i am at my wits end...this is my 1st time posting here hope you guys can help me.

I have a 4x4 puzzle grid (initial state) that looks like this: X is the only one that can moves and it does by swapping values

The end game is when the tiles ABC looks like this: X doesnt matter where it ends

i need to solve this by adding nodes (with a board game in it) on a n-tree (root is initial state) but i have to do it resembling a depth first search, here ill give you an example:

my problem is when im trying to add more nodes but i reach Max depth i should be able to add them in the max depth -1 available node (like a depth first search rutine)

I've read and watch tutorials for 2 days and they all show me how to traverse a tree that is already built but not how to create it. ill add my 2 classes (board game and tree) hope some one can point me in the right direction.

```
N = 4
```

class BoardGame:

```
board = []
def start_game(self):
self.board = ["0"] * N
for c in range(N):
self.board[c] = ["0"] * N
self.board[N - 1][0] = "A"
self.board[N - 1][1] = "B"
self.board[N - 1][2] = "C"
self.board[N - 1][3] = "X"
def end_game(self):
if self.board[1][1] == "A" and self.board[2][1] == "B" and self.board[3][1] == "C":
return True
else:
return False
def draw_board(self):
print("Board:")
for j in range(N):
print()
for k in range(N):
print(self.board[j][k], end='')
print()
def find_x(self):
found_x = False
for j in range(N):
for k in range(N):
if self.board[j][k] == "X":
found_x = True
break
if found_x:
break
return j, k
def possible_moves(self):
x = self.find_x()
# corner 1
if x == (0, 0):
return ["Right", "Down"]
# corner 2
if x == (0, 3):
return ["Left", "Down"]
# corner 3
if x == (3, 0):
return ["Up", "Right"]
# corner 4
if x == (3, 3):
return ["Up", "Left"]
# top sides
if x == (0, 1) or x == (0, 2):
return ["Left", "Right", "Down"]
# left sides
if x == (1, 0) or x == (2, 0):
return ["Up", "Right", "Down"]
# right sides
if x == (1, 3) or x == (2, 3):
return ["Up", "Left", "Down"]
# bottom sides
if x == (3, 1) or x == (3, 2):
return ["Up", "Left", "Right"]
# center
else:
return["Up", "Left", "Right", "Down"]
def move(self, movement):
x = self.find_x()
j = x[0]
k = x[1]
if movement == "Up":
# print("Moving X Up")
aux = self.board[j-1][k]
self.board[j][k] = aux
self.board[j-1][k] = "X"
elif movement == "Left":
# print("Moving X Left")
aux = self.board[j][k-1]
self.board[j][k] = aux
self.board[j][k-1] = "X"
elif movement == "Right":
# print("Moving X Right")
aux = self.board[j][k + 1]
self.board[j][k] = aux
self.board[j][k + 1] = "X"
elif movement == "Down":
# print("Moving X Down")
aux = self.board[j + 1][k]
self.board[j][k] = aux
self.board[j + 1][k] = "X"
else:
print("Something went wrong")
```

and this is my class Tree:

```
class Node(object):
from Puzzle import BoardGame
from random import shuffle
import sys
import copy
sys.setrecursionlimit(10000) # 10000 is an example, try with different values
max_depth = 3
def __init__(self):
self.value = "" # Value of the node "Up", "Left", "Right", "Down"
self.depth = 0 # Depth of the node
self.bg = BoardGame() # New board game
self.bg.start_game() # Initial state board game
self.children = [] # Empty list of children nodes
self.parent = None
'''
When treating children as string returns the
value of the node not the memory location
'''
def __str__(self):
return self.value
'''
When using iterators (for, next etc) it does not create a list only shows the value
and destroys it
'''
def __iter__(self):
yield self
for c in self.children:
for node in c:
yield node
# check if board in current node is goal
def is_node_goal(self):
return self.bg.end_game()
def show_node(self):
print("value:", self.value, "Depth:", self.depth)
if self.children:
print("Children: ", end='[ ')
for c in self.children:
print(c, end=' ')
print("]")
else:
print("Children: ")
#self.bg.draw_board()
print("------------")
print()
def show_tree(node):
if node.value == "":
node.show_node()
if node.children:
for ch in node.children:
ch.show_node()
for ch in node.children:
show_tree(ch)
def insert_children(node):
if not node.children: # if node doesnt have children
pm = node.bg.possible_moves() # shuffle randomly possible moves
#shuffle(pm)
node.visited = True
for v in pm:
new_node = Node() # Creates a Node
new_node.value = v # Assign value of new node
new_node.depth = node.depth + 1 # Add one level of depth to the three
new_node.parent = node # address of the parent
new_node.bg = copy.deepcopy(node.bg) # Create a copy of parents board game
new_node.bg.move(new_node.value) # Moves node board game to the value
node.children.append(new_node) # Add this new node to the list of parent children
return True
else:
return False
def dfs(node):
if node.depth + 1 <= max_depth:
if not node.children:
insert_children(node)
else:
dfs(node.children[0])
n = Node()
for r in range(3):
dfs(n)
show_tree(n)
```