# Regarding linked list 3 element [closed]

I am a new bie to the world of data structures and learning it , I have a query with regard to linked list , as in one of the interview it was asked with context to linked list is How to find 3rd element from end in a linked list in one pass , I have no idea for this Please advise.

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## closed as not a real question by Lukas Knuth, bensiu, Pragnani, Hardik Mishra, MikeWMar 18 '13 at 5:38

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@JBNizet could you please show the updated code,Thanks –  Tuntun Dffhf Mar 17 '13 at 11:40
it is llinkedList.size() not linkedList.length() .. –  AmitG Mar 17 '13 at 11:41
@JBNizet is it not linkedList.size()?? don't think there is a length() method for Linked List, or is there? –  Ali Alamiri Mar 17 '13 at 11:41
@JBNizet Please specify the algorithm in simple steps –  Tuntun Dffhf Mar 17 '13 at 11:41

The first node in you list I am assuming is called head.

So set a pointer to head, we'll call it current

``````Node current = head;
``````

Then make another pointer that points three positions ahead

``````Node threeAhead = head.next.next.next;
``````

Then write a loop that first checks to see if threeAhead.next is null, if it is not:

``````threeAhead = threeAhead.next;
curr = curr.next;
``````

When threeAhead.next becomes null, you are three positions from the end with current.

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But that makes almost 3 passes. Not just 1. –  JB Nizet Mar 17 '13 at 11:52
@JBNizet One pass means the first time through the full list. Or, find the third to last element without having knowledge of the number of items in the list. –  BrettD Mar 17 '13 at 11:54
With so few details in the question, it's impossible to give a good answer. If what you're after is performance, not storing the size of the list is counterproductive. –  JB Nizet Mar 17 '13 at 11:56
@BredttD Thanks a lot, Could you please show a small example , let say my linked list is head -> 1 -> 2 -> 3 -> 4 -> 5 -> 6 -> 7 -> 8 then please advise how the above algorithm will work and how many passes would it require.Thanks in advance –  Tuntun Dffhf Mar 17 '13 at 12:04
``````if(node.next.next.next == null)
``````

It's a little dirty, but basically I'd just check whether the node 3 nodes further down the line is null. If it is, you've got the 3rd one from the end. Ofcourse this is without accounting for a list with a size smaller than 3.

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this could lead to nullpointerexceptions if any of the previous nodes.next are null. –  lemil77 Mar 17 '13 at 11:39
If the size of the linkedlist is 3 or above, it won't. Assuming none of the nodes are touched while looping obviously. –  Jeroen Vannevel Mar 17 '13 at 11:40
Of course if we assume that, but I guess.. this will be safer, right? if(node != null && node.next != null && node.next.next != null && node.next.next == null) –  lemil77 Mar 17 '13 at 11:42
`node` refers to the current node. I have stated the assumption that the size of the list will not be smaller than 3. Therefore it is given that the first 3 nodes will have a `next` value different from null. At this point you can start looping: `node.next.next.next` will be safe from NPE because we have previously stated the first 3 nodes will have a `next` value. Each iteration in the loop the `node` value will shift one spot, thus still leaving only one point of failure before moving on. –  Jeroen Vannevel Mar 17 '13 at 11:45
To me, one pass doesn't mean with just one statement. It means that every node should be visited at most once. Your solution visits almost every node three times. But the question is so bad that it's impossible to give a good answer. –  JB Nizet Mar 17 '13 at 11:59

If you know what the length of the list is before you start, use JB Nizet's approach

``````node = first;
for (i = 0; i < length - N_FROM_END; i++) {
node = node.next;
}

result = node.value
``````

If you don't now the length:

``````nodes = new Node[N_FROM_END];
node = first;
for (i = 0; node != null; i++) {
nodes[i % N_FROM_END] = node;
node = node.next;
}
result = nodes[i % N_FROM_END].value
``````

or something like that. (Check the boundary conditions ... and account for the list length being less than `N_FROM_END`.)

Both answers satisfies the "visit nodes at most once" constraint.

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