While seeing a programming interview site, I came across code which swap adjacent elements in a linked list, but I found it to be a bit wrong. Below is the code.

``````void swap (struct list **list1)
{
struct list *cur, *tmp, *next;
cur = *list1;
if (cur && cur->next)
*list1 = cur->next;

//To make sure that we have at least two more elements to be swapped.
while (cur && cur->next)
{
next = cur->next;
tmp = next->next;
next->next = cur;
//We have to make 1->next as 4 in above example (figure).

if (tmp)
cur->next = tmp->next;
cur = tmp;
}
return;
}
``````

Now for me, the condition `if (temp)` is not right here. Is that assessment correct?

Suppose we do have a linked list like:

``````  1->2->3->4->NULL
``````

Now our objective is to make a linked list like:

``````2->1->4->3->NULL
``````

My worry is if the `if (temp)` is there in our code, we can't assign null at end of the linked list.

-

You are right. This doesn't work. It creates a loop at the end of the list, and if you run `swap` twice on the same list, the second run will get into an endless loop.

To fix this awkward code, replace the `if (tmp)` with the following code:

``````if(tmp)
if (tmp->next)
cur->next = tmp->next;
else
cur->next = tmp;    // take care of an add number of nodes
else
cur->next = NULL;   // take care of an even number of nodes
``````

It will take care of the last nodes:

1. If there's an even number of nodes, it makes sure the last points to NULL instead of the node before it.
2. If there's an odd number of nodes, checking `cur->next` will prevent the following iteration, so the last node must be pointed by the one before it before the loop is exited.
-
Thanks for your response @Eran .i think if we simply remove this particular line if(tmp), code should work fine without any other modification. –  Amit Singh Tomar Aug 18 '11 at 9:43
@Amit, removing the `if (tmp)` won't make it work - you'd still have a loop at the end of the list, and if the list has an odd number of nodes, you'd also loose the last one. I really hope this code was intentionally made confusing for the sake of the interview. In real world, you'd better just separate the list implementation from its content, and use `std::list<data*>` or so. Would make it so much easier to swap `data*`s... –  eran Aug 18 '11 at 10:28
@Amit, just wondering - you first accepted this answer, and then un-accepted it (or however that's called...). Any special reason why this doesn't answer your question anymore? –  eran Aug 19 '11 at 19:33
ohh i see its got un-accepted by mistake!! –  Amit Singh Tomar Aug 20 '11 at 8:58

It tests it to make sure it's not `NULL` (the last element). Not testing it will make your program follow the NULL pointer for the last element of the list.

``````tmp = next->next; /* If `next` is the last, `next->next` is NULL. */
``````
-
did you read my edited post –  Amit Singh Tomar Aug 13 '11 at 13:35

Yes, you are right that there's a bug in the function - `cur->next` isn't updated correctly in all cases.

I personally find the local variable names `tmp` and `next` not particularly helpful and actively confusing in the case of `next`. Those names make it hard for me to keep track in my head of what's going on as I read through the function.

I find that the names `node1`, `node2`, and `node3` work better to for me to keep a mental picture of which node is being manipulated. I wouldn't be surprised if other people disagree, though.

Here's a reworked version of the function that I find more readable, and more importantly that I believe is correct.

``````void swap (struct list **head)
{
struct list *node2 = node1 ? node1->next : NULL;

// handle degenerate cases
if (!node2) {
// no elements or only one element on the list
//  nothing to do...
return;
}

// fix-up list head to what will be the new first node on list

// while there are at least 2 more elements to be swapped
while (node1 && node2) {
struct list* node3 = node2->next;

// get a pointer to the node that will be the remainder of the
//  list after the remainder of the list is processed.
//
// This will be NULL, node3, or 'node4' depending on whether
//  there are 0 , 1 or 2+ nodes following node1 and node2
struct list* remainder = (node3 && node3->next) ? node3->next : node3;

node1->next = remainder;
node2->next = node1;

// prepare pointers to the next two nodes to be swapped
node1 = node3;
node2 = node3 ? node3->next : NULL;
}

return;
}
``````
-

Java Implementation

Given: `1->2->3->4->5->6`

Logic 1. First - 1, Second - 2, Third 3
2. Second.next = first
3. First.next = Third.next depending on even or odd numbers update accordingly

``````public ListNode evenOddMerge(ListNode head) {

}

ListNode second = first.next;
ListNode third = null;

while (true) {

third = second.next;

second.next = first;

if (third == null || third.next == null) {
first.next = third;
break;
}

first.next = third.next;

first = third;
second = first.next;
}