# Trying to understand how list gets modified while iteratively reversing a linked list

I have the following code which iteratively reverses a linked list.

`````` struct list {
int elem;
list *next;
};
/* .... */

void ReverseListIterative(list **listref)
{

list *currNode = *listref;
list *prevNode = NULL;
list *nextNode = NULL;

while(currNode) {
*listref = currNode;
nextNode = currNode->next;
currNode->next = prevNode;
prevNode = currNode;
currNode = nextNode;
}
}
``````

In the code, currNode,prevNode and nextNode are all pointers local to ReverseListIterative(). How come the original list still gets modified (gets reversed, to be more precise) ? Should'nt we be using

`````` list **currNode;
list **prevNode;
list **nextNode;
``````

so that actual addresses of the list nodes get modified ?

-

No we shouldn't.

You don't want to change the addresses of the nodes in memory (which means changing their location), but rather how they are pointing to each other, i.e: to which node does each node point, and this is done by changing the `next` which happens in these lines:

``````nextNode = currNode->next;
currNode->next = prevNode;
``````

If we use `list **currNode`, I should be saying:

``````*nextNode = currNode->next;
*currNode->next = prevNode;
``````

But what did that benefit me?

We're only changing how the nodes are connected to each other, and the connections are `next` in each node, so only the values of them should be changed.

Hope that's clarifying enough :)

-
I figured out the same thing once I asked the question. We can change information within a node, which includes what address the pointer variable next contains. – curryage Dec 2 '11 at 21:57