Print the longest path starting from root in a binary tree

Here's a working implementation:

class Node:
  def __init__(self, x):
    self.val = x
    self.left = None
    self.right = None

def print_path(root):
  rightpath = []
  leftpath = []
  path = []
  if root is None:
    return []
  if (root.right is None) and (root.left is None):
    return [root.val]
  elif root.right is not None:
    rightpath = [root.val] + print_path(root.right)
  elif root.left is not None:
    leftpath = [root.val] + print_path(root.left)
  return argmax(rightpath, leftpath)

def argmax(lst1, lst2):
  return lst1 if len(lst1) > len(lst2) else lst2


root_node = Node('a')
root_node.left = Node('b')
root_node.right = Node('c')
root_node.right.right = Node('f')
print print_path(root_node)

Couple of issues with your code:

1) checking root.left is None before (root.right is None) and (root.left is None) is incorrect - you'll never reach (root.right is None) and (root.left is None)

2) instead of returning immediately, you want to use recursion and compare both branches and then return the branch with the longest path so far

3) append appends in place, so you need to store it in a variable

Edit: Cleaner implementation (see comments)

class Node:
  def __init__(self, x):
    self.val = x
    self.left = None
    self.right = None

def print_path(root):
  rightpath = []
  leftpath = []
  if root is None:
    return []
  rightpath = [root.val] + print_path(root.right)
  leftpath = [root.val] + print_path(root.left)
  return argmax(rightpath, leftpath)

def argmax(lst1, lst2):
  return lst1 if len(lst1) > len(lst2) else lst2


root_node = Node('a')
root_node.left = Node('b')
root_node.right = Node('c')
root_node.right.right = Node('f')
print print_path(root_node)