvlTree()
    {
    
        TestRotateRight();
        TestRotateLeft();
    
        TestGetHeightInTree();
    
        TestInsertRightRotateNode();
        TestInsertLeftRotateNode();
    
        TestInsertRotateLeftRight();
        TestInsertRotateRightLeft();
    }
    
    
    
    int main()
    {
        TestAvlTree();
        return 0;
    }
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  • 原文地址:https://www.cnblogs.com/bracken/p/3016085.html
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