""" Problem Statement: Given a binary perform an postorder traversal using Morris Postorder traversal algorithm. (Iterative version of Postorder traversal of tree) https://www.geeksforgeeks.org/morris-traversal-for-postorder/ """ class TreeNode: """ Class representing a node in a binary tree. Attributes: ----------- value : int The value stored at the node. left : TreeNode Pointer to the left child node (default is None). right : TreeNode Pointer to the right child node (default is None). """ def __init__(self, value: int) -> None: self.value = value self.left: TreeNode | None = None self.right: TreeNode | None = None class BinaryTree: """ Class representing a binary tree. Methods: -------- insert(value: int) -> None: Insert a value into the binary tree following binary search tree (BST) rules. morris_postorder_traversal() -> List[int]: Perform postorder traversal and return list of node values. >>> bt = BinaryTree() >>> bt.insert(9) >>> bt.insert(6) >>> bt.insert(10) >>> bt.insert(3) >>> bt.insert(7) >>> bt.insert(12) >>> bt.insert(2) >>> bt.insert(5) >>> bt.insert(4) >>> bt.morris_postorder_traversal() [2, 4, 5, 3, 7, 6, 12, 10, 9] """ def __init__(self) -> None: self.root: TreeNode | None = None def insert(self, value: int) -> None: """ Insert a value into the binary tree. Parameters: ----------- value : int The value to be inserted into the binary tree. """ if self.root is None: self.root = TreeNode(value) else: self._insert_recursive(self.root, value) def _insert_recursive(self, node: TreeNode, value: int) -> None: """ Helper function to insert a value recursively into the tree. Parameters: ----------- node : TreeNode The current node in the binary tree. value : int The value to be inserted. """ if value < node.value: if node.left is None: node.left = TreeNode(value) else: self._insert_recursive(node.left, value) elif node.right is None: node.right = TreeNode(value) else: self._insert_recursive(node.right, value) def _successor(self, node: TreeNode) -> TreeNode: """ Helper Function to return successor of the given node in a binary tree Parameters: ----------- node : TreeNode A node in the binary tree. Returns: -------- TreeNode: The successor of the node passed in the parameter """ temp_node = node.right while temp_node and temp_node.left and temp_node.left != node: temp_node = temp_node.left assert temp_node is not None, "Successor should not be None" return temp_node def morris_postorder_traversal(self) -> list[int]: """ Function for postorder traversal using morris postorder traversal. Algorithm : ------------ First set current node as root node. while current node is not empty If the current node has no right child. push the current node to temp. point the current node to its left child else. find successor node of the current node. if successor left child points to current node, remove the link of the left child of successor node. point the current node to its left child. else, push the current node to temp. make the current node as the left child of the successor node. point current node to its right child. Reverse the temp array to get postorder traversaol. Returns: -------- List[int]: A list of integers representing the postorder traversal. """ postorder_traversal = [] current_node = self.root while current_node: if current_node.right is None: postorder_traversal.append(current_node.value) current_node = current_node.left else: successor_node = self._successor(current_node) if successor_node.left == current_node: successor_node.left = current_node current_node = current_node.left else: postorder_traversal.append(current_node.value) successor_node.left = current_node current_node = current_node.right return postorder_traversal[::-1] if __name__ == "__main__": import doctest doctest.testmod()