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I have a method that has a reference to a linked list and a int value. So, this method would count and return how often the value happens in the linked list. So, I decided to make a class,

public class ListNode{ 
 public ListNode (int v, ListNode n) {value = v; next = n;)
 public int value;
 public ListNode next;

Then, the method would start with a

public static int findValue(ListNode x, int valueToCount){
 // so would I do it like this?? I don't know how to find the value, 
 // like do I check it?
  for (int i =0; i< x.length ;i++){
    valueToCount += valueToCount; 

So, I CHANGED this part, If I did this recursively, then I would have

public static int findValue(ListNode x, int valueToCount) {
  if ( != null && x.value == valueToCount {
     return 1 + findValue(x, valueToCount);}  
   return new findvalue(x, valueToCount);

SO, is the recursive part correct now?

share|improve this question
... and your question is 'would this work?'? – akf Oct 10 '09 at 5:54
yes, I was wondering if this can work – Roxy Oct 10 '09 at 5:56
up vote 1 down vote accepted

You need to somehow know where your list ends. Let's assume (as that's the easiest approach) that the last node has next set to null. You would then use this as check when to stop the iteration:

public static int findValue(ListNode x, int valueToCount) {
    ListNode currentNode = x;
    int count = 0;
    while (!=null) {
      if (currentNode.value == valueToCount) {
      currentNode =;
    return count;

The same approach can be used for recursive solution, except it's a bit messier because you'll need to pass your count as parameter to your recursive function call.

share|improve this answer
you could just add another int to your signature, make your while an if and change the; to return findValue(x,valueToCount,count); – akf Oct 10 '09 at 6:04
@Jacky, the example above has the counter in the if/else statement, the comment above gives you clues to adopt a recursive method. – akf Oct 10 '09 at 6:24
Okay, thanks for the hints, this really helped me understand more about it :) – Roxy Oct 10 '09 at 6:30
Whoa! Somebody is not in a good mood today – victor hugo Oct 10 '09 at 6:55

This looks like a bug in your sample code:

return findValue(x, valueToCount +1);

You should be incrementing the count, not the value being searched for. Also don't forget to move to the next node! So this should be:

return 1 + findValue(, valueToCount);
share|improve this answer
Java doesn't have tail-call elimination, so there's little point passing the count as an extra accumulator parameter. – Pete Kirkham Oct 10 '09 at 17:28
Ok, I understand now, but what about the if statement. I think its wrong right? should it be if( == null && x.value != valueToCount) { return 0; } would that be right? – Roxy Oct 11 '09 at 3:04
@Pete, valueToCount is the value being searched for, not an accumulator. – finnw Oct 12 '09 at 11:53
@Jacky, if( == null...) will miss the first node and will not work on the empty list. – finnw Oct 12 '09 at 11:54

To get you started, you will find that if you run your findValue method with a non-null ListNode you will trigger an infinite loop. You will need to move your node to next on each recursion.

share|improve this answer

Little Lisper path:

  1. What is the result of null -- null

  2. What is find result of a normal node --

    if (node.value == aValue)
        return true;

    if found

  3. else try next node recursively

    public boolean find(ListNode<T> n, T value)
      if (n==null)
       return false;
      if (n.element.equals(value))
         return true;
        return find(, value);
share|improve this answer

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