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* Pyupgrade to Python 3.9 * updating DIRECTORY.md Co-authored-by: github-actions <${GITHUB_ACTOR}@users.noreply.github.com>
349 lines
9.5 KiB
Python
349 lines
9.5 KiB
Python
"""
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Implementation of an auto-balanced binary tree!
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For doctests run following command:
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python3 -m doctest -v avl_tree.py
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For testing run:
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python avl_tree.py
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"""
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from __future__ import annotations
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import math
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import random
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from typing import Any
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class my_queue:
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def __init__(self) -> None:
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self.data: list[Any] = []
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self.head: int = 0
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self.tail: int = 0
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def is_empty(self) -> bool:
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return self.head == self.tail
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def push(self, data: Any) -> None:
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self.data.append(data)
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self.tail = self.tail + 1
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def pop(self) -> Any:
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ret = self.data[self.head]
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self.head = self.head + 1
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return ret
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def count(self) -> int:
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return self.tail - self.head
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def print(self) -> None:
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print(self.data)
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print("**************")
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print(self.data[self.head : self.tail])
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class my_node:
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def __init__(self, data: Any) -> None:
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self.data = data
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self.left: my_node | None = None
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self.right: my_node | None = None
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self.height: int = 1
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def get_data(self) -> Any:
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return self.data
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def get_left(self) -> my_node | None:
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return self.left
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def get_right(self) -> my_node | None:
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return self.right
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def get_height(self) -> int:
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return self.height
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def set_data(self, data: Any) -> None:
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self.data = data
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return
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def set_left(self, node: my_node | None) -> None:
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self.left = node
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return
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def set_right(self, node: my_node | None) -> None:
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self.right = node
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return
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def set_height(self, height: int) -> None:
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self.height = height
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return
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def get_height(node: my_node | None) -> int:
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if node is None:
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return 0
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return node.get_height()
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def my_max(a: int, b: int) -> int:
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if a > b:
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return a
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return b
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def right_rotation(node: my_node) -> my_node:
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r"""
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A B
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/ \ / \
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B C Bl A
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/ \ --> / / \
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Bl Br UB Br C
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/
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UB
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UB = unbalanced node
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"""
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print("left rotation node:", node.get_data())
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ret = node.get_left()
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assert ret is not None
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node.set_left(ret.get_right())
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ret.set_right(node)
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h1 = my_max(get_height(node.get_right()), get_height(node.get_left())) + 1
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node.set_height(h1)
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h2 = my_max(get_height(ret.get_right()), get_height(ret.get_left())) + 1
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ret.set_height(h2)
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return ret
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def left_rotation(node: my_node) -> my_node:
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"""
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a mirror symmetry rotation of the left_rotation
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"""
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print("right rotation node:", node.get_data())
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ret = node.get_right()
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assert ret is not None
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node.set_right(ret.get_left())
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ret.set_left(node)
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h1 = my_max(get_height(node.get_right()), get_height(node.get_left())) + 1
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node.set_height(h1)
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h2 = my_max(get_height(ret.get_right()), get_height(ret.get_left())) + 1
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ret.set_height(h2)
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return ret
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def lr_rotation(node: my_node) -> my_node:
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r"""
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A A Br
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/ \ / \ / \
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B C LR Br C RR B A
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/ \ --> / \ --> / / \
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Bl Br B UB Bl UB C
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\ /
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UB Bl
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RR = right_rotation LR = left_rotation
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"""
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left_child = node.get_left()
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assert left_child is not None
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node.set_left(left_rotation(left_child))
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return right_rotation(node)
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def rl_rotation(node: my_node) -> my_node:
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right_child = node.get_right()
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assert right_child is not None
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node.set_right(right_rotation(right_child))
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return left_rotation(node)
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def insert_node(node: my_node | None, data: Any) -> my_node | None:
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if node is None:
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return my_node(data)
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if data < node.get_data():
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node.set_left(insert_node(node.get_left(), data))
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if (
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get_height(node.get_left()) - get_height(node.get_right()) == 2
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): # an unbalance detected
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left_child = node.get_left()
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assert left_child is not None
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if (
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data < left_child.get_data()
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): # new node is the left child of the left child
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node = right_rotation(node)
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else:
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node = lr_rotation(node)
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else:
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node.set_right(insert_node(node.get_right(), data))
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if get_height(node.get_right()) - get_height(node.get_left()) == 2:
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right_child = node.get_right()
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assert right_child is not None
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if data < right_child.get_data():
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node = rl_rotation(node)
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else:
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node = left_rotation(node)
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h1 = my_max(get_height(node.get_right()), get_height(node.get_left())) + 1
