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i'm studying a Binary Search Tree. I use method inOrder kind of traversals but in main method i get an error. The question is why? What do i miss? Thank you

inOrder(S11.Tree<java.lang.Integer>.Node<java.lang.Integer>) in Tree cannot be applied to(S11.Node<java.lang.Integer>)

public class Tree<T extends Comparable<T>> {
    private Node<T> root;


    public void add(T data) {
        root = doInsert(root, data);
    }

    public Node<T> doInsert(Node<T> root, T data) {
        if (root == null) {
            return new Node<T>(data);
        } else if (data.compareTo(root.data) > 0) {
            root.right = doInsert(root.right, data);
        } else if (data.compareTo(root.data) < 0) {
            root.left = doInsert(root.left, data);
        }
        return root;
    }

    public void inOrder(Node<T> root) {
        if (root != null) {
            inOrder(root.left);
            System.out.print(root.data + " ");
            inOrder(root.right);
        }
    }

    class Node<T> {
        Node<T> left;
        Node<T> right;
        T data;

        public Node(T data) {
            this.data = data;

        }
    }
}
  public static void main(String[] args) {
        Tree<Integer> tree = new Tree<Integer>();
        Node<Integer> root1 = new Node<>(8);
        tree.add(3);
        tree.add(10);
        tree.add(1);
        tree.add(6);
        tree.add(14);
        tree.add(4);
        tree.add(7);
        tree.add(13);
        tree.add(18);

        tree.inOrder(**root1)**;//here I get an error
    }
}

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  • 1
    It looks like you have two different Node classes. Make sure you import the correct one in the file with main(). Commented Nov 19, 2020 at 16:51

1 Answer 1

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You have a design problem here as well as incorrect implementation of add(T data) method.

public final class Tree<T extends Comparable<T>> {

    private Node<T> root;
    private int size;

    public void add(T val) {
        Node<T> node = new Node<>(val);

        if (root == null)
            root = node;
        else
            add(root, node);

        size++;
    }

    private void add(Node<T> parent, Node<T> node) {
        if (node.val.compareTo(parent.val) < 0) {
            if (parent.left == null)
                parent.left = node;
            else
                add(parent.left, node);
        } else if (parent.right == null)
            parent.right = node;
        else
            add(parent.right, node);
    }

    public List<T> inOrder() {
        return size == 0 ? Collections.emptyList() : Collections.unmodifiableList(inOrder(root, new ArrayList<>(size)));
    }

    private static <T> List<T> inOrder(Node<T> node, List<T> res) {
        while (true) {
            if (node == null)
                return res;

            inOrder(node.left, res);
            res.add(node.val);
            node = node.right;
        }
    }
   
    // This is an internal implementation of Tree and should be hidden
    // Node should not be linked with Tree instance
    private static final class Node<T> {

        private final T val;
        private Node<T> left;
        private Node<T> right;

        public Node(T val) {
            this.val = val;
        }
    }
}

Output:

Tree<Integer> tree = new Tree<>();
tree.add(8);
tree.add(3);
tree.add(10);
tree.add(1);
tree.add(6);
tree.add(14);
tree.add(4);
tree.add(7);
tree.add(13);
tree.add(18);

System.out.println(tree.inOrder()); // [1, 3, 4, 6, 7, 8, 10, 13, 14, 18]
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  • thanks ! with add and Node i understand. But why you did the change in inOrder function? I found it a book but it dosn't work now =\
    – Amo Ra
    Commented Nov 20, 2020 at 12:30

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