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C语言链表完整操作演示

2020-01-26 13:42:13
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本文实例为大家分享了C链表操作演示的具体代码,供大家参考,具体内容如下

头文件:link_0505.h

/* 链表演示 */ #ifndef __LINK_0505 #define __LINK_0505 typedef struct node{   int num;   struct node* p_next; }node; typedef struct  {   node head,tail; }link; //链表的初始化函数 void link_init(link *); //链表的清理函数 void link_deinit(link *); //判断链表是否空的函数 int link_empty(link *); //判断链表是否满的函数 int link_full(link *); //统计有效数字个数的函数 int link_size(link *); //在最前边插入数字的函数 int link_add_head(link *, int ); //在最后边插入新的数字的函数 int link_append(link *, int ); //把数字按照顺序插入到链表的函数 int link_insert(link *, int); //删除最前面数字的函数 int link_remove_head(link *); //删除最后一个有效数字 int link_remove_tail(link *); //删除某个给定数字的函数 int link_remove(link *, int ); //获得第一个有效数字的函数 int link_get_head(link *, int *); //获得最后一个有效数字的函数 int link_get_tail(link *, int *); //获得指定编号数字的函数 int link_get(link *, int *, int );  #endif 

实现代码: link_0505.cpp

/* 链表演示 */ #include "stdlib.h" #include "link_0505.h" //链表的初始化函数 void link_init(link *p_link) {   p_link->head.p_next = &(p_link->tail); } //链表的清理函数 void link_deinit(link *p_link) {   while(p_link->head.p_next != &(p_link->tail))   {     node *p_first = &(p_link->head);     node *p_mid = p_first->p_next;     node *p_last = p_mid->p_next;     p_first->p_next = p_last;     free(p_mid);     p_mid = NULL;   } } //判断链表是否空的函数 int link_empty(link *p_link) {   return p_link->head.p_next == &(p_link->tail); } //判断链表是否满的函数 int link_full(link *p_link) {   return 0; } //统计有效数字个数的函数 int link_size(link *p_link) {   int cnt = 0;   node *p_node = NULL;   for (p_node = &(p_link->head);p_node != &(p_link->tail);p_node = p_node->p_next)   {     node *p_first = p_node;     node *p_mid = p_first->p_next;     node *p_last = p_mid->p_next;     if (p_mid != &(p_link->tail))     {       cnt++;     }   }   return cnt; } //在最前边插入数字的函数 int link_add_head(link *p_link, int num) {   node *p_temp = (node *)malloc(sizeof(node));   if (!p_temp)   {     return 0;   }      p_temp->num = num;   node *p_first = &(p_link->head);   node *p_mid = p_first->p_next;   node *p_last = p_mid->p_next;   p_first->p_next = p_temp;   p_temp->p_next = p_mid;    return 1; } //在最后边插入新的数字的函数 int link_append(link *p_link, int num) {   node *p_tmp = (node *)malloc(sizeof(node));   node *p_node = NULL;   if (!p_tmp)   {     return 0;   }   p_tmp->num = num;   for (p_node = &(p_link->head);p_node != &(p_link->tail);p_node = p_node->p_next)   {     node *p_first = p_node;     node *p_mid = p_first->p_next;     node *p_last = p_mid->p_next;     if (p_mid == &(p_link->tail))     {       p_first->p_next = p_tmp;       p_tmp->p_next = p_mid;       break;     }   }   return 1; } //把数字按照顺序插入到链表的函数 int link_insert(link *p_link, int num) {   node* p_temp = (node *)malloc(sizeof(node));   node* p_node = NULL;   if (!p_temp)   {     return 0;   }   p_temp->num = num;   p_temp->p_next = NULL;   for (p_node = &(p_link->head);p_node != &(p_link->tail);p_node = p_node->p_next)   {     node *p_first = p_node;     node *p_mid = p_first->p_next;     node *p_last = p_mid->p_next;     if (p_mid == &(p_link->tail) || p_mid->num > p_temp->num)     {       p_first->p_next = p_temp;       p_temp->p_next = p_mid;       break;     }   }   return 0; } //删除最前面数字的函数 int link_remove_head(link *p_link) {   node *p_first = &(p_link->head);   node *p_mid = p_first->p_next;   node *p_last = p_mid->p_next;   if (p_link->head.p_next == &(p_link->tail))   {     return 0;   }   p_first->p_next = p_last;   free(p_mid);   p_mid = NULL; } //删除最后一个有效数字 int link_remove_tail(link *p_link) {   node *p_node = NULL;   for (p_node = &(p_link->head);p_node !