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* Binary search tree using recursion * updating DIRECTORY.md Co-authored-by: github-actions <${GITHUB_ACTOR}@users.noreply.github.com>
614 lines
15 KiB
Python
614 lines
15 KiB
Python
"""
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This is a python3 implementation of binary search tree using recursion
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To run tests:
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python -m unittest binary_search_tree_recursive.py
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To run an example:
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python binary_search_tree_recursive.py
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"""
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import unittest
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class Node:
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def __init__(self, label: int, parent):
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self.label = label
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self.parent = parent
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self.left = None
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self.right = None
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class BinarySearchTree:
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def __init__(self):
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self.root = None
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def empty(self):
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"""
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Empties the tree
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>>> t = BinarySearchTree()
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>>> assert t.root is None
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>>> t.put(8)
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>>> assert t.root is not None
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"""
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self.root = None
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def is_empty(self) -> bool:
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"""
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Checks if the tree is empty
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>>> t = BinarySearchTree()
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>>> t.is_empty()
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True
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>>> t.put(8)
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>>> t.is_empty()
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False
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"""
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return self.root is None
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def put(self, label: int):
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"""
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Put a new node in the tree
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>>> t = BinarySearchTree()
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>>> t.put(8)
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>>> assert t.root.parent is None
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>>> assert t.root.label == 8
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>>> t.put(10)
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>>> assert t.root.right.parent == t.root
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>>> assert t.root.right.label == 10
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>>> t.put(3)
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>>> assert t.root.left.parent == t.root
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>>> assert t.root.left.label == 3
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"""
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self.root = self._put(self.root, label)
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def _put(self, node: Node, label: int, parent: Node = None) -> Node:
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if node is None:
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node = Node(label, parent)
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else:
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if label < node.label:
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node.left = self._put(node.left, label, node)
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elif label > node.label:
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node.right = self._put(node.right, label, node)
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else:
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raise Exception(f"Node with label {label} already exists")
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return node
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def search(self, label: int) -> Node:
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"""
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Searches a node in the tree
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>>> t = BinarySearchTree()
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>>> t.put(8)
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>>> t.put(10)
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>>> node = t.search(8)
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>>> assert node.label == 8
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>>> node = t.search(3)
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Traceback (most recent call last):
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...
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Exception: Node with label 3 does not exist
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"""
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return self._search(self.root, label)
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def _search(self, node: Node, label: int) -> Node:
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if node is None:
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raise Exception(f"Node with label {label} does not exist")
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else:
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if label < node.label:
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node = self._search(node.left, label)
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elif label > node.label:
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node = self._search(node.right, label)
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return node
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def remove(self, label: int):
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"""
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Removes a node in the tree
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>>> t = BinarySearchTree()
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>>> t.put(8)
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>>> t.put(10)
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>>> t.remove(8)
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>>> assert t.root.label == 10
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>>> t.remove(3)
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Traceback (most recent call last):
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...
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Exception: Node with label 3 does not exist
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"""
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node = self.search(label)
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if not node.right and not node.left:
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self._reassign_nodes(node, None)
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elif not node.right and node.left:
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self._reassign_nodes(node, node.left)
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elif node.right and not node.left:
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self._reassign_nodes(node, node.right)
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else:
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lowest_node = self._get_lowest_node(node.right)
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lowest_node.left = node.left
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lowest_node.right = node.right
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node.left.parent = lowest_node
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if node.right:
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node.right.parent = lowest_node
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self._reassign_nodes(node, lowest_node)
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def _reassign_nodes(self, node: Node, new_children: Node):
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if new_children:
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new_children.parent = node.parent
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if node.parent:
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if node.parent.right == node:
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node.parent.right = new_children
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else:
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node.parent.left = new_children
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else:
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self.root = new_children
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def _get_lowest_node(self, node: Node) -> Node:
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if node.left:
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lowest_node = self._get_lowest_node(node.left)
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else:
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lowest_node = node
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self._reassign_nodes(node, node.right)
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return lowest_node
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def exists(self, label: int) -> bool:
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"""
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Checks if a node exists in the tree
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>>> t = BinarySearchTree()
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>>> t.put(8)
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>>> t.put(10)
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>>> t.exists(8)
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True
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>>> t.exists(3)
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False
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"""
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try:
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self.search(label)
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return True
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except Exception:
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return False
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def get_max_label(self) -> int:
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"""
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Gets the max label inserted in the tree
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>>> t = BinarySearchTree()
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>>> t.get_max_label()
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Traceback (most recent call last):
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...
