# Endless Recursion in Python

Full disclosure, this is part of a homework assignment (though a small snippet, the project itself is a game playing AI).

I have this function built into a tree node class:

``````    def recursive_score_calc(self):
current_score = self.board
for c in self.children:
child_score = c.recursive_score_calc()
if(turn_color == 1):
if(child_score > current_score):
current_score = child_score
else:
if(child_score < current_score):
current_score = child_score
self.recursive_score = current_score
return current_score
``````

On a tree of depth 1 (a root and some children), it hits the Python recursion limit already. The function is designed to use dynamic programming to build a min-max tree from the bottom up. To be honest, I have no idea why this isn't working as intended, but I am fairly new to Python as well.

Good people of Stack Overflow: Why does this code give me a stack overflow?

The Entire Class in question:

``````from Numeric import *

class TreeNode:
children = []
numChildren = 0
board = zeros([8,8], Int)
turn_color = 0 # signifies NEXT to act
board_score = 0 # tally together board items
recursive_score = 0 # set when the recursive score function is called

def __init__(self, board, turn_color):
self.board = copy.deepcopy(board)
self.turn_color = turn_color
for x in range (0,7):
for y in range (0,7):
self.board_score = self.board_score + self.board[x][y]

self.children.append(child)
self.numChildren = self.numChildren + 1

def recursive_score_calc(self):
current_score = self.board # if no valid moves, we are the board. no move will make our score worse
for c in self.children:
child_score = c.recursive_score_calc()
if(turn_color == 1):
if(child_score > current_score):
current_score = child_score
else:
if(child_score < current_score):
current_score = child_score
self.recursive_score = current_score
return current_score
``````

The function that interacts with this (Please Note, this is bordering on the edge of what is appropriate to post here, I'll remove this part after I accept an answer): [It didn't turn out to be the critical part anyways]

-
Can you show us the code that creates the tree? You are possibly adding self as one of the children. –  gnibbler Feb 18 '10 at 3:14
All there now. Legal moves is a set of possible moves in the current game state, and SHOULD comprise all of the children of the tree node. –  bigwoody Feb 18 '10 at 3:18

``````class TreeNode:
children = []
``````

means that every instance of the class shares the same `children` list. So, in this bit:

``````def add_child(self, child):
self.children.append(child)
``````

you're appending to the "class-global" list. So, of course, every node is a child of every other node, and disaster is guaranteed.

``````class TreeNode(object):
numChildren = 0
board = zeros([8,8], Int)
turn_color = 0 # signifies NEXT to act
board_score = 0 # tally together board items
recursive_score = 0 # set when the recursive score function is called

def __init__(self, board, turn_color):
self.children = []
self.board = copy.deepcopy(board)
self.turn_color = turn_color
... etc, etc ...
``````

the rest doesn't need to change to fix this bug (though there may be opportunities to improve it or fix other bugs, I have not inspected it deeply), but failing to assign `self.children` in `__init__` is causing your current bug, and failing to inherit from `object` (unless you're using Python 3, but I'd hope you would mention this little detail if so;-) is just a bug waiting to happen.

-

It looks like `self.children` contains `self`.

EDIT:

The `children` property is being initialized to the same array instance for every instance of the `TreeNode` class.

You need to create a separate array instance for each `TreeNode` instance by adding `self.children = []` to `__init__`.
The `board` array has the same problem.

-
That's a valid possibility, I don't entirely understand the meaning of "self" other than it spat errors at me until I added it there. Can you elaborate please? –  bigwoody Feb 18 '10 at 3:07
You are looping through `self.children` and calling the same method on each of the children. Recursion would happen if one of the children is the object itself. Can you post your entire program? –  SLaks Feb 18 '10 at 3:11
`self` is the reference to the class object. As in itself. Get it? –  jathanism Feb 18 '10 at 3:12