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* binary_tree_traversals.py: Simplify with dataclasses * Update data_structures/binary_tree/binary_tree_traversals.py Co-authored-by: Dhruv Manilawala <dhruvmanila@gmail.com> * Optional["Node"] Co-authored-by: Dhruv Manilawala <dhruvmanila@gmail.com>
155 lines
4.0 KiB
Python
155 lines
4.0 KiB
Python
# https://en.wikipedia.org/wiki/Tree_traversal
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from dataclasses import dataclass
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from typing import Optional
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@dataclass
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class Node:
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data: int
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left: Optional["Node"] = None
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right: Optional["Node"] = None
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def make_tree() -> Node:
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return Node(1, Node(2, Node(4), Node(5)), Node(3))
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def preorder(root: Node):
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"""
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Pre-order traversal visits root node, left subtree, right subtree.
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>>> preorder(make_tree())
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[1, 2, 4, 5, 3]
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"""
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return [root.data] + preorder(root.left) + preorder(root.right) if root else []
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def postorder(root: Node):
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"""
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Post-order traversal visits left subtree, right subtree, root node.
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>>> postorder(make_tree())
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[4, 5, 2, 3, 1]
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"""
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return postorder(root.left) + postorder(root.right) + [root.data] if root else []
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def inorder(root: Node):
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"""
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In-order traversal visits left subtree, root node, right subtree.
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>>> inorder(make_tree())
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[4, 2, 5, 1, 3]
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"""
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return inorder(root.left) + [root.data] + inorder(root.right) if root else []
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def height(root: Node):
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"""
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Recursive function for calculating the height of the binary tree.
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>>> height(None)
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0
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>>> height(make_tree())
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3
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"""
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return (max(height(root.left), height(root.right)) + 1) if root else 0
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def level_order_1(root: Node):
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"""
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Print whole binary tree in Level Order Traverse.
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Level Order traverse: Visit nodes of the tree level-by-level.
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"""
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if not root:
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return
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temp = root
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que = [temp]
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while len(que) > 0:
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print(que[0].data, end=" ")
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temp = que.pop(0)
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if temp.left:
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que.append(temp.left)
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if temp.right:
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que.append(temp.right)
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return que
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def level_order_2(root: Node, level: int):
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"""
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Level-wise traversal: Print all nodes present at the given level of the binary tree
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"""
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if not root:
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return root
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if level == 1:
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print(root.data, end=" ")
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elif level > 1:
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level_order_2(root.left, level - 1)
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level_order_2(root.right, level - 1)
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def print_left_to_right(root: Node, level: int):
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"""
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Print elements on particular level from left to right direction of the binary tree.
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"""
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if not root:
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return
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if level == 1:
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print(root.data, end=" ")
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elif level > 1:
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print_left_to_right(root.left, level - 1)
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print_left_to_right(root.right, level - 1)
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def print_right_to_left(root: Node, level: int):
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"""
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Print elements on particular level from right to left direction of the binary tree.
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"""
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if not root:
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return
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if level == 1:
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print(root.data, end=" ")
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elif level > 1:
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print_right_to_left(root.right, level - 1)
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print_right_to_left(root.left, level - 1)
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def zigzag(root: Node):
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"""
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ZigZag traverse: Print node left to right and right to left, alternatively.
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"""
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flag = 0
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height_tree = height(root)
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for h in range(1, height_tree + 1):
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if flag == 0:
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print_left_to_right(root, h)
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flag = 1
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else:
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print_right_to_left(root, h)
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flag = 0
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def main(): # Main function for testing.
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"""
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Create binary tree.
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"""
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root = make_tree()
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"""
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All Traversals of the binary are as follows:
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"""
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print(f" In-order Traversal is {inorder(root)}")
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print(f" Pre-order Traversal is {preorder(root)}")
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print(f"Post-order Traversal is {postorder(root)}")
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print(f"Height of Tree is {height(root)}")
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print("Complete Level Order Traversal is : ")
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level_order_1(root)
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print("\nLevel-wise order Traversal is : ")
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for h in range(1, height(root) + 1):
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level_order_2(root, h)
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print("\nZigZag order Traversal is : ")
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zigzag(root)
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print()
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if __name__ == "__main__":
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import doctest
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doctest.testmod()
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main()
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