def test_tree_intersection_five(): bt = BinaryTree() bt.root = Node(10) bt.root.left = Node(6) bt.root.right = Node(7) bt.root.left.left = Node(5) bt.root.left.right = Node(5) bt.root.left.right.left = Node(50) bt1 = BinaryTree() bt1.root = Node(10) expected = [10] assert expected == tree_intersection(bt, bt1)
def fizz_buzz_tree(k_ary): """ Function to change all values in the given tree according to fizz_buzz """ new_tree = BinaryTree() if not k_ary.root: return new_tree def helper(current): """ Helper function to use in recurtion to add new values in the new_tree according to their positions in the original tree """ node = Node(fizz_buzz(current.value)) if current.left: node.left = helper(current.left) if current.right: node.right = helper(current.right) return node new_tree.root = helper(k_ary.root) return new_tree
def test_tree_intersection_one(): bt = BinaryTree() bt.root = Node(1) bt.root.left = Node(2) bt.root.right = Node(3) bt.root.left.left = Node(4) bt.root.left.right = Node(5) bt1 = BinaryTree() bt1.root = Node(1) bt1.root.left = Node(8) bt1.root.right = Node(9) bt1.root.left.left = Node(6) bt1.root.left.right = Node(5) expected = [1, 5] assert expected == tree_intersection(bt, bt1)
def test_tree_bfs(): bt = BinaryTree() bt.root = Node(6) bt.root.right = Node(5) bt.root.left = Node(-1) bt.root.right.left = Node(7) bt.root.left.left = Node(10) bt.root.right.right = Node(3) assert bt.breadthFirst() == [6, -1, 5, 10, 7, 3]
def test_tree_max(): bt = BinaryTree() bt.root = Node(6) bt.root.right = Node(5) bt.root.left = Node(-1) bt.root.right.left = Node(7) bt.root.left.left = Node(10) bt.root.right.right = Node(3) assert bt.findMaximumValue() == 10
def test_tree_postorder(): bt = BinaryTree() bt.root = Node(6) bt.root.right = Node(5) bt.root.left = Node(-1) bt.root.right.left = Node(7) bt.root.left.left = Node(10) bt.root.right.right = Node(3) assert bt.postOrder() == [10, -1, 7, 3, 5, 6]
def test_tree_inorder(): bt = BinaryTree() bt.root = Node(6) bt.root.right = Node(5) bt.root.left = Node(-1) bt.root.right.left = Node(7) bt.root.left.left = Node(10) bt.root.right.right = Node(3) assert bt.inOrder() == [10, -1, 6, 7, 5, 3]
def test_tree_preorder(): bt = BinaryTree() bt.root = Node(6) bt.root.right = Node(5) bt.root.left = Node(-1) bt.root.right.left = Node(7) bt.root.left.left = Node(10) bt.root.right.right = Node(3) assert bt.preOrder() == [6, -1, 10, 5, 7, 3]
def test_tree_single_left_right(): bt = BinaryTree() bt.root = Node(7) bt.root.left = Node(3) bt.root.right = Node(2) assert bt.root.value == 7 assert bt.root.left.value == 3 assert bt.root.right.value == 2 assert bt.preOrder() == [7, 3, 2]
def test_tree_intersection_three(): bt = BinaryTree() bt.root = Node(10) bt.root.left = Node(6) bt.root.right = Node(7) bt.root.left.left = Node(5) bt.root.left.right = Node(5) bt.root.left.right.left = Node(50) bt1 = BinaryTree() bt1.root = Node(11) bt1.root.left = Node(8) bt1.root.right = Node(9) bt1.root.left.left = Node(6) bt1.root.left.right = Node(12) bt1.root.left.right.left = Node(0) expected = None assert expected == tree_intersection(bt, bt1)
def my_tree(): tree = BinaryTree() tree.root = Node(6) tree.root.left = Node(15) tree.root.right = Node(7) tree.root.left.left = Node(23) tree.root.left.right = Node(21) tree.root.right.right = Node(5) tree.root.left.left.left = Node(15) tree.root.right.right.left = Node(7) return tree
def test_find_max_value(): bt = BinaryTree() bt.root = Node(2) bt.root.right = Node(5) bt.root.left = Node(7) bt.root.right.right = Node(9) bt.root.right.right.left = Node(4) bt.root.left.left = Node(2) bt.root.left.right = Node(6) bt.root.left.right.left = Node(5) bt.root.left.right.right = Node(11) expected = 11 actual = bt.find_maximum_value() assert expected == actual
def test_breadth_first_binarytree(): bt = BinaryTree() bt.root = Node(2) bt.root.left = Node(7) bt.root.right = Node(5) bt.root.left.left = Node(2) bt.root.left.right = Node(6) bt.root.right.right = Node(9) bt.root.left.right.left = Node(5) bt.root.left.right.right = Node(11) bt.root.right.right.left = Node(4) assert BinaryTree.breadth_first_traversal(bt) == [ 2, 7, 5, 2, 6, 9, 5, 11, 4 ]
def test_tree_single(): bt = BinaryTree() bt.root = Node(7) assert bt.root.value == 7
def test_breadth_first_binarytree_one_element(): bt = BinaryTree() bt.root = Node(8) assert BinaryTree.breadth_first_traversal(bt) == [8]
""" Helper function to use in recurtion to add new values in the new_tree according to their positions in the original tree """ node = Node(fizz_buzz(current.value)) if current.left: node.left = helper(current.left) if current.right: node.right = helper(current.right) return node new_tree.root = helper(k_ary.root) return new_tree if __name__ == "__main__": bt = BinaryTree() bt.root = Node(2) bt.root.left = Node(7) bt.root.right = Node(5) bt.root.left.left = Node(2) bt.root.left.right = Node(6) bt.root.right.right = Node(9) bt.root.left.right.left = Node(5) bt.root.left.right.right = Node(11) bt.root.right.right.left = Node(4) print(fizz_buzz_tree(bt))