Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I am looking for a method that reverses the same instance of a given list, with O(1) additional space and O(n) time.
this is not HW nor I am looking for some library method to do the job for me, as this is only an exercise for myself, and out of pure curiousity.

any ideas how to do it with O(1) additional space and O(n) time? (and if possible without reflection as well)?
signature is public <T> void reverse(List<T> list).

(*)assume get() to the head and tail of the list is O(1), but to the middle of it is O(n).

I came up with a recursive solution, but it is O(n) space, O(n) time

public <T> void reverseAux(List<T> list,int size) {
    if (size == 0) return;
    T elem = list.remove(size-1);
public <T> void reverse(List<T> list) {
    reverseAux(list, list.size());

EDIT: I am looking for a java solution, for List<T>, only assumption on implementation is access time O(1) for head and tail, and using List<T> interface.

share|improve this question
Couldn't you simply iterate from 0 to n/2 and swap i and n - i? In a for-loop, not a foreach... – Max May 12 '11 at 22:47
@Max: get() is O(n) for the middle of the list, and swapping requires me to access n-i, and I get O(n^2) – amit May 12 '11 at 22:48
@amit Then indeed I am sorry... Why can't you use a container with constant-time indexing? – Max May 12 '11 at 22:50
You can't just assume it's a Java List<T>; that doesn't let you make those type constraints (e.g., you can't assume that indexing is O(n) or otherwise) or even necessarily modify the list at all. :-) – Donal Fellows May 12 '11 at 23:01
@amit: in that case, I think you should ask the question concerning a singly-linked list, rather than asking the question about the List interface, which I think it's pretty clear is intended to represent "at worst" a doubly-linked list. – Steve Jessop May 12 '11 at 23:30
up vote 12 down vote accepted

Just read one of the following. It is the thing you're talking about.

Please note that we're talking about singly 'linked' lists.





Plus an extra question for you:

How would you find Nth element from the tail of a linked list assuming it is singly linked and you have only head pointer with O(1) space and O(N) time?

share|improve this answer
Plus an extra question for you: How would you find Nth element from the tail of a linked list assuming it is singly linked and you have only head pointer without O(1) space and O(N) time? – ahmet alp balkan May 12 '11 at 22:49
@ahmet: Just do two passes over the list. First find the length, then subtract to get the index and traverse again from the start to find that index. O(2n) = O(n). – hammar May 12 '11 at 22:51
@ahmet, the quicker solution would be: Start with a pointer at the head of the list, traverse N elements, then add a second pointer, and traverse with both pointers (incrementing equally), until the first pointer reaches the end. – davin May 12 '11 at 23:00
@ahmet: I am aware of the solution with Nodes, I was trying to see if maybe I am missing something or indeed, with just using the List interface, what I was trying to do is impossible.. your links was nice reading though. +1 for that. :) – amit May 12 '11 at 23:17
Not true. Number of ->next using ikegami's method: size-N or 2*size-N. Using davin's method: N+2*(size-N) = 2*size-N. ikegami's method is at least as good as davin's method, and much better if the list keeps track of its size. Bonus: ikegami's method should result in fewer cache misses. – ikegami May 12 '11 at 23:20

using ListIterators:

ListIterator<T> head = list.listIterator();
ListIterator<T> tail = list.listIterator(size);//assuming this can be done in O(1) though O(n) doesn't hurt that much and total is still O(n)
    T tmp = head.next();
share|improve this answer
@ratchet: first I thought this is what I was looking for, but I am not sure on a second thought we can assume prviousIndex() is O(1)...:\ – amit May 12 '11 at 23:14
That one cannot be done in O(1). – ahmet alp balkan May 12 '11 at 23:15
previousIndex() is too easy not to do it. but indeed previous can't be done in O(1) on singly linked lists, while there are ways of reversing a singly linked list in O(n) time and O(1) space it's pretty specific (pop from the source and push to dest) to them and array based lists will then run O(n^2) and/or O(n) memory on the same algo depending (shifting the array) or dest preallocating – ratchet freak May 12 '11 at 23:23
You don't need to use previousIndex(). You can keep your own counter. But, the list iterator returned from LinkedList has an O(1) implementation for previousIndex(). – erickson May 12 '11 at 23:24
@amit: I think we can assume that (see my comments below the main question). Java's List interface is under-specified with respect to complexity, but if we can't assume that previous and/or previousIndex are O(1) (because it might be a singly-linked list), then we can't assume that next or nextIndex are either (because it might be a reverse singly-linked list). Reading a bit between the lines of the docs, I think List has to be doubly-, not singly-linked. – Steve Jessop May 12 '11 at 23:26

