I'm reading the following data as part of an assignment into a **binary tree** (not a **strict binary search tree**):

```
5
4 1 2
2 3 4
5 -1 -1
1 -1 -1
3 -1 -1
```

They're being read into three lists in python `self.key`

, `self.left`

and `self.right`

where the first line has the integer `n`

is the number of nodes. The next n lines are key, left, right. Where left is the key of the left child of the parent is `key[left]`

and likewise the key of the right child is `key[right]`

, so for example the first line is the key of 4 is the root and `key[1]`

meaning 2 is the left child of 4 and `key[2]`

meaning 5 is the right child of 4 and so on and -1 for left and right means this key is a leaf:

Tree structure for this example

The problem is the left and right children of the root are being added but none of the children of these are being added. Am I correctly adding nodes to the tree? I cannot just add them based on value of the key because it's not a **strict binary search tree** as some other examples make clear, such as *root = 0* and *left child = 70* and *right child = 20*. The output of inOrder traversal is `2 4 5`

(should be `1 2 3 4 5`

) which leads me to believe I'm not adding the further nodes. Any help on the adding methods would be appreciated...

```
import sys, threading
sys.setrecursionlimit(10**6) # max depth of recursion
threading.stack_size(2**27) # new thread will get stack of such size
class Node:
def __init__(self, val):
self.l = None
self.r = None
self.v = val
class Tree:
def __init__(self):
self.root = None
def getRoot(self):
return self.root
def add_root(self, val):
if(self.root is None):
self.root = Node(val)
def add_left(self, val, node):
if(node.l is None):
node.l = Node(val)
def add_right(self, val, node):
if(node.r is None):
node.r = Node(val)
def deleteTree(self):
# garbage collector will do this for us.
self.root = None
def inOrder(self):
self.result = []
if(self.root is not None):
self._inOrder(self.root, self.result)
return self.result
else:
print('root is None')
def _inOrder(self, node, result):
if(node != None):
self._inOrder(node.l, self.result)
self.result.append(node.v)
self._inOrder(node.r, self.result)
def read(self):
self.n = int(sys.stdin.readline())
self.key = [0 for i in range(self.n)]
self.left = [0 for i in range(self.n)]
self.right = [0 for i in range(self.n)]
for i in range(self.n):
[a, b, c] = map(int, sys.stdin.readline().split())
self.key[i] = a
self.left[i] = b
self.right[i] = c
#adding root
self.add_root(self.key[0])
if self.left[0] != -1:
#add left of root
self.add_left(self.key[self.left[0]], self.root)
if self.right[0] != -1:
#add right of root
self.add_right(self.key[self.right[0]], self.root)
#where it is not adding left and right nodes
for i in range(1, self.n):
if self.left[i] != -1:
# adding the other left nodes
self.add_left(self.key[self.left[i]], Node(self.key[i]))
if self.right[i] != -1:
# adding the other right nodes
self.add_right(self.key[self.right[i]], Node(self.key[i]))
def main():
tree = Tree()
tree.read()
print(" ".join(str(x) for x in tree.inOrder()))
#print(" ".join(str(x) for x in tree.preOrder()))
#print(" ".join(str(x) for x in tree.postOrder()))
threading.Thread(target=main).start()
```