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node.set_height(h1)
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return node
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def get_rightMost(root: my_node) -> Any:
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while True:
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right_child = root.get_right()
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if right_child is None:
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break
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root = right_child
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return root.get_data()
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def get_leftMost(root: my_node) -> Any:
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while True:
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left_child = root.get_left()
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if left_child is None:
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break
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root = left_child
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return root.get_data()
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def del_node(root: my_node, data: Any) -> my_node | None:
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left_child = root.get_left()
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right_child = root.get_right()
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if root.get_data() == data:
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if left_child is not None and right_child is not None:
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temp_data = get_leftMost(right_child)
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root.set_data(temp_data)
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root.set_right(del_node(right_child, temp_data))
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elif left_child is not None:
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root = left_child
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elif right_child is not None:
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root = right_child
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else:
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return None
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elif root.get_data() > data:
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if left_child is None:
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print("No such data")
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return root
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else:
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root.set_left(del_node(left_child, data))
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else: # root.get_data() < data
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if right_child is None:
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return root
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else:
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root.set_right(del_node(right_child, data))
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if get_height(right_child) - get_height(left_child) == 2:
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assert right_child is not None
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if get_height(right_child.get_right()) > get_height(right_child.get_left()):
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root = left_rotation(root)
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else:
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root = rl_rotation(root)
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elif get_height(right_child) - get_height(left_child) == -2:
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assert left_child is not None
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if get_height(left_child.get_left()) > get_height(left_child.get_right()):
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root = right_rotation(root)
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else:
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root = lr_rotation(root)
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height = my_max(get_height(root.get_right()), get_height(root.get_left())) + 1
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root.set_height(height)
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return root
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class AVLtree:
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"""
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An AVL tree doctest
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Examples:
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>>> t = AVLtree()
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>>> t.insert(4)
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insert:4
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>>> print(str(t).replace(" \\n","\\n"))
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4
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*************************************
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>>> t.insert(2)
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insert:2
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>>> print(str(t).replace(" \\n","\\n").replace(" \\n","\\n"))
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4
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2 *
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*************************************
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>>> t.insert(3)
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insert:3
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right rotation node: 2
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left rotation node: 4
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>>> print(str(t).replace(" \\n","\\n").replace(" \\n","\\n"))
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3
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2 4
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*************************************
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>>> t.get_height()
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2
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>>> t.del_node(3)
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delete:3
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>>> print(str(t).replace(" \\n","\\n").replace(" \\n","\\n"))
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4
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2 *
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*************************************
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"""
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def __init__(self) -> None:
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self.root: my_node | None = None
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def get_height(self) -> int:
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return get_height(self.root)
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def insert(self, data: Any) -> None:
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print("insert:" + str(data))
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self.root = insert_node(self.root, data)
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def del_node(self, data: Any) -> None:
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print("delete:" + str(data))
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if self.root is None:
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print("Tree is empty!")
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return
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self.root = del_node(self.root, data)
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def __str__(
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self,
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) -> str: # a level traversale, gives a more intuitive look on the tree
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output = ""
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q = my_queue()
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q.push(self.root)
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layer = self.get_height()
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if layer == 0:
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return output
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cnt = 0
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while not q.is_empty():
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node = q.pop()
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space = " " * int(math.pow(2, layer - 1))
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output += space
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if node is None:
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output += "*"
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q.push(None)
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q.push(None)
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else:
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output += str(node.get_data())
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q.push(node.get_left())
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q.push(node.get_right())
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output += space
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cnt = cnt + 1
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for i in range(100):
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if cnt == math.pow(2, i) - 1:
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layer = layer - 1
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if layer == 0:
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output += "\n*************************************"
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return output
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output += "\n"
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break
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output += "\n*************************************"
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return output
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def _test() -> None:
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import doctest
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doctest.testmod()
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if __name__ == "__main__":
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_test()
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t = AVLtree()
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lst = list(range(10))
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random.shuffle(lst)
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for i in lst:
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t.insert(i)
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print(str(t))
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random.shuffle(lst)
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for i in lst:
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t.del_node(i)
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print(str(t))
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