Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise
 Node reverse(Node head) {
    Node previous = null;
    Node current = head;
    Node forward;

    while (current != null) {
        forward =; = previous;
        previous = current;
        current = forward;

    return previous;

How exactly is it reversing the list? I get that it first sets the second node to forward. Then it says is equal to a null node previous. Then it says previous is now current. Lastly current becomes forward?

I can't seem to grasp this and how its reversing. Can someone please explain how this works?

share|improve this question
This is python? – Ben Jan 31 '12 at 9:08
from __future__ import braces ? – Johnsyweb Jan 31 '12 at 9:11
my fault..fixed to java! – user1176235 Jan 31 '12 at 9:12
This code is Jathon – doNotCheckMyBlog Jan 31 '12 at 9:14
I would draw up a little 3-node linked list on a piece of paper, and just go through the algorithm step by step, see what happens. You could do the same thing in a debugger, but doing it on paper will force you to really think about how each piece of state is changing. – yshavit Jan 31 '12 at 9:15

enter image description here

share|improve this answer
+1 for the effort ! – Flash Feb 6 '12 at 14:19

The code simply walks the list and inverts the links until it reaches the previous tail, which it returns as the new head.


Node 1 (Head) -> Node 2 -> Node 3 -> Node 4 (Tail) -> null


   null <- Node 1 (Tail) <- Node 2 <- Node 3 <- Node 4 (Head)
share|improve this answer
I think he wanted to understand the "code". The meaning of "reverse" is quite obvious, the "code" isn't. – TheIndependentAquarius Jan 31 '12 at 10:47
@Anisha Kaul: Did you actually read my first sentence? – Michael Borgwardt Jan 31 '12 at 12:49
"The code" - Which code? – Martin Konicek Jul 15 '12 at 15:07

You reverse the list iteratively and always have the list in the interval [head, previous] correctly reversed(so current is the first node that has its link not set correctly). On each step you do the following:

  • You remember the next node of current so that you can continue from it
  • You set the link of current to be pointing to previous, which is the correct direction if you think about it
  • You change previous to be current, because now current also has its link set correctly
  • You change the first node that does not hae its link set correctly to be the one remebered in the first step

If you do that for all the nodes you can prove(with induction for instance). That the list will be correctly reversed.

share|improve this answer
public Node getLastNode( )
    if( next != null )
        return next.getLastNode( );
        return this;

public Node reverse( Node source )
    Node reversed = source.getLastNode( );
    Node cursor = source;

    while( cursor != reversed )
        reversed.addNodeAfter( cursor.getInfo( ) );
        cursor = cursor.getNodeAfter( );

    source = reversed;
    return source;
share|improve this answer

I call it "cherry picking". The idea is to minimize the number of swaps. Swapping happens between a near and far index. Its a 2-Pass algorithm.

    (Odd length)  A -> B -> C -> D -> E
    (Even length) A -> B -> C -> D

    Pre-Condition: N >= 2

    Pass 1: Count N, the number of elements

    Pass 2: 
            for(j=0 -> j<= (N/2 -1))
              swap(j, (N-1)-j)

Example 1:

   For above Odd length list, N = 5 and there will be two swaps 

      when j=0, swap(0, 4) //post swap state: E B C D A
      when j=1, swap(1, 3) //post swap state: E D C B A

   The mid point for odd length lists remains intact.

Example 2:

   For above Even length list, N = 4 and there will be two swaps 

      when j=0, swap(0, 3) //post swap state: D B C A
      when j=1, swap(1, 2) //post swap state: D C B A
  • Swapping applies to data only, not to pointers, there might be any sanity checks missed, but you got the idea.
share|improve this answer
Nice. However, one precondition is we need to know the length of the linked list. – Nishant Oct 19 '13 at 2:27
Yes, that's why its 2-pass. But the no of swaps required in 2nd pass is always <= N/2 .. So the complexity is still O ( N + N /2 ) or linear. – NitinS Nov 18 '13 at 15:09

Reversing a singly linked list using iteration

current = head //point current pointer to head of the linked list

while(current != NULL)
forward = current->link; //point to the next node
fforward = forward->link; //point the next node to next node
fforward->link = forward;//1->2->3,,,,,,,,,this will point node 3 to node 2
forward->link = current; //this will point node 2 to node 1
if(current == head)
current->link = NULL;// if current pointer is head pointer it should point to NULL while reversing

current = current->link; //traversing the list
head = current; //make current pointer the head pointer
share|improve this answer
  list_t *reverse(list_t *a)
    list_t *progress = NULL;
      list_t *b; //b is only a temporary variable (don't bother focusing on it)
      b = a->next;
      a->next = progress; //because a->next is assigned to another value, we must first save a->next to a different variable (to be able to use it later)
      progress = a; //progress is initially NULL (so a->next = NULL (because it is the new last element in the list))
      a = b; //we set a to b (the value we saved earlier, what a->next was before it became NULL)
        now, at next iteration, progress will equal a, and a will equal b.
        so, when I assign a->next = progress, I really say, b->next = a.
        and so what we get is: b->a->NULL.
        Maybe that gives you an idea of the picture?
        What is important here is:
          progress = a
          a = b
        Because that determines what a->next will equal:
        a's next is set to 0
        b's next is set to a
        c's next is set to b
    return progress;
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.