Method that returns BinaryTree according to preorder traversal

The problem I have is to write a method with the signature

``````public static BinaryTree generate(BinaryTree root)
``````

(it's possible to add other parameters)

This method has to return a `BinaryTree` like given as parameter (same size and so on), it is needed only to change values in its nodes. Each node of the resulting tree has to have a value equal to the position the equivalent node was processed when we use preorder traversal on `root`. We start counting with 1.

``````public class BinaryTree {
public int value;
public BinaryTree left;
public BinaryTree right;

public BinaryTree(int value, BinaryTree left, BinaryTree right)
{
this.value = value;
this.left = left;
this.right = right;
}
}
``````

I tried the below, but it doesn't work correctly.

``````public static BinaryTree preOrder(BinaryTree root, int num)
{
//We ALWAYS give 1 as num value!!
if (root == null)
return null;

root.value = num;
preOrder(root.left, ++num);
preOrder(root.right, ++num);

return root;
}
``````

For example, if we have a BinaryTree:

``````             3
/      \
2           1
/     \
1         0
``````

(It doesn't matter what values there are in the nodes!)

Our method has to return this tree:

``````             1
/      \
2           5
/     \
3         4
``````
-

For the example tree does your code return something like this:

``````      1
/   \
2     3
/  \
3    4
``````

If so you're on the right track and probably understand using recursion to visit nodes in pre-order but you may have forgotten that int is a value type! I think... my java is rusty. Anyway if you can pass the int by reference and the problem is what I think it is you should be good. From a quick google search it looks like easy ways to make a "mutable int" is to wrap it in a single cell like Ted Hopp suggested (int[1]) or you can use MutableInt (full path in answer: Java : Best way to pass int by reference).

-

It's easiest to do this with a recursive method. To assign node values, it is easiest to use a static counter that is accessible at all levels of recursion. The procedure is simple: every time you visit a node in the input tree, create a corresponding node in the output tree with a value set to the static counter, and then increment the counter before recursing on the left and right subtrees (if present).

By using a static variable instead of passing an `int` an argument (like you have in your current code), the increments done at deeper levels of recursion will be seen when the recursion returns.

If you don't want to use a static counter (or if it's against the rules), use an `int[1]` array that can be used to return as well as pass an `int` value.

If this is not clear, I can try elaborating more, but I'm not posting code because this sounds like a school assignment.

EDIT Since it's not a school assignment, here's code that does what you want:

``````public class BinaryTree {
public int value;
public BinaryTree left;
public BinaryTree right;

public BinaryTree(int value, BinaryTree left, BinaryTree right)
{
this.value = value;
this.left = left;
this.right = right;
}

public static BinaryTree generate(BinaryTree root) {
// allocate a counter and delegate to the recursive method
int[] counter = {1};
return generate(root, counter);
}

/**
* Recursive method to generate a copy of a binary tree
* with values indicating the preorder traversal order.
*
* @param root
*        the root of the tree to copy
* @param counter
*        an array containing the traversal order counter as its
*        first element. On entry, it should contain the value to
*        use for the root of the generated (sub)tree. On return,
*        it will contain one more than the last value used.
*/
private static BinaryTree generate(BinaryTree root, int[] counter) {
// recursion base case
if (root == null) {
return null;
}

// capture current value and increment the counter
int value = counter[0];
++counter[0];

// generate left subtree - this will change the counter unless
// the left subtree is null
BinaryTree left = generate(root.left, counter);

// generate right subtree - may change the counter
BinaryTree right = generate(root.right, counter);

// Complete the copy by generating the root node;
// return the result
return new BinaryTree(value, left, right);
}
}
``````
-
Thank you for answer. Its not really a school assignment, I just want to solve this problem by my own but probably Im not smart enough. Can you explain me please what is static counter? And what does it mean int[1] array that can be used to return? – OxomHuK Jul 30 '13 at 3:35
Ouu, Ive fixed it by using that trick with int[1]. Thank you!!!! guys – OxomHuK Jul 30 '13 at 3:44
@OxomHuK - I added my version of the code. – Ted Hopp Jul 30 '13 at 3:50
yes, my code is mostly the same. thanks – OxomHuK Jul 30 '13 at 3:59