# Find the diameter of a binary tree

I am trying to find the diameter of a binary tree (Path length between any two nodes in the tree containing maximum number of nodes.) in java.

my code snippet:

``````public int diametre(Node node, int d)
{
if(node==null)
return 0;

lh=diametre(node.left, d);
rh=diametre(node.right, d);

if(lh+rh+1>d)
d=lh+rh+1;

return findMax(lh, rh)+1;
}
``````

In main method:

`````` System.out.println( bst.diametre(root,0) );
``````

Logic: Its actually post-order logic. variable 'd' refers to the diameter of the sub-tree (In that iteration.). It will be updated as and when some larger value found. 'lh' refers to : Left sub tree's height. 'rh' refers to : right sub tree's height.

But its giving wrong output.

Tree considered:

``````   5
/ \
/   \
1     8
\    /\
\  /  \
3  6   9
``````

Idle output: 5

But this code is giving 3.

Can some one figure out where the problem is...

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You should do some debugging to find where your code's behaviour success from what you expect. – Oliver Charlesworth Feb 19 '13 at 9:27
First, think of the algorithm. In your code, it's not clear what d stands for. Note that the assignment to it has no effect since it isn't used later. – Eyal Schneider Feb 19 '13 at 9:40
Its actually post-order logic. and d refers to the diameter of the sub-tree (In that iteration.). It will be updated as and when some larger value found. – loknath Feb 19 '13 at 10:42
@loknath: But the update won't be noticed anywhere. Java passes parameters by value, always. – Eyal Schneider Feb 19 '13 at 11:07
if u use an class instance variable, it should be fine. also you should print out d instead the return value – Pan Nov 11 '13 at 0:58

## 5 Answers

``````public int diameter (Node root)
{
if (root == null) return 0;
else return Math.max (
diameter (root.left),
Math.max (
diameter (root.right),
height (root.left) + height (root.right) + 1));
}

public int height (Node root)
{
if (root == null) return 0;
else return 1 + Math.max (height (root.left), height (root.right));
}
``````
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The last line should say root.left instead of root.length. – Tony Wickham Sep 22 '13 at 6:56
I think the runtime of this is O(n*log(n)), since you need to go through each node, recursively for diameter and for each find the height (log(n)). You should retrieve the height while you are in the node and computing the diameter – Ajk_P Sep 29 '14 at 19:29

You find a diameter of a tree by running a BFS from any node and then another BFS from the furthest node(the node last visited during the first BFS). The diameter is formed by the node last visited in the first BFS and the node last visited in the first BFS. The fact that the tree is binary does not affect the algorithm.

EDIT: changing the value of `d` in the code you have written will not affect the argument you pass as primitive types are not passed by reference in java.

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I see your point. If this code is in C++ it would have been worked right.(if we pass variable d by reference). – loknath Feb 19 '13 at 10:17
What is the running time of this? I assume it O(n) where n = # of nodes? – Henley Chiu Jul 30 '13 at 2:53
@HenleyChiu it is linear - you run two BFS and each of them is linear with respect to the number of edges(which is in the order of number of nodes for a tree) – Ivaylo Strandjev Jul 30 '13 at 5:43

I suggest the following:

``````public static TreeAttr calcTreeDiameter(Node root) {
if (root == null)
return new TreeAttr(0, 0);

TreeAttr leftAttr = calcTreeDiameter(root.getLeft());
TreeAttr rightAttr = calcTreeDiameter(root.getRight());

int maxDepth = Math.max(leftAttr.depth, rightAttr.depth);
int maxDiam = Math.max(leftAttr.diameter, rightAttr.diameter);
maxDiam = Math.max(maxDiam, leftAttr.depth + rightAttr.depth + 1);

return new TreeAttr(maxDiam, maxDepth + 1);
}
``````

The TreeAttr is a simple structure containing the diameter and depth of a subtree. Both should be passed in the recursion, since the optimum may either come from one of the subtrees, or from the concatenation of the longest paths.

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Now I see that my solution is equivalent to Mikhail Vladimirov's solution. – Eyal Schneider Feb 19 '13 at 10:06
yeah...Its equivalent and Mikhail's one is straight forward. – loknath Feb 19 '13 at 10:31
``````int max=0;
public int diameter(Tree root) {
if(root==null) return 0;
int l=diameter(root.left);
int r=diameter(root.right);
max=Math.max(max,l+r+1);
return l>r:l+1:r+1;
}
``````

max is the max diameter.

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This solution has problems. For example, it returns an incorrect result(2) for a root with two leaf children. Also, note that max variable isn't used. – Eyal Schneider Nov 11 '13 at 13:24
@EyalSchneider the final result should return max as the max diameter not the returned value for this func – Pan Nov 13 '13 at 4:12
I see. So you actually have a depth function with a side effect stored in max. I would change the function name... – Eyal Schneider Nov 13 '13 at 6:59

Algo takes O(n). Calculates height and path at the same time.

``````public static int findLongestPath(TreeNode root)
{
// longest path = max (h1 + h2 + 2, longestpath(left), longestpath(right);

int[] treeInfo = longestPathHelper(root);

return treeInfo[0];
}

private static int[] longestPathHelper(TreeNode root)
{
int[] retVal = new int[2];

if (root == null)
{
//height and longest path are 0
retVal[0] = 0;
retVal[1] = 0;
}

int[] leftInfo = longestPathHelper(root.getLeft());
int[] rightInfo = longestPathHelper(root.getRight());

retVal[0] = Math.max(leftInfo[1] + rightInfo[1] + 2, Math.max(leftInfo[0], rightInfo[0]));
retVal[1] = Math.max(leftInfo[1], rightInfo[1]) + 1;

return retVal;
}
``````
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