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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 *head = NULL;
node *second = NULL;
node *third = NULL;
node *fourth = NULL;
node *fifth = NULL;

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

head->data = 1;
head->next = second;

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

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

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

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

return head;    
}
share|improve this question
    
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
1  
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

2 Answers 2

up vote 1 down vote accepted

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;

}
share|improve this answer
    
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.

share|improve this answer
    
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

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