I don't see the benefit of recursion here, iteration will work just as well. It's been forever since I've written C (and no easy way to test the following for syntax errors... or *cringe* core dumps, but you get the idea).

```
node *reversed_list(node *list) {
node *fwd=list;//Purely for readability
node *last=null;
node *next=null;
node *rev=null;
do {
//Cache next
next=fwd->next;
//Set current
rev=fwd;
//Reset next to point back
rev->next=last;
//Update last
last=fwd;
//Forward ptr;
fwd=next;
} while (fwd!=null);
return rev;
}
```

Pretty sure your `*list`

is useless after you've called this since it's now pointing to last element of the list which has `->next=null`

, could just update that instead of returning the pointer.

**Update (for recursive solution)**

As others have said, your new tail is messed up (points back at the last element, but should point to null)... and you don't return the correct head, you return the second element. Consider the list `a->b->null`

with your algorithm:

```
p=a,
c=b;
c=
p=b
c=null
return b; //b->null
c=b
c->next=a //b->a
return a; //a->b, b->a, a returned
//But what you wanted is a->null, b->a, and b returned
```

The following updated code will fix:

```
node *reverse_list_recursive(node *list)
{
node *parent = list;
node *current = list->next;
if(current == NULL)
return parent;
else
{
current = reverse_list_recursive(current);
current->next = parent;
parent->next=null; //Fix tail
printf("\n %d %d \n",current->value,parent->value);
return current; //Fix head
}
}
```

With list `a->b->null`

:

```
p=a,
c=b;
c=
p=b
c=null
return b; //b->null
c=b
c->next=a //b->a
p->next=null //a->null
return b; // b->a->null
```

`list == NULL`

? – Steve Townsend Nov 2 '10 at 15:02