# Java How to find a value in a linked list iteratively and recursively

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;
}
``````

``````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 (x.next != null && x.value == valueToCount {
return 1 + findValue(x, valueToCount);}
else
return new findvalue(x, valueToCount);
``````

SO, is the recursive part correct now?

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... 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

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 (currentNode.next!=null) {
if (currentNode.value == valueToCount) {
count++;
}
currentNode = currentNode.next;
}
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.

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you could just add another `int` to your signature, make your `while` an `if` and change the `currentNode=currentNode.next;` 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(x.next, valueToCount);
``````
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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(x.next == 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(x.next == 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.

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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;
else
return find(n.next, value);
}
``````
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