# reverse part of a doubly linked list

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 * funtail = tail;
int stop=0;
while(stop==0)
{
if(curr==funtail)
{
stop = 1;
}
t = curr->prev;
curr->prev = curr->next;
curr->next = t;
curr = curr->prev;
}
t = tail;
}


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

1


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

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).
*/
int median = 0;
int listSize = size();
int counter = 0;

if(listSize == 1)
return;

/**
* 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;
}

int count = 0;

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

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

return iterator;
}

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

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