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class AnalysisBoard():
def __init__(self, fen_board='3/3/3'):
self.file_name = ['a', 'b', 'c']
self.rank_name = ['1', '2', '3']
self.diag_name = ['a1_c3', 'a3_c1']
self.fen_board = fen_board
@property
def __dict__(self):
d = {}
for fn in self.file_name:
fi = self.file_name.index(fn)
d[fn] = {}
for rn in self.rank_name:
ri = self.rank_name.index(rn)
d[fn][rn] = self.board[fi][ri]
return d
@property
def fen_board(self):
fen = ''
space_count = 0
r = 0
for rank in reversed(self.ranks):
r += 1
for sqr in rank:
if sqr == ' ':
space_count += 1
else:
if space_count != 0:
fen += str(space_count)
space_count = 0
fen += sqr
if space_count != 0:
fen += str(space_count)
space_count = 0
if not r == 3:
fen += '/'
return fen
@fen_board.setter
def fen_board(self, fen):
str_board = ''
for s in fen.replace('/',''):
if s.isnumeric(): str_board += int(s) * ' '
else: str_board += s
self.board = [
[str_board[6], str_board[3], str_board[0]],
[str_board[7], str_board[4], str_board[1]],
[str_board[8], str_board[5], str_board[2]]
]
@property
def all_sqr_vals(self):
return [
self.board[0][0],
self.board[0][1],
self.board[0][2],
self.board[1][0],
self.board[1][1],
self.board[1][2],
self.board[2][0],
self.board[2][1],
self.board[2][2]
]
@property
def all_sqr_nms(self): return ['a1', 'a2', 'a3', 'b1', 'b2', 'b3', 'c1', 'c2', 'c3']
@property
def all_sqrs_dict(self): return dict(zip(self.all_sqr_nms, self.all_sqr_vals))
@property
def sqr_nms(self):
return [
['a1', 'a2', 'a3'],
['b1', 'b2', 'b3'],
['c1', 'c2', 'c3']
]
@property
def turn(self):
if self.all_sqr_vals.count('X') <= self.all_sqr_vals.count('O'): return 'X'
elif self.all_sqr_vals.count('X') > self.all_sqr_vals.count('O'): return 'O'
@property
def alt_turn(self):
if self.all_sqr_vals.count('X') <= self.all_sqr_vals.count('O'): return 'O'
elif self.all_sqr_vals.count('X') > self.all_sqr_vals.count('O'): return 'X'
@property
def legal_moves(self):
legal_moves = []
for f in range(3):
for r in range(3):
if self.board[f][r] == ' ': legal_moves.append('abc'[f] + '123'[r])
return legal_moves
@property
def move_num(self): return self.all_sqr_vals.count('O') + 1
@property
def turn_num(self): return 10 - self.all_sqr_vals.count(' ')
@property
def row_a(self): return self.board[0]
@property
def row_b(self): return self.board[1]
@property
def row_c(self): return self.board[2]
@property
def row_1(self): return [self.board[0][0], self.board[1][0], self.board[2][0]]
@property
def row_2(self): return [self.board[0][1], self.board[1][1], self.board[2][1]]
@property
def row_3(self): return [self.board[0][2], self.board[1][2], self.board[2][2]]
@property
def row_a1_c3(self): return [self.board[0][0], self.board[1][1], self.board[2][2]]
@property
def row_a3_c1(self): return [self.board[0][2], self.board[1][1], self.board[2][0]]
@property
def sqr_rows(self):
sr = {}
for sqr_nm in self.all_sqr_nms:
rows = [sqr_nm[0], sqr_nm[1]]
if sqr_nm in self.row_a1_c3_sqr_nms: rows.append('a1_c3')
if sqr_nm in self.row_a3_c1_sqr_nms: rows.append('a3_c1')
sr[sqr_nm] = rows
return sr
@property
def row_a_sqr_nms(self): return self.sqr_nms[0]
@property
def row_b_sqr_nms(self): return self.sqr_nms[1]
@property
def row_c_sqr_nms(self): return self.sqr_nms[2]
@property
def row_1_sqr_nms(self): return [self.sqr_nms[0][0], self.sqr_nms[1][0], self.sqr_nms[2][0]]
@property
def row_2_sqr_nms(self): return [self.sqr_nms[0][1], self.sqr_nms[1][1], self.sqr_nms[2][1]]
@property
def row_3_sqr_nms(self): return [self.sqr_nms[0][2], self.sqr_nms[1][2], self.sqr_nms[2][2]]
@property
def row_a1_c3_sqr_nms(self): return [self.sqr_nms[0][0], self.sqr_nms[1][1], self.sqr_nms[2][2]]
@property
def row_a3_c1_sqr_nms(self): return [self.sqr_nms[0][2], self.sqr_nms[1][1], self.sqr_nms[2][0]]
@property
def row_a_dict(self): return dict(zip(self.row_a_sqr_nms, self.row_a))
@property
def row_b_dict(self): return dict(zip(self.row_b_sqr_nms, self.row_b))
@property
def row_c_dict(self): return dict(zip(self.row_c_sqr_nms, self.row_c))
@property
def row_1_dict(self): return dict(zip(self.row_1_sqr_nms, self.row_1))
@property
def row_2_dict(self): return dict(zip(self.row_2_sqr_nms, self.row_2))
@property
def row_3_dict(self): return dict(zip(self.row_3_sqr_nms, self.row_3))
@property
def row_a1_c3_dict(self): return dict(zip(self.row_a1_c3_sqr_nms, self.row_a1_c3))
@property
def row_a3_c1_dict(self): return dict(zip(self.row_a3_c1_sqr_nms, self.row_a3_c1))
@property
def files(self): return self.board
@property
def ranks(self):return [self.row_1, self.row_2, self.row_3]
@property
def diagonals(self): return [self.row_a1_c3, self.row_a3_c1]
@property
def rows(self):
return [
self.row_a,
self.row_b,
self.row_c,
self.row_1,
self.row_2,
self.row_3,
self.row_a1_c3,
self.row_a3_c1
]
@property
def row_dicts(self):
return [
self.row_a_dict,
self.row_b_dict,
self.row_c_dict,
self.row_1_dict,
self.row_2_dict,
self.row_3_dict,
self.row_a1_c3_dict,
self.row_a3_c1_dict
]
@property
def row_names(self): return self.file_name + self.rank_name + self.diag_name
@property
def row_dict(self): return dict(zip(self.row_names, self.rows))
@property
def row_dict_dicts(self): return dict(zip(self.row_names, self.row_dicts))
def sqr_val(self, sqr_nm):
f = self.file_name.index(sqr_nm[0])
r = self.rank_name.index(sqr_nm[1])
return self.board[f][r]
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