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Exception: Binary search tree is empty
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>>> t.put(8)
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>>> t.put(10)
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>>> t.get_max_label()
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10
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"""
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if self.is_empty():
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raise Exception("Binary search tree is empty")
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node = self.root
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while node.right is not None:
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node = node.right
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return node.label
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def get_min_label(self) -> int:
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"""
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Gets the min label inserted in the tree
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>>> t = BinarySearchTree()
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>>> t.get_min_label()
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Traceback (most recent call last):
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...
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Exception: Binary search tree is empty
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>>> t.put(8)
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>>> t.put(10)
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>>> t.get_min_label()
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8
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"""
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if self.is_empty():
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raise Exception("Binary search tree is empty")
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node = self.root
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while node.left is not None:
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node = node.left
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return node.label
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def inorder_traversal(self) -> list:
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"""
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Return the inorder traversal of the tree
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>>> t = BinarySearchTree()
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>>> [i.label for i in t.inorder_traversal()]
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[]
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>>> t.put(8)
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>>> t.put(10)
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>>> t.put(9)
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>>> [i.label for i in t.inorder_traversal()]
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[8, 9, 10]
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"""
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return self._inorder_traversal(self.root)
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def _inorder_traversal(self, node: Node) -> list:
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if node is not None:
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yield from self._inorder_traversal(node.left)
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yield node
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yield from self._inorder_traversal(node.right)
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def preorder_traversal(self) -> list:
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"""
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Return the preorder traversal of the tree
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>>> t = BinarySearchTree()
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>>> [i.label for i in t.preorder_traversal()]
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[]
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>>> t.put(8)
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>>> t.put(10)
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>>> t.put(9)
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>>> [i.label for i in t.preorder_traversal()]
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[8, 10, 9]
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"""
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return self._preorder_traversal(self.root)
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def _preorder_traversal(self, node: Node) -> list:
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if node is not None:
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yield node
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yield from self._preorder_traversal(node.left)
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yield from self._preorder_traversal(node.right)
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class BinarySearchTreeTest(unittest.TestCase):
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@staticmethod
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def _get_binary_search_tree():
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r"""
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8
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/ \
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3 10
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/ \ \
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1 6 14
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/ \ /
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4 7 13
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\
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5
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"""
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t = BinarySearchTree()
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t.put(8)
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t.put(3)
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t.put(6)
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t.put(1)
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t.put(10)
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t.put(14)
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t.put(13)
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t.put(4)
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t.put(7)
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t.put(5)
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return t
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def test_put(self):
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t = BinarySearchTree()
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assert t.is_empty()
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t.put(8)
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r"""
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8
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"""
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assert t.root.parent is None
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assert t.root.label == 8
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t.put(10)
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r"""
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8
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\
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10
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"""
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assert t.root.right.parent == t.root
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assert t.root.right.label == 10
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t.put(3)
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r"""
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8
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/ \
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3 10
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"""
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assert t.root.left.parent == t.root
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assert t.root.left.label == 3
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t.put(6)
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r"""
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8
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/ \
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3 10
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\
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6
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"""
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assert t.root.left.right.parent == t.root.left
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assert t.root.left.right.label == 6
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t.put(1)
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r"""
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8
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/ \
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3 10
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/ \
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1 6
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"""
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assert t.root.left.left.parent == t.root.left
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assert t.root.left.left.label == 1
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with self.assertRaises(Exception):
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t.put(1)
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def test_search(self):
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t = self._get_binary_search_tree()
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node = t.search(6)
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assert node.label == 6
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node = t.search(13)
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assert node.label == 13
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with self.assertRaises(Exception):
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t.search(2)
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def test_remove(self):
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t = self._get_binary_search_tree()
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t.remove(13)
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r"""
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8
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/ \
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3 10
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/ \ \
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1 6 14
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/ \
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4 7
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\
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5
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"""
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assert t.root.right.right.right is None
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assert t.root.right.right.left is None
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t.remove(7)
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r"""
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8
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/ \
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3 10
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/ \ \
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1 6 14
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/
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4
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\
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5
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"""
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assert t.root.left.right.right is None
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assert t.root.left.right.left.label == 4
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t.remove(6)
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r"""
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8
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/ \
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3 10
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/ \ \
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1 4 14
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\
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5
