Your algorithm is about the best possible. Often we can get a bit of speed through simplicity. Instead of drawing pictures and reasoning about pointers, think of popping elements off the head of the input list and using a queue add-to-tail operation to build up the result. In pseudocode, we have

```
set_empty(rtn);
while (head) {
fst = pop(head);
if (head) {
snd = pop(head);
add_at_tail(rtn, snd);
}
add_at_tail(rtn, fst);
}
```

The `if`

is needed only to protect against the case where the input list has odd length. If we're sure the list is even in length, we can skip it.

Now pop is very easy to implement. The add-to-tail operation is easiest if we use a dummy head node. So in C, we have:

```
node *swap(node *head)
{
node dummy[1]; // set_empty(rtn);
node *rtn = dummy;
while (head) {
node *fst = head; // fst = pop(head);
head = head->next;
if (head) {
node *snd = head; // snd = pop(head);
head = head->next;
rtn->next = snd; // add_to_tail(rtn, snd);
rtn = rtn->next;
}
rtn->next = fst; // add_to_tail(rtn, fst);
rtn = rtn->next;
}
rtn->next = NULL; // terminate tail
return dummy->next;
}
```

Now I have not tested this code, but I'm pretty sure it will run fine modulo maybe a typo or two. There are fewer tests than yours (just one per element). Tests are comparatively expensive because they can interfere with pipelining, so mine ought to run just a tad faster. Almost certainly this difference is irrelevant.

However, I think my code rather simpler to understand. Of course that's just one biased opinion, but readability does count during maintenance.

**NB** Now I have done a quick test and it worked on the first try! On the other hand when I tried your code I got a segv at

```
first->next=(third->next==NULL ? third : third->next);
```

Below is the test frame. Do you see anything wrong?

```
typedef struct node_s {
struct node_s *next;
int val;
} node;
// swap goes here
int main(void)
{
node dummy[1];
node *p = dummy;
for (int i = 0; i < 16; i++) {
p->next = malloc(sizeof(node));
p = p->next;
p->next = NULL;
p->val = 'a' + i;
}
p = swap(dummy->next);
while (p) {
printf("%c ", p->val);
p = p->next;
}
printf("\n");
return 0;
}
```