#include
#include
#define N 9
typedef struct node{
int data;
struct node * next;
}ElemSN;
ElemSN * Createlink(int a[],int n)
{ int i;
ElemSN * h=NULL, * p;
for( i=N-1;i>=0;i--)
{
p=(ElemSN *)malloc(sizeof(ElemSN));
p->data =a[i];
p->next=h;
h=p;
}
return h;
}
ElemSN* In_reverseList(ElemSN* H)
{
ElemSN * newHead ;
if (H == NULL || H->next == NULL) //链表为空直接返回,而H->next为空是递归基
return H;
newHead = In_reverseList(H->next); //一直循环到链尾
H->next->next = H; //翻转链表的指向
H->next = NULL; //记得赋值NULL,防止链表错乱
return newHead; //新链表头永远指向的是原链表的链尾
}
void printlink(ElemSN * h)
{
ElemSN * p;
for(p=h;p;p=p->next)
printf("%d\n",p->data);
}
int main(void)
{
int a[N]={1,2,3,4,5,6,7,8,9};
ElemSN * head;
head=Createlink(a,9);
printlink(In_reverseList(head));
}
分享名称:链表的逆置(递归)
文章URL:
http://njwzjz.com/article/joejho.html