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I'm trying to implement my own list class but am having trouble reversing just part of my list.

Revelant code:

void List<T>::reverse(ListNode * & head, ListNode * & tail)

    ListNode* t;
    ListNode* curr = head;
    ListNode * funtail = tail;
    int stop=0;
            stop = 1;
        t = curr->prev;
        curr->prev = curr->next;
        curr->next = t;
        curr = curr->prev;
    t = tail;
    tail = head;
    head = t;

If I start with the list

1 2 3 4 5 6 7 8 9 10

and I pass in pointers to 1 and 4, then the list should look like

4 3 2 1 5 6 7 8 9 10

The problem is, my list returns as just


with the rest of the list lost (well, still accessible from my global tail variable). Any ideas? Is my method wrong?

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In your first iteration of the while loop you assign curr->prev to t. What happens if you start reversing at the head where there's no previous node? – jrok Feb 20 '12 at 17:32
up vote 0 down vote accepted

Your head->prev must be pointing to NULL in first for loop . You better think and implement digramatically it will be helpful . You need t->next->next =t->next.

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But, won't it segfault with t->next->next when t->next is NULL (last item in list). I have diagrammed it out on paper and when I add in a special case for when the working node is the head, it seems as if it should work fine. – Adam Feb 21 '12 at 18:18

If you reverse the segment [first,last], you want first->next set to last->next, not to first->prev, as your code does.

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The problem happens for the first node, since Node 1 prev pointer is NULL and you are assigning it to Node 1's next. You should assign 1's next to Node 5

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I've added a special case for when the working node is the head to set its next to tail->next (1->next should be 5) but now I'm just losing the inside numbers and it only flips the first 2: < 2 1 5 6 7 8 9 10 > – Adam Feb 21 '12 at 18:18
You need to take care of the head node and last node. For the rest of the nodes the logic you have used should work. These 3 scenarios must be taken care of: 1) head node next must point to tail node next 2) tail node next must point to head nodes prev 3) Then for the rest of the nodes node->next must point to node->prev – girish Feb 23 '12 at 15:54
Can you also post the code which gave the results < 2 1 5 6 7 8 9 10 >. I think the problem would be that the variable stop gets set to 1 in between, hence the iteration is not complete. – girish Feb 23 '12 at 16:11

A simpler solution.

 * Traverses half of the list and swaps a node with another node(
  here by termed as the reflection node)
 * which lies at a position = listSize - (i +1) for every i.
 * Reassignment of element is not needed, hence a soul saver from
 * the copy constructor thing ( '=' assignment operator stuff).
template <typename E> void DLinkedList<E>::reverse(){
    int median = 0;
    int listSize = size();
    int counter = 0;

    if(listSize == 1)

 * A temporary node for swapping a node and its reflection node
DNode<E>* tempNode = new DNode<E>();

for(int i = 0; i < listSize/2 ; i++){
    DNode<E>* curNode = nodeAtPos(i);
  // A node at 'i'th position
    DNode<E>* reflectionNode = nodeAtPos(listSize - (i + 1));   
 // Reflection of a node considering the same distance from the median

         * swap the connections from previous and next nodes for current and 
             * reflection nodes
        curNode->prev->next = curNode->next->prev = reflectionNode;

        reflectionNode->prev->next = reflectionNode->next->prev = curNode;

         * swapping of the nodes
        tempNode->prev = curNode->prev;
        tempNode->next = curNode->next;

        curNode->next = reflectionNode->next;
        curNode->prev = reflectionNode->prev;

        reflectionNode->prev = tempNode->prev;
        reflectionNode->next = tempNode->next;

    delete tempNode;

template <typename E> int DLinkedList<E>::size(){
    int count = 0;
    DNode<E>* iterator = head;

    while(iterator->next != tail){
        iterator = iterator->next;
    return count;

template <typename E> DNode<E>* DLinkedList<E>::nodeAtPos(int pos){
    DNode<E>* iterator = head->next;
    int listSize = size();
    int counter = 0;
    while(counter < pos){
        iterator = iterator->next;

    return iterator;
share|improve this answer

In your method parameters you are mixing "Pointers" with "References".

void List::reverse(ListNode * & head, ListNode * & tail)

Maybe you mean?

void List::reverse(ListNode* head, ListNode* tail)
share|improve this answer
this does not answer the question. Also note that he reassigns the parameters, that's why they are references to pointers. Not the best practice, but his code would not work at all with your suggestions. – vidstige Feb 20 '12 at 18:11

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