[算法] avl树实现

时间:2023-03-10 03:03:04
[算法] avl树实现

大二的时候数据结构课死活没看懂的一个东东,看了2小时,敲了2小时,调了2小时。。。

平衡树某一节点的左右子树高度相差大于1的时候即需要调整,调整可分为四中情况 ll,rr,lr,rl其中lr,rl是由不同顺序的ll,rr来实现的,代码比想象的简短。

一棵平衡的树只有在插入和删除节点的时候,才会变的不平衡,所以掌握好时机,判断平衡是否破坏及不平衡的种类,再纠正即可

代码如下。。

avl.h

struct AVLNode {

    struct AVLNode *left;

    struct AVLNode *right;

    int data;

    int height;

};

static const int AVL_STATUS_OK = 0;

static const int AVL_STATUS_FOUNDED = 1;

static const int AVL_STATUS_NOTFOUNDED = 2;

static const int AVL_STATUS_FAILED = -1;

int avl_insert(struct AVLNode **root, int data);

int avl_find(struct AVLNode *root, int data);

int avl_del(struct AVLNode **root, int data);

int avl_del_tree(struct AVLNode *root);

void print_avl_tree(struct AVLNode *root);

int _get_height(struct AVLNode *node);

int _max(int a, int b);

void _single_rotate_left(struct AVLNode **node);

void _single_rotate_right(struct AVLNode **node);

void _double_rotate_left_right(struct AVLNode **node);

void _double_rotate_right_left(struct AVLNode **node);

 

avl.c

#include <stdio.h>

#include <stdlib.h>

#include <assert.h>

#include "avl.h"

int avl_insert(struct AVLNode **ptr_root, int data) {

    int ret;

    if(NULL == *ptr_root) {

        *ptr_root = malloc(sizeof(struct AVLNode));

        if(NULL == *ptr_root) {

            return AVL_STATUS_FAILED;

        }

        (*ptr_root)->data = data;

        (*ptr_root)->left = NULL;

        (*ptr_root)->right = NULL;

        (*ptr_root)->height = 0;

        return AVL_STATUS_OK;

    }

    if(data == (*ptr_root)->data) {

        return AVL_STATUS_OK;

    }

    else if(data < (*ptr_root)->data) {

        ret = avl_insert(&((*ptr_root)->left), data);

        if(_get_height((*ptr_root)->left) - _get_height((*ptr_root)->right) > 1){

            if(data < (*ptr_root)->left->data){

                _single_rotate_left(ptr_root);

            }

            else {

                _double_rotate_left_right(ptr_root);

            }

        }

    }

    else {

        ret = avl_insert(&((*ptr_root)->right), data);

        if(_get_height((*ptr_root)->right) - _get_height((*ptr_root)->left) > 1){

            if(data > (*ptr_root)->right->data) {

                _single_rotate_right(ptr_root);

            }

            else {

                _double_rotate_right_left(ptr_root);

            }

        }

    }

    (*ptr_root)->height = _max(_get_height((*ptr_root)->left), _get_height((*ptr_root)->right)) + 1;

    return ret;

}

int avl_find(struct AVLNode *root, int data) {

    if(NULL == root) {

        return AVL_STATUS_NOTFOUNDED;

    }

    if(data == root->data) {

        return AVL_STATUS_FOUNDED;

    }

    if(data < root->data) {

        return avl_find(root->left, data);

    }

    else {

        return avl_find(root->right, data);

    }

}

int avl_del(struct AVLNode **root, int data) {

    struct AVLNode *t;

    if(*root == NULL) {

        return AVL_STATUS_OK;

    }

    if(data < (*root)->data) {

        avl_del(&((*root)->left), data);

        if(_get_height((*root)->right) - _get_height((*root)->left) > 1){

            if((*root)->right->left != NULL && (_get_height((*root)->right->left) > _get_height((*root)->right->right))) {

                _double_rotate_right_left(root);

            }

            else {

                _single_rotate_right(root);

            }

        }

    }

    else if(data > (*root)->data) {

        avl_del(&((*root)->right), data);

        if(_get_height((*root)->left) - _get_height((*root)->right) > 1){

            if((*root)->left->right != NULL && (_get_height((*root)->left->right) > _get_height((*root)->left->left))) {

                _double_rotate_left_right(root);

            }

            else {

                _single_rotate_left(root);

            }

        }

    }

    else {

        if(NULL != (*root)->left && NULL != (*root)->right) {

            t = (*root) -> right;

            while(t->left != NULL) {

                t = t->left;

