# include <bits/stdc++.h>
using namespace std;
struct list_node{
int val;
struct list_node * next;
};
struct double_list_node{
int val;
struct double_list_node * pre, * next;
};
list_node * input_list(void)
{
int n, val;
list_node * phead = new list_node();
list_node * cur_pnode = phead;
scanf("%d", &n);
for (int i = 1; i <= n; ++i) {
scanf("%d", &val);
if (i == 1) {
cur_pnode->val = val;
cur_pnode->next = NULL;
}
else {
list_node * new_pnode = new list_node();
new_pnode->val = val;
new_pnode->next = NULL;
cur_pnode->next = new_pnode;
cur_pnode = new_pnode;
}
}
return phead;
}
double_list_node * input_double_list(void)
{
int n, val;
double_list_node * phead = new double_list_node();
double_list_node * cur_pnode = phead;
scanf("%d", &n);
for (int i = 1; i <= n; ++i) {
scanf("%d", &val);
if (i == 1) {
cur_pnode->val = val;
cur_pnode->next = NULL;
cur_pnode->pre = NULL;
}
else {
double_list_node * new_pnode = new double_list_node();
new_pnode->val = val;
new_pnode->next = NULL;
new_pnode->pre = cur_pnode;
cur_pnode->next = new_pnode;
cur_pnode = new_pnode;
}
}
return phead;
}
list_node * reverse_list(list_node * head)
{
//////在下面完成代码
//反转单向链表
if(head==NULL||head->next==NULL)
return head;
list_node*pre=NULL,*cur=head,*next=NULL;
while(cur){
next=cur->next;
cur->next=pre;
pre=cur;
cur=next;
}
return pre;
}
double_list_node * reverse_double_list(double_list_node * head)
{
//////在下面完成代码
//反转双向链表
double_list_node*pre=NULL,*cur=head,*next=NULL;
if(head==NULL||head->next==NULL)
return head;
while(cur){
next=cur->next;
cur->next=pre;
if(pre){//pre不为空时
pre->pre=cur;
}
pre=cur;
cur=next;
}
pre->pre=NULL;
return pre;
}
void print_list(list_node * head)
{
while (head != NULL) {
printf("%d ", head->val);
head = head->next;
}
puts("");
}
void print_double_list(double_list_node * head)
{
while (head != NULL) {
printf("%d ", head->val);
head = head->next;
}
puts("");
}
int main ()
{
list_node * head = input_list();
double_list_node * double_head = input_double_list();
list_node * new_head = reverse_list(head);
double_list_node * new_double_head = reverse_double_list(double_head);
print_list(new_head);
print_double_list(new_double_head);
return 0;
}
using namespace std;
struct list_node{
int val;
struct list_node * next;
};
struct double_list_node{
int val;
struct double_list_node * pre, * next;
};
list_node * input_list(void)
{
int n, val;
list_node * phead = new list_node();
list_node * cur_pnode = phead;
scanf("%d", &n);
for (int i = 1; i <= n; ++i) {
scanf("%d", &val);
if (i == 1) {
cur_pnode->val = val;
cur_pnode->next = NULL;
}
else {
list_node * new_pnode = new list_node();
new_pnode->val = val;
new_pnode->next = NULL;
cur_pnode->next = new_pnode;
cur_pnode = new_pnode;
}
}
return phead;
}
double_list_node * input_double_list(void)
{
int n, val;
double_list_node * phead = new double_list_node();
double_list_node * cur_pnode = phead;
scanf("%d", &n);
for (int i = 1; i <= n; ++i) {
scanf("%d", &val);
if (i == 1) {
cur_pnode->val = val;
cur_pnode->next = NULL;
cur_pnode->pre = NULL;
}
else {
double_list_node * new_pnode = new double_list_node();
new_pnode->val = val;
new_pnode->next = NULL;
new_pnode->pre = cur_pnode;
cur_pnode->next = new_pnode;
cur_pnode = new_pnode;
}
}
return phead;
}
list_node * reverse_list(list_node * head)
{
//////在下面完成代码
//反转单向链表
if(head==NULL||head->next==NULL)
return head;
list_node*pre=NULL,*cur=head,*next=NULL;
while(cur){
next=cur->next;
cur->next=pre;
pre=cur;
cur=next;
}
return pre;
}
double_list_node * reverse_double_list(double_list_node * head)
{
//////在下面完成代码
//反转双向链表
double_list_node*pre=NULL,*cur=head,*next=NULL;
if(head==NULL||head->next==NULL)
return head;
while(cur){
next=cur->next;
cur->next=pre;
if(pre){//pre不为空时
pre->pre=cur;
}
pre=cur;
cur=next;
}
pre->pre=NULL;
return pre;
}
void print_list(list_node * head)
{
while (head != NULL) {
printf("%d ", head->val);
head = head->next;
}
puts("");
}
void print_double_list(double_list_node * head)
{
while (head != NULL) {
printf("%d ", head->val);
head = head->next;
}
puts("");
}
int main ()
{
list_node * head = input_list();
double_list_node * double_head = input_double_list();
list_node * new_head = reverse_list(head);
double_list_node * new_double_head = reverse_double_list(double_head);
print_list(new_head);
print_double_list(new_double_head);
return 0;
}
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