# How to convert a list to BSTree recursively?

I tried to convert a List from 3{1{,2{,}},5{4{,},6{,}}} to a Binary Tree like this

``````               3
1       5
2    4  6
``````

I thought it would be easier to use recursion but I get stuck.

``````public void ListToTree (ArrayList al) {
Iterator it = al.iterator();
// n is the Tree's root
BSTnode n = new BSTnode(it.next());
recurse(al,it,n);

}

void recurse (ArrayList al, Iterator it, BSTnode n) {
if(!it.hasNext()) return;
Object element = it.next();
if(element=="{"){
recurse(al,it,n.left());
return;
} else if (element==",") {
recurse(al,it,n.right());
return;
} else if (element =="}") {

}

}
``````

I don't know how to proceed and was wondering if it's the right track. Please give me some hints how to solve it. Moreover, I realize I often get stuck on recursive questions. Is it because I always want to break it down? Should I just think top-down and double-check if it's correct? Thanks in advance !

-

Firstly: are you bound to that terrible list representation? You can easily build a BST based on the BST rules with this code:

``````void insert(Node n, int value) {
if(n == null) {
n = new Node(value);
} else if(value < n.value) {
if(n.left == null) {
n.left = new Node(value);
return;
}
insert(n.left, value);
} else if(value > n.value) {
if(n.right == null) {
n.right = new Node(value);
return;
}
insert(n.right, value);
}
}
``````

You really don't have to pass the iterator. Just use the values from the list. Also it is usually unadvised to use implementation types in method signatures. (i.e. ArrayList -> List).
Another big mistake here is that you don't use == for value comparison, that is for reference comparison. Use equals instead, but you should downcast the Object after an instanceof test e.g.:

``````if( element instanceof String) {
String seperator = (String)element;
if("{".equals(separator))
//do sth...
``````

Btw the thing you are missing from the code is the actual insertion and the backwards navigation.
After you found the right subtree by navigating with the {-s and ,-s, check whether the element is an Integer then set it as a value for the current node. Backwards navigation should be in the } branch by either returning one level from the recusion and some tricks or calling the method on the parent of the actual node.
But I don't suggest you to follow this direction, it is much easier to just use the values from the list and the simple insertion method.

-
Thanks your advice. Originally the question is trying to remember a structure of a tree to a output (I choose it to a List and the singnature is what I present there parent{leftchild{},rightchild{}} That's why I want to get it to scenario. – Audrey Jan 20 '12 at 22:32
Unfortunately I don't really understand you second sentence... So you chose the list and the structure? (You can easily put a binary tree into an array where a[0] is the root and a[2k+1] is the left and a[2k+2] is the right child. k is a positive integer denoting the parent node-s index). So even if you use the {} representation, you still shouldn't pass the iterator. In this case you need an FSM parser. Ask if you need more help. – zeller Jan 21 '12 at 7:32
Yeah you're right. I totally forgot the array representation !! Thanks for your hint. – Audrey Jan 21 '12 at 10:48