You already know the length. So just use 1 temporary variable and start at index 0 and go on swapping list[0] and list[length -1], then list[1] and list[length-2], and so on. O(n) time and O(1) space for 1 temporary variable.

EDIT: Just noticed you assume O(n) for accessing the middle of the list. oh well. nevermind.

alternatively, store the next/previous pointers of the two elements you swapped to move towards the middle (assuming it's a doubly linked list). Then you get O(n) time.

share|improve this answer
he's saying list, not the array. – ahmet alp balkan May 12 '11 at 22:50
swapping with list[length-i] for i->n/2 is O(n), so this solution will make it O(n^2) time – amit May 12 '11 at 22:50
Yes, as i mentioned i just noticed you can't access it randomly in constant time. see edit. – Botz3000 May 12 '11 at 22:53
This would work with a doubly linked list and two pointers. O(1) space, O(n) time. – davin May 12 '11 at 22:54
editted the question, I am looking for java implementation for the List < T > interface. – amit May 12 '11 at 23:06

The ListIterator interface is what you're looking for (under the reasonable assumption that the list in question fully supports it; both ArrayList and LinkedList do):

ListIterator<T> fwd = list.listIterator();
ListIterator<T> back = list.listIterator(list.size());
while (fwd.nextIndex() < back.previousIndex()) {
    T tmp = fwd.next();

Even on linked lists, this should be linear in time.

share|improve this answer
you got that from me, it's a near perfect copy of the code ;) – ratchet freak May 12 '11 at 23:13

As discussed, in the general case this is not doable, you need to assume something about the complexity of the individual operations. If you have constant-time next() and previous() for the iterators, use the solution already given. It should work for both LinkedList and ArrayList.

I thought about a solution which would work for a singly-linked list (but not for something like ArrayList), but sadly the ListIterators add method inserts the element before the cursor instead of after it, thus it is not doable with the List + ListIterator interfaces (if we can't patch the ListIterator implementation to cache the pre-insert element to allow a single previous() after add in O(1)).

Here, assuming a simple Node class with next-pointer:

 * reverses a singly linked list.
 * @param first the fist node. This will be the new last node.
 * @param last the last node. This will be the new first node.
void reverseList(Node first, Node last) {
   while(first != last) {
      Node temp = first;
      first = temp.next;
      temp.next = last.next;
      last.next = temp;

In index terms, this would be something like this:

public void reverseList(List<T> list) {
    int index = list.size() -1;
    while(n > 0) {
       T element = list.remove(0);
       list.add(n, element);

In ListIterator terms, this would be something like this:

public void reverseList(List<T> list) {
    ListIterator<T> it = list.listIterator(list.size());
    while(it.previousIndex() > 0) { // we could count ourself here, too
       T element = list.remove(0);

Of course, usual singly linked list implementations will not have a O(1) previous implementation, thus it will not work there, as said before. (And they might throw a ConcurrentModificationException, or return erronous previousIndex.)

share|improve this answer
   public LinkedList Reverse(LinkedList head)
    if (head == null) return null; // first question

    if (head.Next == null) return head; // second question

    // third question
    // so we grab the second element (which will be the last after we reverse it)

    LinkedList secondElem = head.Next;

    // bug fix - need to unlink list from the rest or you will get a cycle
    head.Next = null;

    // then we reverse everything from the second element on
    LinkedList reverseRest = Reverse(secondElem);

    // then we join the two lists
    secondElem.Next = head;

    return reverseRest;
share|improve this answer
This seems to be O(n) space, for the stack trace of the recursive calls, while the questions asks for O(1) space. – amit Feb 14 '13 at 23:05

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.