"""

Implement Binary Search Tree. It has method:

1. Insert

2. Search

3. Size

4. Traversal (Preorder, Inorder, Postorder)

"""

import unittest

class Node(object):

def __init__(self, data):

self.data = data

self.left = None

self.right = None

class BST(object):

def __init__(self):

self.root = None

def get_root(self):

return self.root

"""

Get the number of elements

Using recursion. Complexity O(logN)

"""

def size(self):

return self.recur_size(self.root)

def recur_size(self, root):

if root is None:

return 0

else:

return 1 + self.recur_size(root.left) + self.recur_size(root.right)

"""

Search data in bst

Using recursion. Complexity O(logN)

"""

def search(self, data):

return self.recur_search(self.root, data)

def recur_search(self, root, data):

if root is None:

return False

if root.data == data:

return True

elif data > root.data: # Go to right root

return self.recur_search(root.right, data)

else: # Go to left root

return self.recur_search(root.left, data)

"""

Insert data in bst

Using recursion. Complexity O(logN)

"""

def insert(self, data):

if self.root:

return self.recur_insert(self.root, data)

else:

self.root = Node(data)

return True

def recur_insert(self, root, data):

if root.data == data: # The data is already there

return False

elif data < root.data: # Go to left root

if root.left: # If left root is a node

return self.recur_insert(root.left, data)

else: # left root is a None

root.left = Node(data)

return True

else: # Go to right root

if root.right: # If right root is a node

return self.recur_insert(root.right, data)

else:

root.right = Node(data)

return True

"""

Preorder, Postorder, Inorder traversal bst

"""

def preorder(self, root):

if root:

print(str(root.data), end = ' ')

self.preorder(root.left)

self.preorder(root.right)

def inorder(self, root):

if root:

self.inorder(root.left)

print(str(root.data), end = ' ')

self.inorder(root.right)

def postorder(self, root):

if root:

self.postorder(root.left)

self.postorder(root.right)

print(str(root.data), end = ' ')

"""

The tree is created for testing:

10

/ \

6 15

/ \ / \

4 9 12 24

/ / \

7 20 30

/

18

"""

class TestSuite(unittest.TestCase):

def setUp(self):

self.tree = BST()

self.tree.insert(10)

self.tree.insert(15)

self.tree.insert(6)

self.tree.insert(4)

self.tree.insert(9)

self.tree.insert(12)

self.tree.insert(24)

self.tree.insert(7)

self.tree.insert(20)

self.tree.insert(30)

self.tree.insert(18)

def test_search(self):

self.assertTrue(self.tree.search(24))

self.assertFalse(self.tree.search(50))

def test_size(self):

self.assertEqual(11, self.tree.size())

if __name__ == '__main__':

unittest.main()