# Constructing a Binary Tree from its traversals

I'm trying to construct a binary tree (unbalanced), given its traversals. I'm currently doing preorder + inorder but when I figure this out postorder will be no issue at all.

I realize there are some question on the topic already but none of them seemed to answer my question. I've got a recursive method that takes the Preorder and the Inorder of a binary tree to reconstruct it, but is for some reason failing to link the root node with the subsequent children.

Note: I don't want a solution. I've been trying to figure this out for a few hours now and even jotted down the recursion on paper and everything seems fine... so I must be missing something subtle. Here's the code:

``````    public static <T> BinaryNode<T> prePlusIn( T[] pre, T[] in)
{
if(pre.length != in.length)
throw new IllegalArgumentException();

BinaryNode<T> base = new BinaryNode();
base.element = pre[0]; // * Get root from the preorder traversal.
int indexOfRoot = -1 ;

if(pre.length == 0 && in.length == 0)
return null;

if(pre.length == 1 && in.length == 1 && pre[0].equals(in[0]))
return base; // * If both arrays are of size 1, element is a leaf.

for(int i = 0; i < in.length -1; i++){
if(in[i].equals(pre[0])){    // * Get the index of the root
indexOfRoot = i; // in the inorder traversal.
break;
}

}   // * If we cannot, the tree cannot be constructed as the traversals differ.

if (indexOfRoot == -1) throw new IllegalArgumentException();

// * Now, we recursively set the left and right subtrees of
// the above "base" root node to whatever the new preorder
// and inorder traversals end up constructing.

T[] preleft = Arrays.copyOfRange(pre, 1, indexOfRoot + 1);
T[] preright = Arrays.copyOfRange(pre, indexOfRoot + 1, pre.length);
T[] inleft = Arrays.copyOfRange(in, 0, indexOfRoot);
T[] inright = Arrays.copyOfRange(in, indexOfRoot + 1, in.length);

base.left = prePlusIn( preleft, inleft); // * Construct left subtree.
base.right = prePlusIn( preright, inright); // * Construc right subtree.

return base; // * Return fully constructed tree
}
``````

Basically, I construct additional arrays that house the pre- and inorder traversals of the left and right subtree (this seems terribly inefficient but I could not think of a better way with no helpers methods).

Any ideas would be quite appreciated.

Side note: While debugging it seems that the root note never receives the connections to the additional nodes (they remain null). From what I can see though, that should not happen...

EDIT: To clarify, the method is throwing the IllegalArgumentException @ line 21 (`else` branch of the `for` loop, which should only be thrown if the traversals contain different elements.

EDIT2: Figured this out thanks to a helpful post from @Philip (coincidentally, we have the same first name... fun!). However, if anyone happens to have any advice on improving efficiency, I would appreciate the input.

-

this code is very suspicious to me

``````for(int i = 0; i < in.length -1; i++){
if(in[i].equals(base.element)){    // * Get the index of the root
indexOfRoot = i; // in the inorder traversal.
break;
} // * If we cannot, the tree cannot be constructed as the traversals differ.
else throw new IllegalArgumentException();
}
``````

You enter the loop and `i` is set to 0, if `i` is less than `in.length - 1` you evaluate the body of the loop which is an if expresion. At this point one of two things will happen

1. `in[i]` equals `base.element` in which case `indexOfRoot` will be set to 0 and you will break out of the loop
2. You throw an exception

Either way you never actually increment `i`

Try to rework this loop to do what you want, since it definitely isn't doing what you want now. You might try something like

``````int indexOfRoot = -1; //an impossible value
for(int i = 0; i < in.length -1; i++){
if(in[i].equals(base.element)){    // * Get the index of the root
indexOfRoot = i; // in the inorder traversal.
break;
}
}
if(indexOfRoot == -1){//if the root was never set
throw new IllegalArgumentException();
}
``````

although that is still kinda ugly (for one thing, `base.element` never changes, so you might want to use `pre[0]` for clarity). And, by no means am I sure it is fully correct. Still, it is probably closer to what you want

-
D'oh. That was a stupid mistake. Unfortunately it still does not link the root to any nodes, but at least now I have a direction in which to go. Thank you. –  user991710 Nov 15 '11 at 9:58
Thanks, I figured it out. My loop condition was not missing an "less than or equals" instead of just "less than". Thank you for the nudge. –  user991710 Nov 15 '11 at 10:33