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I'm trying to implement RedBlack tree insert method but it does not work as expected. Here's the source code.

Insert method:

void insert( int key ) { root = insert( null, root, key ); root.color = BLACK; }
  private Node insert( Node parent, Node root, int key )
  {

    //STEP 1 : Classic BST insertion
    if ( root == null )
      return ( new Node( parent, key, RED ) );

    boolean isLeft;
    if ( key < root.key )
    {
      root.left = insert( root, root.left, key);
      isLeft = true;
    }
    else
    {
      root.right = insert( root, root.right, key);
      isLeft = false;
    }

    //STEP2: Self balancing the tree.
    if ( isLeft )
    {
      if ( root.color == RED && root.left.color == RED )
      {
        Node sibling = findSibling( root );
        if ( ! isRed( sibling ) )
        {
          if ( isLeftChild( root ) )
          {
            return rightRotate( root, true );
          }
          else
          {
            //recolore( root );
          }
        }
      }
    }
    else
    {
      // mirror case
      // yet to do
    }

    return root;
  }

RightRotate method + other used methods:

 private Node rightRotate( Node newRoot, boolean changeColor )
      {
        Node oldRoot = newRoot.parent;
        oldRoot.left = newRoot.right;
        newRoot.right = oldRoot;
        newRoot.parent = oldRoot.parent;
        oldRoot.parent = newRoot;

        if ( changeColor )
        {
          root.color = BLACK;
          root.parent.color = RED;
        }
        return newRoot;
      }

private Node findSibling( Node root )
  {
    Node parent = root.parent;
    if ( parent.left == root )
      return parent.right;
    return parent.left;
  }

  private boolean isRed( Node root )
  {
    if ( root == null )
      return false;
    return root.color == RED;
  }

  private boolean isLeftChild( Node root )
  {
    if ( root.parent == null )
      return false;

    if ( root.parent.left == root )
      return true;

    return false;
  }

Main + preoder print of the tree:

void preOrder() { preOrder( root ); }
  private void preOrder( Node root )
  {
    if ( root != null )
    {
      System.out.print( " | " + ( root.color ? "RED" : "BLACK" ) + " " + root.key + " |" );
      preOrder( root.left );
      preOrder( root.right );
    }
  }

}

class Main
{
  public static void main( String[] args )
  {
    RedBlackBST tree = new RedBlackBST();
    tree.insert( 3 );
    tree.insert( 2 );
    tree.insert( 1 );

    tree.preOrder();
  }
}

This implementation is not finished yet and should only work for Left Left case ( like in the main method 3,2,1 ) that means I have to make right rotation.

Expected output should be:

| BLACK 2 | | RED 1 | | RED 3 |

instead of this output i get

 | BLACK 3 | | BLACK 2 | | RED 1 | | BLACK 3 | | BLACK 2 | | RED 1 | ... // infinity loop

Could anyone tell me where do I do a mistake? Obviously I do not wan't you to post the whole code but just a suggestion how to fix that and why it does not work.

0

You should first perform a binary search tree insert, and then repair the insert as it could now be imbalanced, There are 4 different cases you should account for when re balancing, the following code shows them. Here is the code in C# (it should be easy to convert it to java ) In the following code T1 is the type of the keys in the tree nodes, and T2 is the type of the values in tree nodes. The implementation is generic.

    public RedBlackTreeNode<T1, T2> Insert(RedBlackTreeNode<T1, T2> root, RedBlackTreeNode<T1, T2> newNode)
            {
                root = Insert_BST(root, newNode); /* is normal bst insert.*/
                Insert_Repair(root, newNode);

                root = newNode;
                while (root.Parent != null)
                {
                    root = root.Parent;
                }
                return root;
            }
 private void Insert_Repair(RedBlackTreeNode<T1, T2> root, RedBlackTreeNode<T1, T2> newNode)
        {   
           if (newNode.Parent == null && newNode.Color == Color.Red) /* Property: the root is black. */
                {
                    newNode.FlipColor();
                }
                else if (newNode.Parent != null && newNode.Parent.Color == Color.Red) /* If this holds it means that both the new node and its parent are red, and in a red-black tree this is not allowed. Children of a red node should be black.*/
                {
                    var uncle = newNode.GetUncle();

                    if (uncle != null && uncle.Color == Color.Red) /* Both the parent and uncle of the new node are red. Note that a null uncle is considered black. */
                    {
                        newNode.Parent.Color = Color.Black;
                        uncle.Color = Color.Black;
                        newNode.GetGrandParent().Color = Color.Red;
                        Insert_Repair(root, newNode.GetGrandParent()); /* Repeat repair on the grandparent, as by the re-coloring the previous layers could have been messed up. */
                    }
                    else if (uncle == null || uncle.Color == Color.Black)
                    {`enter code here`
                        if (newNode.FormsTriangle() && newNode.IsLeftChild())
                        {
                            RotateRight(newNode.Parent);
                            newNode = newNode.RightChild; /* After rotation new node has become the parent of its former parent.*/
                            /* Triangle is transformed to a line.*/
                        }
                        else if (newNode.FormsTriangle() && newNode.IsRightChild())
                        {
                            RotateLeft(newNode.Parent);
                            newNode = newNode.LeftChild; /* After rotation new node has become the parent of its former parent.*/
                            /* Triangle is transformed to a line.*/
                        }

                        /* When reaching at this point, we might or might not have gone through above two triangle forms, as the alignment could have already been a line.*/
                        var grandParent = newNode.GetGrandParent();
                        if (newNode.IsRightChild())
                        {
                            RotateLeft(grandParent);
                        }
                        else if (newNode.IsLeftChild())
                        {
                            RotateRight(grandParent);
                        }
                        newNode.Parent.Color = Color.Black;
                        if (grandParent != null)
                            grandParent.Color = Color.Red;
                    }
                }
           }

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