# Assigning nodes (reversing linked list)

I want to write both an iterative and recursive way to reverse a linked list.

Unfortunately, in both cases, I'm running into a similar problem: I am unable to change one node's pointer to a different node, and I'm struggling in some cases with iterating down the list. For example, here's my recursive reverse function:

``````node *reverse(node *initial){
node *prev = initial;
node *nextNode;
nextNode = (node *)malloc(sizeof(struct node));
nextNode = initial->next;
if(nextNode->next == NULL){
return  prev;
}
else{
nextNode = reverse(nextNode);
nextNode->next = prev;
}
}
``````

The line `nextNode = initial->next;` crashes the program. I'm sure there's plenty of other issues with this code, and while I'm open to suggestions if its fatally flawed, I mostly just want to resolve this error so that I can debug the rest on my own. In the iterative version, some of the similar lines that crash the program are:

``````startA = startA->next; // startA is a node pointer
backNode = startB; // backNode and startB are both node pointers
backNode->data = frontNode->data; //both ints
frontNode->data = temp; //again both ints
``````

By request, the rest of the code:

``````main(){
node *  start = buildList();
int i;
int nodeSize = sizeof(struct node);
reverse(start);
}
``````

And buildList:

``````node *buildList(){
node *second = NULL;
node *third = NULL;
node *fourth = NULL;
node *fifth = NULL;

second = (node *)malloc(sizeof(struct node));
third = (node *)malloc(sizeof(struct node));
fourth = (node *)malloc(sizeof(struct node));
fifth = (node *)malloc(sizeof(struct node));

second->data  =2;
second->next = third;

third->data = 3;
third->next = fourth;

fourth->data =4;
fourth->next = fifth;

fifth->data = 5;
fifth->next = NULL;

}
``````
-
You need to show the calling code of `reverse` function and how the passed parameter is initialized. How are you populating nodes in the linked list that needs to be reversed ? –  Mahesh Jun 18 '12 at 21:27
You shouldn't be calling `malloc` if you're just reversing the list. Do you want to reverse it in-place, or return a copy? –  betabandido Jun 18 '12 at 21:32
You are not returning anything from the `else` statement. –  betabandido Jun 18 '12 at 21:33
I was getting an error before that I solved with malloc. I think. That was a solid couple of hours ago though, so I have no idea what my intent was, haha. –  CowGoes Jun 18 '12 at 21:39
And do I need to have multiple return statements? I just want to change the nodes and return the new head node at the end. –  CowGoes Jun 18 '12 at 21:40

Here is a quick walkthrough for you:

``````node *reverse(node *initial){

if (initial is NULL)
/* this is an empty list so return */
return a null pointer;

if (initial->next is NULL)
/* this is the recursion base case under normal operation - one elem left */
return initial;

node *prev = initial;
node *nextNode = initial->next;

/* reverse the rest of the list starting at the next node */
nextNode = reverse(nextNode);

/* now just reverse the pointers */
initial->next->next = prev;
/*
* but remember that prev->next still points to the wrong node,
* we need to clear that
*/
prev->next = NULL;

/* you were also missing the return case here */
/* we want to keep track of the last element (the new head element) */
/* keep passing this back up through the recursive steps */
return nextNode;

}
``````
-
you could probably name the pointers something better to make the code more readable –  Jis Ben Jun 19 '12 at 1:00
Worked. So it wasn't the base case that was going wrong, it was the rest of the recursive function. I'm a little confused though. Why is it initial next next and not just initial next? –  CowGoes Jun 19 '12 at 1:36
Just write out the steps and you will see. Take the examples of 4 nodes: 1,2,3,4. After the return from the recursive base case, we are at node 3. 3->next->next is the same as 4->next. We want 4->next to be 3, but when we do that we create a circular reference (4->next = 3, 3->next = 4). So set 3->next = NULL and return to the previous recursive step. At the next step, initial is 2, 2->next is 3, and we want 3->next to be 2. So 2->next->next = 2... etc. –  Jis Ben Jun 19 '12 at 1:55
Makes perfect sense. Thanks for the help. –  CowGoes Jun 19 '12 at 4:04

Note that when you dereference `nextNode->next` in your `if` statement, you haven't checked for `nextNode == NULL`.

Essentially you're doing:

``````if (initial->next->next == NULL)
``````

What happens here if `initial->next == NULL`? This is also an issue with your recursion base-case.

Furthermore, your `malloc` is wasted and will cause a memory leak: you assign to `nextNode` a new memory block, then lose the reference to that block when you assign something else to `nextNode` in the very next line: `nextNode = initial->next;` A `malloc` is unnecessary here: you're not adding new nodes to your list, only rearranging the nodes that you have.

When implementing recursion, carefully consider your base-case. With your code you want to recurse to traverse your list to its last node, then use `return` to build the list again, backwards. How do you know when you're at the last node in the list? This is your base-case, and your recursion function should start there. Can you determine this using only your function argument?

This isn't so different from your current code, but the code you've posted contains a number of mistakes.

-
So I tried removing the malloc stuff, while commenting out the line that causes a crash. This caused the program to crash all over again. So even though I'm not sure why, I seem to need the malloc. I'm not entirely sure about the next->next thing. nextNode is poorly named, I think current might be more accurate. So I don't think I'm going two nodes ahead. –  CowGoes Jun 18 '12 at 21:52
commenting out the offending line isn't useful: you need to fix it. –  pb2q Jun 18 '12 at 22:02
I'm not really sure how to fix it though. Removing the malloc doesn't seem to work, the program still crashes. I really don't see any way that nextNode = initial->next should IMMEDIATELY crash the program (it never reaches any code below that statement). The next several nodes are not null; it should have no issues accessing initial->next. –  CowGoes Jun 18 '12 at 22:13
And having read your edit, why can't I determine the last node by checking to see if the pointer points to NULL? Isn't that the end of a linked list by definition? –  CowGoes Jun 18 '12 at 22:15
eventually you will recurse to the end of your list. If your list is constructed properly, you will know this because the last node of the list will have `next == NULL`. Now you're at that point in your function, and `initial` is this last node, so `initial->next == NULL`, and because of `nextNode = initial->next` now `nextNode == NULL` also. What happens when you try to dereference NULL, as with `nextNode->next`? Undefined behavior, in your case, a crash. –  pb2q Jun 18 '12 at 22:16