=&(p_link->tail);p_node = p_node->p_next)   {     node *p_first = p_node;     node *p_mid = p_first->p_next;     node *p_last = p_mid->p_next;     if (p_last == &(p_link->tail))     {       p_first->p_next = p_last;       free(p_mid);       p_mid = NULL;       return 1;     }   }   return 0; } //删除某个给定数字的函数 int link_remove(link *p_link, int num) {   node *p_node = NULL;   for (p_node = &(p_link->head);p_node != &(p_link->tail);p_node = p_node->p_next)   {     node *p_first = p_node;     node *p_mid = p_first->p_next;     node *p_last = p_mid->p_next;     if (p_mid != &(p_link->tail) && p_mid->num == num)     {       p_first->p_next = p_last;       free(p_mid);       p_mid = NULL;       return 1;     }   }   return 0; } //获得第一个有效数字的函数 int link_get_head(link *p_link, int *p_num) {   if (p_link->head.p_next == &(p_link->tail))   {     return 0;   }   node *p_first = &(p_link->head);   node *p_mid = p_first->p_next;   node *p_last = p_mid->p_next;   p_first->p_next = p_last;   *p_num = p_mid->num;   return 1; } //获得最后一个有效数字的函数 int link_get_tail(link *p_link, int *p_num) {   node *p_node = NULL;   for (p_node = &(p_link->head);p_node != &(p_link->tail);p_node = p_node->p_next)   {     node *p_first = p_node;     node *p_mid = p_first->p_next;     node *p_last = p_mid->p_next;     if (p_last == &(p_link->tail))     {       *p_num = p_mid->num;       return 1;     }   }   return 0; } //获得指定编号数字的函数 int link_get(link *p_link, int *p_num, int num) {   int cnt = 0;   node *p_node = NULL;   for (p_node = &(p_link->head);p_node != &(p_link->tail);p_node = p_node->p_next)   {     node *p_first = p_node;     node *p_mid = p_first->p_next;     node *p_last = p_mid->p_next;     if (p_mid != &(p_link->tail) && cnt == num)     {       *p_num = p_mid->num;       return 1;     }     cnt++;   }   return 0; } 

测试函数:

/*  * 链表测试  * */ #include <stdio.h> #include "link_0505.h" int main() {   int size = 0, num = 0, val = 0;   link lnk = {0};   link_init(&lnk);   link_add_head(&lnk, 30);   link_add_head(&lnk, 20);   link_append(&lnk, 90);   link_append(&lnk, 100);   link_insert(&lnk, 50);   link_insert(&lnk, 60);   link_insert(&lnk, 40);   link_insert(&lnk, 80);   link_insert(&lnk, 70);   size = link_size(&lnk);   for (num = 0;num <= size - 1;num++) {     link_get(&lnk, &val, num);     printf("%d ", val);   }   printf("/n");   printf("------------------");   link_remove_head(&lnk);   link_remove_tail(&lnk);   link_remove(&lnk, 70);   size = link_size(&lnk);   for (num = 0;num <= size - 1;num++) {     link_get(&lnk, &val, num);     printf("%d ", val);   }   printf("/n");   link_get_head(&lnk, &val);   printf("最前面的数字是%d/n", val);   link_get_tail(&lnk, &val);   printf("最后面的数字是%d/n", val);   link_deinit(&lnk);   return 0; } 

以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持武林网。

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