            }

            (*root) -> data = t->data;

            avl_del(&((*root)->right), t->data);

            if(_get_height((*root)->left) - _get_height((*root)->right) > 1){

            if((*root)->left->right != NULL && (_get_height((*root)->left->right) > _get_height((*root)->left->left))) {

                _double_rotate_left_right(root);

            }

            else {

                _single_rotate_left(root);

            }

        }

        }

        else {

            t = *root;

            if((*root)->left == NULL) {

                *root = (*root) -> right;

            }

            else if((*root)->right == NULL) {

                *root = (*root) -> left;

            }

            free(t);

        }

    }

    return AVL_STATUS_OK;

}

int avl_del_tree(struct AVLNode *root) {

    if(NULL == root) {

        return AVL_STATUS_OK;

    }

    avl_del_tree(root->left);

    avl_del_tree(root->right);

    free(root);

    return AVL_STATUS_OK;

}

int _get_height(struct AVLNode *node) {

    if(NULL == node){

        return -1;

    }

    else{

        return node->height;

    }

}

int _max(int a, int b) {

    return a > b ? a:b;

}

void _single_rotate_left(struct AVLNode **node) {

    struct AVLNode* root = *node;

    *node = root->left;

    root->left = (*node)->right;

    (*node)->right = root;

    root->height = _max(_get_height(root->left), _get_height(root->right)) + 1;

    (*node)->height = _max(_get_height((*node)->left), _get_height((*node)->right)) + 1;

}

void _single_rotate_right(struct AVLNode **node) {

    struct AVLNode* root = *node;

    *node = root->right;

    root->right = (*node)->left;

    (*node)->left = root;

    root->height = _max(_get_height(root->left), _get_height(root->right)) + 1;

    (*node)->height = _max(_get_height((*node)->left), _get_height((*node)->right)) + 1;

}

void _double_rotate_left_right(struct AVLNode **node) {

    struct AVLNode* root = *node;

    _single_rotate_right(&(root->left));

    _single_rotate_left(node);

}

void _double_rotate_right_left(struct AVLNode **node) {

    struct AVLNode* root = *node;

    _single_rotate_left(&(root->right));

    _single_rotate_right(node);

}

void print_avl_tree(struct AVLNode *node) {

    if(NULL == node) {

        return;

    }

    print_avl_tree(node->left);

    printf("%d\t%d\n", node->data, node->height);

    print_avl_tree(node->right);

}

  

main.c

#include <stdio.h>

#include "avl.h"

int main() {

    struct AVLNode *root = NULL;

    int ret = avl_insert(&root, 7);

    printf("hello, world\n");

    printf("root:address %ld\n", (long)root);

    printf("after:%d\n", 7);

    print_avl_tree(root);

    avl_insert(&root, 6);

    printf("after:%d\n", 6);

    print_avl_tree(root);

    avl_insert(&root, 5);

    printf("after:%d\n", 5);

    print_avl_tree(root);

    avl_insert(&root, 7);

    printf("after:%d\n", 7);

    print_avl_tree(root);

    avl_insert(&root, 1);

    printf("after:%d\n", 1);

    print_avl_tree(root);

    avl_insert(&root, 0);

    printf("after:%d\n", 0);

    print_avl_tree(root);

    avl_insert(&root, 9);

    printf("after:%d\n", 9);

    print_avl_tree(root);

    ret = avl_find(root, 7);

    printf("find 7 result is %d\n", ret);

    ret = avl_find(root, 17);

    printf("find 17 result is %d\n", ret);

    ret = avl_del(&root, 7);

    printf("del 7 result is %d\n", ret);

    print_avl_tree(root);

    ret = avl_del(&root, 17);

    printf("del 17 result is %d\n", ret);

    print_avl_tree(root);

    avl_del_tree(root);

    return 0;

}

  

#gcc -g main.c avl.c -o main

#./main

hello, world
root:address 27951120
after:7
7 0
after:6
6 0
7 1
after:5
5 0
6 1
7 0
after:7
5 0
6 1
7 0
after:1
1 0
5 1
6 2
7 0
after:0
0 0
1 1
5 0
6 2
7 0
after:9
0 0
1 1
5 0
6 2
7 1
9 0
find 7 result is 1
find 17 result is 2
del 7 result is 0
0 0
1 1
5 0
6 2
9 0
del 17 result is 0
0 0
1 1
5 0
6 2
9 0

应该是正确的。