Create singly linked list, and realize basic functions such as addition, deletion, modification, and checking
Linear structure is a line to string all the data, it is divided into linear storage (array and discrete storage (linked list)
/*
* 本例为非循环单链表
*/
#include <stdio.h>
#include <malloc.h>
#include <stdlib.h>
typedef struct Node {
int data; //数据域
struct Node * pNext; //指针域
}NODE, *PNODE; //NODE等价于struct Node PNODE等价于 struct Node *
//函数声明
PNODE creat_list(void);
void traverseShow_list(PNODE pHead);
bool is_empty(PNODE pHead);
int length_list(PNODE);
bool insert_list(PNODE, int, int);
bool delete_list(PNODE, int, int *);
void sort_list(PNODE);
bool search_list(PNODE, int);
int main(void) {
PNODE pHead = NULL;
pHead = creat_list(); //创建一个非循环单链表,并将该链表头节点地址 给pHead
traverseShow_list(pHead); //遍历 链表
if(is_empty(pHead)) {
printf("链表为空!\n");
} else {
printf("链表不空!\n");
}
printf("链表的长度为%d!\n", length_list(pHead));
sort_list(pHead);
insert_list(pHead, 2, 10);
traverseShow_list(pHead);
return 0;
}
PNODE creat_list(void) {
int len; //存放有效节点个数
int i;
int val; //用来存放用户临时输入结点的值
//头指针pHead指向头节点
PNODE pHead = (PNODE)malloc(sizeof(NODE)); //分配一个不存放数据的头结点
if(pHead == NULL) {
printf("动态内存分配失败,程序终止!\n");
exit(-1);
}
/* pTail是尾节点 pHead是头指针
* 没有实际节点时,pTail 和 pHead共同指向头结点
* 链表空时,pHead本身就是尾节点
* pTail应该永远指向尾节点
*/
PNODE pTail = pHead;
pTail->pNext = NULL; // 尾节点指针域为空
printf("请输入链表长度:length = ");
scanf("%d", &len);
for(i = 0; i < len; i++) {
printf("请输入第%d个节点的值:", i + 1);
scanf("%d",&val);
//生成一个新的结构体指针,指向新生成的节点
PNODE pNew = (PNODE)malloc(sizeof(NODE));
if(pNew == NULL) {
printf("动态内存分配失败,程序终止!");
exit(-1);
}
pNew->data = val; //给新节点数据域赋值
pTail->pNext = pNew; //此时的pTail就是pHead,等价于pHead->pNext = pNew
pNew->pNext = NULL; //然后 新节点(尾节点)指针域为空
pTail = pNew; //再使pTail和pNew指向新节点(pTail后移一位)
}
return pHead;
}
void traverseShow_list(PNODE pHead) {
PNODE p = pHead->pNext;
while(p != NULL) {
printf("%d ", p->data);
p = p->pNext; //指针指向下一节点
}
printf("\n");
return;
}
bool is_empty(PNODE pHead) {
//如果链表为空,则头节点指针域为空
if(pHead->pNext == NULL) {
return true;
} else {
return false;
}
}
int length_list(PNODE pHead) {
int len = 0;
PNODE p = pHead->pNext;
while(p != NULL) {
p = p->pNext; //指向下一个节点
len++;
}
return len;
}
/* 算法 :
* 狭义的算法是与数据的存储方式密切相关
* 广义的算法是与数据的存储方式无关
* 泛型:
* 利用某种技术达到的效果是:不同的存储方式,执行的操作相同
*/
/*冒泡法排序
void sort_list(PNODE) {
int i, j, t;
//数据不连续就没有下标(方括号)
for(i = 0; i < len - 1; i++) {
for(j = 0; j < len - 1 - i; j++) {
if(a[j] > a[j + 1]) {
t = a[j];
a[j] = a[j + 1];
a[j + 1] = t;
}
}
}
}*/
//选择法排序
void sort_list(PNODE pHead) {
int i, j, t;
int len = length_list(pHead);
PNODE p, q;
for(i = 0, p = pHead->pNext; i < len - 1; i++, p = p->pNext) {
for( j = i + 1, q = p->pNext; j < len; j++, q = q->pNext) {
if(p->data > q->data) {
//类似于数组中的 a[i] > a[j]
t = p->data; //类似于数组中的 t=a[i]
p->data = q->data;//a[i]= a[j]
q->data = t; //a[j]=t
}
}
}
}
//在pHead所指向链表的第pos个节点的前面插入一个新的节点,该节点数据为val
bool insert_list(PNODE pHead, int pos, int val) {
int i = 1;
PNODE p = pHead;
while(p != NULL && i < pos) {
p = p->pNext;
i++;
}
if(i > pos || p == NULL) {
return false;
}
PNODE pNew = (PNODE )malloc(sizeof(NODE));
if(pNew == NULL) {
printf("动态内存分配失败!\n");
exit(-1);
}
pNew->data = val;
PNODE q = p->pNext; //q是临时节点
p->pNext = pNew;
pNew->pNext = q;
return true;
}