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"""
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assert t.root.left.left.label == 1
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assert t.root.left.right.label == 4
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assert t.root.left.right.right.label == 5
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assert t.root.left.right.left is None
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assert t.root.left.left.parent == t.root.left
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assert t.root.left.right.parent == t.root.left
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t.remove(3)
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r"""
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8
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/ \
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4 10
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/ \ \
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1 5 14
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"""
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assert t.root.left.label == 4
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assert t.root.left.right.label == 5
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assert t.root.left.left.label == 1
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assert t.root.left.parent == t.root
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assert t.root.left.left.parent == t.root.left
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assert t.root.left.right.parent == t.root.left
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t.remove(4)
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r"""
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8
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/ \
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5 10
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/ \
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1 14
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"""
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assert t.root.left.label == 5
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assert t.root.left.right is None
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assert t.root.left.left.label == 1
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assert t.root.left.parent == t.root
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assert t.root.left.left.parent == t.root.left
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def test_remove_2(self):
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t = self._get_binary_search_tree()
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t.remove(3)
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r"""
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8
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/ \
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4 10
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/ \ \
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1 6 14
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/ \ /
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5 7 13
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"""
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assert t.root.left.label == 4
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assert t.root.left.right.label == 6
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assert t.root.left.left.label == 1
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assert t.root.left.right.right.label == 7
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assert t.root.left.right.left.label == 5
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assert t.root.left.parent == t.root
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assert t.root.left.right.parent == t.root.left
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assert t.root.left.left.parent == t.root.left
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assert t.root.left.right.left.parent == t.root.left.right
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def test_empty(self):
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t = self._get_binary_search_tree()
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t.empty()
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assert t.root is None
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def test_is_empty(self):
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t = self._get_binary_search_tree()
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assert not t.is_empty()
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t.empty()
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assert t.is_empty()
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def test_exists(self):
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t = self._get_binary_search_tree()
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assert t.exists(6)
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assert not t.exists(-1)
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def test_get_max_label(self):
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t = self._get_binary_search_tree()
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assert t.get_max_label() == 14
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t.empty()
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with self.assertRaises(Exception):
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t.get_max_label()
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def test_get_min_label(self):
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t = self._get_binary_search_tree()
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assert t.get_min_label() == 1
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t.empty()
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with self.assertRaises(Exception):
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t.get_min_label()
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def test_inorder_traversal(self):
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t = self._get_binary_search_tree()
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inorder_traversal_nodes = [i.label for i in t.inorder_traversal()]
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assert inorder_traversal_nodes == [1, 3, 4, 5, 6, 7, 8, 10, 13, 14]
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def test_preorder_traversal(self):
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t = self._get_binary_search_tree()
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preorder_traversal_nodes = [i.label for i in t.preorder_traversal()]
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assert preorder_traversal_nodes == [8, 3, 1, 6, 4, 5, 7, 10, 14, 13]
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def binary_search_tree_example():
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r"""
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Example
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8
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/ \
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3 10
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/ \ \
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1 6 14
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/ \ /
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4 7 13
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\
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5
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Example After Deletion
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4
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/ \
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1 7
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\
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5
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"""
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t = BinarySearchTree()
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t.put(8)
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t.put(3)
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t.put(6)
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t.put(1)
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t.put(10)
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t.put(14)
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t.put(13)
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t.put(4)
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t.put(7)
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t.put(5)
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print(
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"""
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8
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/ \\
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3 10
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/ \\ \\
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1 6 14
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/ \\ /
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4 7 13
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\\
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5
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"""
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)
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print("Label 6 exists:", t.exists(6))
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print("Label 13 exists:", t.exists(13))
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print("Label -1 exists:", t.exists(-1))
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print("Label 12 exists:", t.exists(12))
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# Prints all the elements of the list in inorder traversal
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inorder_traversal_nodes = [i.label for i in t.inorder_traversal()]
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print("Inorder traversal:", inorder_traversal_nodes)
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# Prints all the elements of the list in preorder traversal
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preorder_traversal_nodes = [i.label for i in t.preorder_traversal()]
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print("Preorder traversal:", preorder_traversal_nodes)
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print("Max. label:", t.get_max_label())
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print("Min. label:", t.get_min_label())
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# Delete elements
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print("\nDeleting elements 13, 10, 8, 3, 6, 14")
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print(
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"""
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4
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/ \\
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1 7
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\\
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5
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"""
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)
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t.remove(13)
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t.remove(10)
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t.remove(8)
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t.remove(3)
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t.remove(6)
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t.remove(14)
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# Prints all the elements of the list in inorder traversal after delete
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inorder_traversal_nodes = [i.label for i in t.inorder_traversal()]
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print("Inorder traversal after delete:", inorder_traversal_nodes)
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# Prints all the elements of the list in preorder traversal after delete
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preorder_traversal_nodes = [i.label for i in t.preorder_traversal()]
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print("Preorder traversal after delete:", preorder_traversal_nodes)
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print("Max. label:", t.get_max_label())
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print("Min. label:", t.get_min_label())
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if __name__ == "__main__":
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binary_search_tree_example()
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