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# Binary Tree and Recursion in Java

I have a Node class as follows:

``````public class Node {

private int value;
private Node leftNode;
private Node rightNode;

public Node(Node leftNode, Node rightNode, int value){
this.leftNode = leftNode;
this.rightNode = rightNode;
this.value = value;
}

//Getter and Setter methods for these variables are defined here
}
``````

This Node class is used to create a Binary tree. I am writing a recursive function in JAVA to calculate the average of all the nodes. The code I have written below does not give correct answer. I think this is because the values of the parameters average and nodeCount are passed, and not the references.

``````public double treeAverage(Node node, double average, int nodeCount){

nodeCount ++;
if(node == null) return Double.MAX_VALUE;
if(node.getLeftNode()==null && node.getRightNode()==null){
average = ( average + node.getValue() )/nodeCount;
}

if(node.getLeftNode()!=null){
average = treeAverage(node.getLeftNode(), average, nodeCount);
}
if(node.getRightNode()!=null){
average = treeAverage(node.getRightNode(), average, nodeCount);
}

return average;

}
``````

What would be a correct way to right this recursive function in Java? (in C I can pass the references to those parameters). Please correct me if I am wrong.

-

I'm not a fan of these two parts:

``````if(node == null) return Double.MAX_VALUE;
if(node.getLeftNode()==null && node.getRightNode()==null){
average = ( average + node.getValue() )/nodeCount;
}
``````

For the first statement, why would the average of an empty tree be the highest possible Double? Seems arbitrary. It would be simpler to say it doesn't exist, `Double.NaN`, or even `0.0` - since the tree has zero elements in it.

For the second statement, you have the logic correct in that if both the children are null, you get back its value. However, you're going to be wrecking your average along the way - if you have twelve nodes, and you're on your third, then your average values will be different when you move to your fourth node.

Move `nodeCount` to a higher scope, and don't worry about computing the actual average until you've counted the sum of all nodes from the recursive call. Lastly, pass along the total sum of your nodes as you go along.

-
Thanks for the explanation. Double.NaN makes more sense. However, I am not sure I understood your last paragraph. By a higherscope, do you mean a wrapper function? – rgamber Sep 20 '12 at 5:04
You could use a wrapper function, but I was thinking a bit simpler - class scope variable. – Makoto Sep 20 '12 at 5:05
I would really appreciate if you can put up some sample code. I don't want to get it right anyhow and just make it work. I am trying to understand recursive functions. – rgamber Sep 20 '12 at 5:09
based on your suggestion I have added a solution which works. It'llbe awesome if you can take a peek and let me know if that's what you meant. Thanks! – rgamber Sep 20 '12 at 17:59

I guess you could use a helper method. Something like this (I haven't compiled this code, should be taken as hint)

``````private static long count = 0L;
private static long sum = 0L;

public static int treeAverageHelper(Node node){

if(node == null) return 0;
count ++;
return node.val + treeAverageHelper(node.left) + treeAverageHelper(node.right);
}

public static double treeAvg(Node n){
sum = treeAverageHelper(n);
if (count == 0)
return 0D;
else
return (double)sum/count;
}
``````

The helper, goes through the tree aggregating and counting. And finally you divide the two.

-
The use of static scares me, but the idea and intent is pretty spot-on. – Makoto Sep 20 '12 at 16:32
+1 yeah, I started with typing static methods, and then I thought, oops, I need a variable. And I added. It's definitely a bad idea -- not thread safe. But I wasn't initially planning to solve the problem. It happen to be almost complete solution. Thanks for pointing out. – Nishant Sep 20 '12 at 16:45
This works but I think if I have a different class having these functions, then the values of sum and count would persist between different objects :) so probably not a goood idea? I think @makoto's solution of moving the variables to a higher scope seems pretty good, but even here I have to manually reset these variables before I return the average, so that the values don't persist between calls to the same function made by the same object of this class. (Correct me if I am wrong!) – rgamber Sep 20 '12 at 17:52
well, this is just a hint to point out what the mistake in your perception of the algorithm was. :) The implementation, null checks, resets -- I left to you to sort out. I central idea is bend your mind to think towards splitting the problem into 2 parts: aggregation, and average computation. Which, as your question says, was the hardest part for you. I guess (seeing your answer), I was able to do that. It's up to you to choose the appropriate answer. – Nishant Sep 20 '12 at 18:29
@rgamber "different class having these functions" - you probably meant to say: "different objects having these functions", and in such a case you can remove all the `static` declarations and create a separate instance for each tree and the solution will hold. +1 – alfasin Sep 20 '12 at 20:16

I think there is a problem in average calculation. According to your code, if node have no left child and no right child, you added average + node.getValue() and divide this result by nodeCount.

In fact,

average is total value divided by count.

That means you should get total node value first and divide this by nodeCount.

-

You need to define a class, such as

``````class RecursionValues {
int nodeCount;
double average;
}
``````

... and then in your recursive call you pass an instance of this class and modify its fields.

-
Why would you need to define another class? You have pretty much everything you need to sum the values of this tree with the `Node` object. – Makoto Sep 20 '12 at 5:00
I agree, that seems a little much for just solving this problem.. – rgamber Sep 20 '12 at 5:01
@Makoto actually his suggestion is exactly like yours: a wrapper class (which normally will be called `tree`) which will record every `insert` and thus maintain the `count` and possibly the `sum` of all nodes and thus will make the average calculation very easy. – alfasin Sep 20 '12 at 5:08
@alfasin: I make no reference to any wrapper classes...global variables, wrapper functions? Sure. Classes? Not so much. – Makoto Sep 20 '12 at 5:10
@Makoto you say potatoes I say pota'toes, it's basically the same idea: add another level of abstraction. It doesn't really matter `how` you implement it. – alfasin Sep 20 '12 at 5:13

This is how I was able to get it working. Please let me know if it is not a good way.

``````private double sum = 0;
private int nodeCount = 0;

public double treeAverage(Node node){

if(node == null) return Double.NaN; //Null check

sum = treeSum(node);
double average = (sum/nodeCount);

// before returning, reset the sum and nodeCount, so that same object can use the same function starting with correct/zero values of sum and nodeCount
sum = 0; nodeCount = 0;

return average;

}

public double treeSum(Node node){

nodeCount ++; //update the nodeCount
sum = sum + node.getValue(); //update the sum to include this node

/* If the current node has children, recurse*/
if(node.getLeftNode()!=null){
sum = treeSum(node.getLeftNode());
}
if(node.getRightNode()!=null){
sum = treeSum(node.getRightNode());
}

return sum;

}
``````
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