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binary_tree.py
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binary_tree.py
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""" Binary Tree in Python """
class Node:
"""
Node class store the data and the pointers to the next nodes (left/right).
"""
def __init__(self, data):
self.right = self.left = None
self.data = data
class BinaryTree:
"""
Binary tree class provides some methods to insert, remove and print data.
"""
def __init__(self):
self.root = None
def insert(self, data):
new_node = Node(data)
if self.root is None:
self.root = new_node
else:
node = self.root
while node is not None:
if data <= node.data:
if node.left is None:
node.left = new_node
break
node = node.left
else:
if node.right is None:
node.right = new_node
break
node = node.right
def recursive_search(self, node, data):
if node is None:
return
if node.data == data:
return node
if data > node.data:
self.recursive_search(node.right, data)
else:
self.recursive_search(node.left, data)
def linear_search(self, data):
node = self.root
while node is not None:
if node.data == data:
return node
elif data > node.data:
node = node.right
else:
node = node.left
return None
def __get_parent_node(self, data):
node = self.root
parent = self.root
while node is not None:
if node.data == data:
return parent
parent = node
if node.data < data:
node = node.right
else:
node = node.left
return parent
@staticmethod
def __higher_left(node):
node = node.left
while node.right is not None:
node = node.right
return node
def remove(self, data):
node = self.linear_search(data)
if node is None:
return False
parent = self.__get_parent_node(data)
if node.left is None or node.right is None:
if node.left is None:
temp = node.right
else:
temp = node.left
if parent is None:
node = temp
elif data > parent.data:
parent.right = temp
else:
parent.left = temp
else:
temp = self.__higher_left(node)
node.data = temp.data
if temp.left is not None:
node.left = temp.left
else:
node.left = None
return True
def get_height(self, root):
if root is None:
return -1
height_left = self.get_height(root.left)
height_right = self.get_height(root.right)
if height_right > height_left:
return height_right + 1
return height_left + 1
def level_order(self):
height = self.get_height(self.root)
for i in range(1, height + 2):
self.__print_level(self.root, i)
def __print_level(self, node, level):
if node is None:
return
if level == 1:
print("%d" % node.data, end=" ")
elif level > 1:
self.__print_level(node.left, level - 1)
self.__print_level(node.right, level - 1)
def in_order(self, node):
if node is None:
return
self.in_order(node.left)
print("%d" % node.data, end=" ")
self.in_order(node.right)
def pre_order(self, node):
if node is None:
return
print("%d" % node.data, end=" ")
self.pre_order(node.left)
self.pre_order(node.right)
def post_order(self, node):
if node is None:
return
self.post_order(node.left)
self.post_order(node.right)
print("%d" % node.data, end=" ")
b_tree = BinaryTree()
tree_data = [3, 1, 2, 7, 8, 6, 5, 4, 9]
for curr_data in tree_data:
b_tree.insert(curr_data)
b_tree.in_order(b_tree.root)
print("\n")
b_tree.pre_order(b_tree.root)
print("\n")
b_tree.post_order(b_tree.root)
print("\n")
b_tree.level_order()
print("\n")
print(b_tree.get_height(b_tree.root))