#include<stdio.h>
#include<stdlib.h>
#include<strings.h>
/*定义节点*/
struct node
{
int data;
struct node *next;
};
/*创建新节点*/
struct node *create_node(int num)
{
struct node *p=(struct node*)malloc(sizeof(struct node));//给结点分配空间;
if(p==NULL)
{
printf("create error\n");
}
bzero(p,sizeof(struct node));//清理堆空间
p->data=num;
p->next=NULL;
return p;
}
/*头插*/
struct node *insert_head(struct node *pheader,struct node *new)
{
struct node *p=pheader;
new->next=p->next;
p->next=new;
}
/*中间插入*/
struct node *insert_index(struct node *pheader,struct node *new,int num)
{
struct node *p=pheader;
int count=0;
if(p->next==NULL)
{
printf("链表为空\n");
}
while(p->next!=NULL)
{
p=p->next;
count++;
if(count==num)
{
new->next=p->next;
p->next=new;
break;
}
}
}
/*尾插*/
struct node *insert_tail(struct node *pheader,struct node *new)
{
struct node *p=pheader;
while(p->next!=NULL)
{
p=p->next;
}
p->next=new;
}
/*逆序*/
int reserve(struct node *pheader)
{
struct node *p=pheader;
struct node *p1=NULL;
struct node *p2=NULL;
struct node *p3=NULL;
if(p->next==NULL)
{
printf("链表为空\n");
return -1;
}
if(p->next->next==NULL)
{
printf("链表仅有一个有效节点\n");
return -1;
}
p1=p->next;
p2=p->next->next;
p3=p->next->next->next;
while(p3!=NULL)
{
p2->next=p1;
p1=p2;
p2=p3;
p3=p3->next;
}
p2->next=p1;
p->next->next=NULL;
p->next=p2;
}
/*删除*/
int delate(struct node *pheader,int num)
{
struct node *p=pheader;
struct node *pprev=NULL;
int flag=0;
if(p->next==NULL)
{
printf("链表为空\n");
}
while(p->next!=NULL)
{
pprev=p;
p=p->next;
if(p->data==num)
{
pprev->next=p->next;
free(p); //释放被删的节点的空间
}
flag=1;
}
if(flag==0)
{
printf("没有要删除的数\n");
return -1;
}
}
/*显示*/
int display(struct node *pheader)
{
struct node *p=pheader;
if(p->next==NULL)
{
printf("链表为空\n");
return -1;
}
while(p->next!=NULL)
{
p=p->next;
printf("p->data=%d\n",p->data);
}
printf("\n");
}
int main()
{
int i=0;
struct node *pheader=NULL;
pheader=create_node(11);
for(i=0;i<7;i++)
{
//insert_head(pheader,create_node(i+2));
insert_tail(pheader,create_node(i+2));
}
display(pheader);
//insert_index(pheader,create_node(20),3);
reserve(pheader);
display(pheader);
//delate(pheader,5);
//display(pheader);
return 0;
}
#include<stdlib.h>
#include<strings.h>
/*定义节点*/
struct node
{
int data;
struct node *next;
};
/*创建新节点*/
struct node *create_node(int num)
{
struct node *p=(struct node*)malloc(sizeof(struct node));//给结点分配空间;
if(p==NULL)
{
printf("create error\n");
}
bzero(p,sizeof(struct node));//清理堆空间
p->data=num;
p->next=NULL;
return p;
}
/*头插*/
struct node *insert_head(struct node *pheader,struct node *new)
{
struct node *p=pheader;
new->next=p->next;
p->next=new;
}
/*中间插入*/
struct node *insert_index(struct node *pheader,struct node *new,int num)
{
struct node *p=pheader;
int count=0;
if(p->next==NULL)
{
printf("链表为空\n");
}
while(p->next!=NULL)
{
p=p->next;
count++;
if(count==num)
{
new->next=p->next;
p->next=new;
break;
}
}
}
/*尾插*/
struct node *insert_tail(struct node *pheader,struct node *new)
{
struct node *p=pheader;
while(p->next!=NULL)
{
p=p->next;
}
p->next=new;
}
/*逆序*/
int reserve(struct node *pheader)
{
struct node *p=pheader;
struct node *p1=NULL;
struct node *p2=NULL;
struct node *p3=NULL;
if(p->next==NULL)
{
printf("链表为空\n");
return -1;
}
if(p->next->next==NULL)
{
printf("链表仅有一个有效节点\n");
return -1;
}
p1=p->next;
p2=p->next->next;
p3=p->next->next->next;
while(p3!=NULL)
{
p2->next=p1;
p1=p2;
p2=p3;
p3=p3->next;
}
p2->next=p1;
p->next->next=NULL;
p->next=p2;
}
/*删除*/
int delate(struct node *pheader,int num)
{
struct node *p=pheader;
struct node *pprev=NULL;
int flag=0;
if(p->next==NULL)
{
printf("链表为空\n");
}
while(p->next!=NULL)
{
pprev=p;
p=p->next;
if(p->data==num)
{
pprev->next=p->next;
free(p); //释放被删的节点的空间
}
flag=1;
}
if(flag==0)
{
printf("没有要删除的数\n");
return -1;
}
}
/*显示*/
int display(struct node *pheader)
{
struct node *p=pheader;
if(p->next==NULL)
{
printf("链表为空\n");
return -1;
}
while(p->next!=NULL)
{
p=p->next;
printf("p->data=%d\n",p->data);
}
printf("\n");
}
int main()
{
int i=0;
struct node *pheader=NULL;
pheader=create_node(11);
for(i=0;i<7;i++)
{
//insert_head(pheader,create_node(i+2));
insert_tail(pheader,create_node(i+2));
}
display(pheader);
//insert_index(pheader,create_node(20),3);
reserve(pheader);
display(pheader);
//delate(pheader,5);
//display(pheader);
return 0;
}
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