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I'm trying to reverse a linked list by using C++ and then print out the reversed one.

For example: the original list is 1->2->3 after reversion: 3->2->1

But when I tried to print out the reversed linked list, 3->2->1 became a circular linked list like 3<->2

Followings are my codes:

#include <iostream>
#include <sstream>
using namespace std;
class List{
    int value;
    List *next;
    List(int, List *);

List::List(int v){
    value = v;
    next = NULL;

List::List(int v, List *ne){
    value = v;
    next = ne;

string IntToString(int val){
    stringstream temp;
    return temp.str();

void print(List *l){
    string output= "";
    while(l->next != NULL){
        l = l->next;

List reverse(List L){
    if(L.next == NULL) return L;
    List remain = reverse(*(L.next));
    List *current = &remain;
    while(current->next != NULL)
        current = (current->next);
    L.next = NULL;
    current->next = &L;
    return remain;

List copy(List l){
    return l;

int main() {
    List L3(3);
    List L2(2, &L3);
    List L1(1, &L2);
    List L4 = reverse(L1);
    return 0;

Can anyone tell me why this happens? Thanks a lot!

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3 Answers 3

up vote 0 down vote accepted

First of all, I want to point out to you that a list containing a pointer to another list is conceptually wrong.

Create a list node class seperately, e.g.

struct ListNode {
    int value;
    Node *next;

Then your List becomes,

class List {
    ListNode *head;

Now onto reversing. In the method List reverse( List L ), L is simply a local variable. It goes out of scope after,

    return remain;
} // Here the scope of L ends

So it is logically incorrect to return a List whose next value is location of L,

current->next = &L;
return remain; // remain is equal to *current and current->next = &L

This causes undefined behavior in your implementation.

EDIT: I have some free time, so I came up with this implementation. It uses the same algorithm although modifies the original list on which it is called.

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Great! Thank you so much! –  LuZ Sep 3 '12 at 17:52

I think your reverse algorithm is correct, but remain is a local variable, which is invalid after return, therefore L4 will contain invalid pointer. Change the signature of reverse() to take and return List *.

List *reverse(List *L){
    if(L->next == NULL) return L;
    List *remain = reverse(L->next);
    List *current = remain;
    while(current->next != NULL)
        current = (current->next);
    L->next = NULL;
    current->next = L;
    return remain;
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The problem is solved using your answer! Thank you! –  LuZ Sep 3 '12 at 5:34

Just looking at your reverse() function you are creating an object on the stack called remain and insert this into your list. This can't work: this object will go out of scope once your return from the function (the original objects in main() have the same problem but you don't try to use them after you left main()). Also, your reverse() function seems to have quadratic performance while it should be linear. I think something like this would do the trick:

List* reverse(List* head) {
    List* tail(0);
    while (head) {
        List* tmp(head);
        head = head->next;
        tmp->next = tail;
        tail = tmp;
    return tail;

The above implementation also avoids the recursion.

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