# Binary tree: method remove subtree

I had an unordered Binary tree and I had to do a method that remove the subtree of root x. If the element x is present several times in the binary tree, the method remove only one of the subtree of root x (the first it finds). If the deletion was performed, returns true. If the element x is not present in the binary tree, returns false. So the method is:

``````    public class BinaryTree
{
protected class Node
{
Integer element;
Node left;
Node right;

Node(int element)
{
this.element = element;
left = right = null;
}

Node(int element, Node left, Node right)
{
this.element = element;
this.left = left;
this.right = right;
}

protected Node root;

public BinaryTree()
{
root = null;
}

private class BoolNode
{
boolean ft;
Node nodo;

BoolNode(boolean ft, Node nodo)
{
this.ft = ft;
this.nodo = nodo;
}
}

public boolean removeSubtree(int x)
{
BoolNode ris = removeSubtree(x, root);
//root = ...;
return ris.ft;
}

private BoolNode removeSubtree(int x, Node node)
{
return null;
}
}
``````

I do not know how to start, does anyone have any idea? Even pseudocode.. Thanks!

-
– Colin D Oct 31 '12 at 18:04

Should go something like this....

• find node N that contains value X
• if N is a leaf, remove the leaf
• if N is a parent,

`````` removeNodes(N.left);
removeNodes(N.right);
remove(N);
``````
• repeat until you hit a leaf

`````` private void removeNodes(Node base);  //prepare for this when the teacher asks you why it's private
// - because you do not want to expose this functionality outside of the class;
// the only 'interface' exposed is the wrapper call removeSubtree(...) as the user shouldn't worry about the internal functionality.
``````

removeSubtree() is a wrapper around the recursive removeNodes();

EDIT: ok so to clarify your mistery. Presume we have this tree

``````             1 --- this is root
/ \
3   7
/ \ / \
(a) 5  4 3  2  //these branches don't matter right now
/ \
5   6
/ \  / \
5  4 3   2
``````

Now, presume you call removeSubtree(5, root);

It will traverse the tree until it hits node (a) - the first 5 on the left. The way your current code is written you will do this: it will find the node with value X (5); then for all his left and right subchildren it will look for value 5.

Lets focus on this

``````             1 --- this is root
/ \
3   7
\ / \
4 3  2
``````

This is what you should get after calling removeSubtree(5, root); In other words, look at the subtree that is supposed to be deleted after finding the first node with value 5 and deleting it's children

``````         5  -- we should delete all of these starting from here
/ \
5   6
/ \  / \
5  4 3   2
``````

But your code will subsequently look for values 5 to delete in that subtree. That is why you need a general-purpose deleteSubtree() routine which will traverse the tree and delete everything it finds. Your removeSubtree(int, node) routine must rely on it or 'inline' it by implementing that mechanism itself.

Right now your code will only delete this

``````             1 --- this is root
/ \
3   7
/ \ / \
(a) 5  4 3  2  //these branches don't matter right now
/ \
(b)  5   6
/ \  / \
(c)  5  4 3   2
``````

In other words, it will land on node A (first 5), and instead of deleting everything below node (a), it will search for another value 5 below A, find (b) and try to delete it's subtree, matching only node (c).

The end result will be this - your code will delete only the three fives and leave you with this

``````             1 --- this is root
/ \
3   7
/ \ / \
x  4 3  2
/ \
x   6
/ \  / \
x  4 3   2
``````

Do you now realize why you cannot use the same function recursively? :) at least not in the way you want it right now. However, you can try this -

`````` removeSubtree(node.left.value, node);
removeSubtree(node.right.value, node);
removeNode(node);
``````

This will effectivelly find the right subtree - node (a), and then call itself to match it's children - nodes 5 and 6 (at depth of node (b)) and thus delete them. In any case, you cannot re-use value X in these calls like you used to do with

`````` removeSubtree(x, node.left);
removeSubtree(x, node.right);
removeNode(node);
``````

I hope that clarified something :) heh maybe i should teach this :D

-
Worth mentioning that you're implying recursion (not everyone know their traversals). – keyser Oct 31 '12 at 18:04
I was editing as you mentioned it :) – Shark Oct 31 '12 at 18:05
+1. one comment however: removeNodes() should not be public. – Colin D Oct 31 '12 at 18:07
@ColinD I know this is homework and I know that students have a hard time explaining why something is public and why something is private. So i left him a comment which i hope will be cut-out of the production version. – Shark Oct 31 '12 at 18:15
``````public boolean removeSubtree(int x)
{
/*BoolNode ris = removeSubtree(x, root);
//root = ...;
return ris.ft;*/
}

private BoolNode removeSubtree(int x, Node node)
{
if(node.element == x && node.isLeaf())
node = null;
else if(node.element == x && !node.isLeaf())
{
removeSubTree(x, node.left);
removeSubTree(x, node.right);
node = null;
//return null;
}
}
``````

You mean like this? And what I return? I think I don't understand what you mean. Could you explain that again? Sorry..

-
Have you tried this? Return whatever you wish to return, say - number of returned items. Or keep it 'void' until you're sure it works and add a return type later :) – Shark Nov 1 '12 at 17:00
Also, this will not return proper results - as you see, once you find the node that contains the value you want to start removing from - you call the routine that will subsequently look for another matching node to start removing from instead of removing all of them starting with X. So you need another "removeNodes()" function that will simply traverse the tree given a random root and delete all children of that given node. Calling this method on the root of the tree is equivallent to deleting the whole tree; calling it on a node is equivallent to deleting a subtree. – Shark Nov 1 '12 at 17:04
removeSubtree(int, node) is just a wrapper around the real removeSubtree(node) method - the first one will find a suitable node (root) to start deleting from; the second one will silently do the dirty work on his children :) – Shark Nov 1 '12 at 17:06
Ok but i can't create another method.. – user1786048 Nov 1 '12 at 17:28
so instead of calling removeSubtree(x, node.left) you will "inline" that method in a while-loop and clear it out like that. You will not be able to use method recursively... or maybe removeNodes(node.left.value, node.left); removeNodes(node.right.value, node.right); :) – Shark Nov 1 '12 at 17:44

I've rewritten this method. Now I think it is more correct but I think there is a problem in the instruction node.left = null (same as for the case of right). In fact, when I go to run this method does not work correctly, if I have a tree made so `http://i.stack.imgur.com/LTG7x.jpg` and I pass x = 8, it returns this tree `http://i.stack.imgur.com/wSVER.jpg`

-
``````    private BoolNode removeSubtree(Node node, int x)
{
if(node == null)
return new BoolNode(false, null);
if(node.element == x)
return new BoolNode(true, null);
BoolNode result = removeSubtree(node.left, x);
if(result.fatto)
node.left = null;
else {
result = removeSubtree(node.right, x);
node.right = null;
}
return new BoolNode(result.fatto, node);
}
``````
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