class Node: def __init__(self, key): self.key = key self.left = None self.right = None # Inorder traversal def inorder(root): if root is not None: # Traverse left inorder(root.left) # Traverse root print(str(root.key) + "->", end=' ') # Traverse right inorder(root.right) # Insert a node def insert(node, key): # Return a new node if the tree is empty if node is None: return Node(key) # Traverse to the right place and insert the node if key < node.key: node.left = insert(node.left, key) else: node.right = insert(node.right, key) return node # Find the inorder successor def minValueNode(node): current = node # Find the leftmost leaf while(current.left is not None): current = current.left return current # Deleting a node def deleteNode(root, key): # Return if the tree is empty if root is None: return root # Find the node to be deleted if key < root.key: root.left = deleteNode(root.left, key) elif(key > root.key): root.right = deleteNode(root.right, key) else: # If the node is with only one child or no child if root.left is None: temp = root.right root = None return temp elif root.right is None: temp = root.left root = None return temp # If the node has two children, # place the inorder successor in position of the node to be deleted temp = minValueNode(root.right) root.key = temp.key # Delete the inorder successor root.right = deleteNode(root.right, temp.key) return root root = None root = insert(root, 9) root = insert(root, 3) root = insert(root, 2) root = insert(root, 4) root = insert(root, 7) root = insert(root, 10) root = insert(root, 15) root = insert(root, 5) print("Inorder traversal: ", end=' ') inorder(root) print("\nDelete 10") root = deleteNode(root, 10) print("Inorder traversal: ", end=' ') inorder(root)