# Swapping nodes in a linked list

I am trying to swap two adjacent nodes in a linked list, and I think I understand the idea of how to do it using a temporary node.

Here is my struct swap function

``````struct part {
char* name;
float price;
int quantity;
struct part *next;
};
typedef struct part partType;

partType *swap_node(partType **item) {

partType *temp;
temp = *item;
*item = (*item)->next;
temp->next = (*item)->next;
(*item)->next = temp;
return *item;
}
``````

I cant think of how to make the previous node in the list point to the new swapped node. Do i need another temp variable? Also, how do I account for the case that the two nodes to be swapped are the first two in the list.

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Please use standard English, including capitals. If this is a homework problem, as it appears that it might be, then please tag it as such. –  thb Apr 2 '12 at 3:29
Is your list doubly linked (i.e. what is partType)? What is 'item'? a pointer to the item that you want to be "second in the pair"? –  John3136 Apr 2 '12 at 3:31
list in singly linked, and item is the pointer to the head node in the list. –  Tristan Pearce Apr 2 '12 at 3:33

From the code, it looks like you want to swap item and item->next.

You also need a separate condition comparing linkPtr to head, and if so, then you need to set head to the new head.

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to clarify with reference to my function what are head and linkptr? i though *item was considered the head pointer. –  Tristan Pearce Apr 2 '12 at 3:47

Right now, you have a function that takes a pointer to a pointer. It currently points to a node (node A), which in turn points to another node (node B). Imagine this scenario:

``````partType a, b, c, d;
a->next = &b;
b->next = &c;
c->next = &d;
d->next = NULL;
``````

Now, you want to swap the order of B and C to have A->C->B->D using your function. Well, you'd do:

``````swap_node(&a->next);
``````

A was pointing to B; now it's pointing to C. As you can see, the "previous" node is already pointing to C, as you expected. In other words, you've already accomplished your goal. Cheers!

Notes: What exactly is happening in your swap function? Let's break it down. First, the parameter you give it is a pointer to a pointer. Those are a bitch to think about because of the wording -- don't let the wording fool you. Just like "rate of change of the rate of change" is a bitch to think about but "acceleration" is much easier. You want to parse it by remembering that the parameter is, first and foremost, a pointer to some data, and your function is going to modify the data that it points to.

So your function gets a pointer to this 'p', which is pointing to a spot in the linked list which (you assume, see PS) points to two nodes (call them X and Y). Diagram:

``````[p] --> X[next] --> Y[next] --> Z[next]
``````

1. Make [p] point to Y: *item = (*item)->next
2. Make X[next] point to Z: temp->next = (*item)->next
3. Make Y[next] point to X: (*item)->next = temp

So, if you now consider my A, B, C, D example, the linked list was:

``````A[next] --> B[next] --> C[next] --> D[next] --> NULL
``````

you can see more clearly what pointer I'm passing. It's the location in memory (read: pointer) where A[next] is stored, which your function needs to do the swapping.

Incidentally, another way to code this would be to do:

``````a->next = swap_node(&a->next);
``````

but don't do that. It's redundant.

PS Have you thought about what happens when you ask to swap the last node in the series? Right now, things explode :P

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what about the case when i want to swap a and b? –  Tristan Pearce Apr 2 '12 at 4:11
To swap a and b, you need to have a concept what the first or "head" of the list is. Most people keep themselves a pointer, like `partType *list_head`, that points to the head of the list. Initially, `list_head = &a;`. Then, to swap A and B, you'd want to call `swap_node(&list_head);`. Now `list_head` will point to B. –  Robert Martin Apr 2 '12 at 4:13

With data this small, you might as well just swap everything but the `next` pointers:

``````partType tmp = *item;
memcpy(item, item->next, offsetof(item, next));
memcpy(item->next, &tmp, offsetof(item, next));
``````

If your data gets too large to do this, you'll need a pointer to the node before the two you want. The nice part is that your fixing of `prev`'s `next` pointer acts as a temp variable, letting you not need one.

``````prev->next = item->next;
item->next = item->next->next;
prev->next->next = item;
``````
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Simple way to swap to node... I am not writing actual code. I am just giving you a hint to swap nodes.

``````[1]->[2]->[3]->[4]
``````

Suppose this is your linked list and you want to swap `[2]` and `[3]`.

1. use loop to reach till `[2]`. so your `temp` is at `[2]`.
2. Now `temp1 = temp->next;` Hence `temp1` is at `[3]`.
3. `temp->next = temp1->next;`

`temp1->next = temp;`

so now `temp->next = [4]` and `temp1->next = [2]`

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Four easy options:

First option: Keep track of the pointer to prev (probably the direction the assignment is expected to take).

Second option: Implement a doubly linked list so that you can always find the previous node.

Third option: Implement a singly linked list (as your assignment probably calls for), but give each node two pointers: One pointing to 'next', and one pointing to the data payload (which could be just about anything; a struct, an array, or a plain old data type). Then you just swap where the payload pointers point without worrying about 'next' and 'prev'.

A fourth option: Swap the data itself (possibly the direction the assignment is expected to take).

There are use cases for each of the above.

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Fifth option: Use a pointer to a pointer instead of just a pointer. Then you could change it without an explicit pointer to prev. (Though you would of course still need a pointer to prev->next.) I probably wouldn't go with this option, but it could be useful to write a generic pointer based swap(a, b) if the data wasn't a pointer. –  Corbin Apr 2 '12 at 3:40
"There is more than one way to do it" (a well known Perl mantra.) –  DavidO Apr 2 '12 at 3:41
Eh, I think other than those five there aren't any reasonable approaches. Just figured the list may as well be complete :) –  Corbin Apr 2 '12 at 3:44