backgammon/board.py

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import quack
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import numpy as np
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import itertools
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class Board:
initial_state = ( 0,
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2, 0, 0, 0, 0, -5,
0, -3, 0, 0, 0, 5,
-5, 0, 0, 0, 3, 0,
5, 0, 0, 0, 0, -2,
0 )
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@staticmethod
def idxs_with_checkers_of_player(board, player):
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return quack.idxs_with_checkers_of_player(board, player)
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# TODO: Write a test for this
# TODO: Make sure that the bars fit, 0 represents the -1 player and 25 represents the 1 player
# index 26 is player 1 home, index 27 is player -1 home
@staticmethod
def board_features_to_pubeval(board, player):
if player == -1:
board = Board.flip(board)
board = list(board)
positives = [x if x > 0 else 0 for x in board]
negatives = [x if x < 0 else 0 for x in board]
board.append( 15 - sum(positives))
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board.append(-15 - sum(negatives))
return tuple(board)
# quack
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@staticmethod
def board_features_quack(board, player):
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board = list(board)
board += ([1, 0] if np.sign(player) > 0 else [0, 1])
return np.array(board).reshape(1,28)
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# quack-fat
@staticmethod
def board_features_quack_fat(board, player):
board = list(board)
positives = [x if x > 0 else 0 for x in board]
negatives = [x if x < 0 else 0 for x in board]
board.append( 15 - sum(positives))
board.append(-15 - sum(negatives))
board += ([1, 0] if np.sign(player) > 0 else [0, 1])
return np.array(board).reshape(1,30)
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# quack-fatter
@staticmethod
def board_features_quack_norm(board, player):
board = list(board)
positives = [x if x > 0 else 0 for x in board]
negatives = [x if x < 0 else 0 for x in board]
board[0] = board[0] / 2
board[25] = board[25] / 2
board = [board[x] if x == 0 or 25 else board[x] / 15 for x in range(0, 26)]
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board.append(15 - sum(positives))
board.append(-15 - sum(negatives))
board += ([1, 0] if np.sign(player) > 0 else [0, 1])
return np.array(board).reshape(1,30)
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# tesauro
@staticmethod
def board_features_tesauro(board, cur_player):
def ordinary_trans(val, player):
abs_val = val * player
if abs_val <= 0: return (0,0,0,0)
elif abs_val == 1: return (1,0,0,0)
elif abs_val == 2: return (1,1,0,0)
elif abs_val == 3: return (1,1,1,0)
else: return (1,1,1, (abs_val - 3) / 2)
def bar_trans(board, player):
if player == 1: return (abs(board[0]/2),)
elif player == -1: return (abs(board[25]/2),)
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# def ordinary_trans_board(board, player):
# return np.array(
# [ordinary_trans(x, player) for x in board[1:25]]
# ).flatten()
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board_rep = []
for player in [1,-1]:
for x in board[1:25]:
board_rep += ordinary_trans(x, player)
board_rep += bar_trans(board, player)
board_rep += (15 - Board.num_of_checkers_for_player(board, player),)
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board_rep += ([1,0] if cur_player == 1 else [1,0])
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return np.array(board_rep).reshape(1,198)
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@staticmethod
def board_features_tesauro_wrong(board, cur_player):
features = []
for player in [-1,1]:
sum = 0.0
for board_range in range(1,25):
pin = board[board_range]
#print("PIIIN:",pin)
feature = [0.0]*4
if np.sign(pin) == np.sign(player):
sum += abs(pin)
for i in range(min(abs(pin), 3)):
feature[i] = 1
if (abs(pin) > 3):
feature[3] = (abs(pin)-3)/2
features += feature
#print("SUUUM:",sum)
# Append the amount of men on the bar of the current player divided by 2
features.append((board[0] if np.sign(player) < 0 else board[25]) / 2.0)
# Calculate how many pieces there must be in the home state and divide it by 15
features.append((15 - sum) / 15)
features += ([1,0] if np.sign(cur_player) > 0 else [0,1])
test = np.array(features)
#print("TEST:",test)
return test.reshape(1,198)
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@staticmethod
def is_move_valid(board, player, face_value, move):
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return quack.is_move_valid(board, player, face_value, move)
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@staticmethod
def any_move_valid(board, player, roll):
for die in roll:
idxs = Board.idxs_with_checkers_of_player(board, player)
for idx in idxs:
if Board.is_move_valid(board, player, die,
(idx, idx + (die * player))):
return True
return False
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@staticmethod
def num_of_checkers_for_player(board,player):
return player * sum([board[idx] for idx in Board.idxs_with_checkers_of_player(board, player)])
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@staticmethod
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def outcome(board):
def all_checkers_in_first_quadrant(player):
checker_idxs = Board.idxs_with_checkers_of_player(board, player)
if player == 1:
return all([(idx <= 6) for idx in checker_idxs])
else:
return all([(idx >= 19) for idx in checker_idxs])
winner = None
for player in [1, -1]:
if Board.idxs_with_checkers_of_player(board, player) == []:
winner = player
if winner == None:
return None
#backgammon = all_checkers_in_first_quadrant(-winner)
gammon = Board.num_of_checkers_for_player(board, -winner) == 15
score = 2 if gammon else 1
return {winner: score, -winner: -score}
@staticmethod
def apply_moves_to_board(board, player, moves):
for move in moves:
from_idx, to_idx = move.split("/")
board[int(from_idx)] -= int(player)
board[int(to_idx)] += int(player)
return board
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@staticmethod
def calculate_legal_states(board, player, roll):
# Find all points with checkers on them belonging to the player
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# Iterate through each index and check if it's a possible move given the roll
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# TODO: make sure that it is not possible to do nothing on first part of
# turn and then do something with the second die
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def calc_moves(board, face_value):
idxs_with_checkers = Board.idxs_with_checkers_of_player(board, player)
if len(idxs_with_checkers) == 0:
return [board]
boards = [(Board.do_move(board,
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player,
(idx, idx + (face_value * player)))
if Board.is_move_valid(board,
player,
face_value,
(idx, idx + (face_value * player)))
else None)
for idx in idxs_with_checkers]
# print("pls:",boards)
board_list = list(filter(None, boards)) # Remove None-values
# if len(board_list) == 0:
# return [board]
# print("board list:", board_list)
return board_list
# Problem with cal_moves: Method can return empty list (should always contain at least same board).
# *Update*: Seems to be fixed.
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# ------------------
# 1. Determine if dice have identical face value
# 2. Iterate through remaining dice
legal_moves = set()
if not Board.any_move_valid(board, player, roll):
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return { board }
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dice_permutations = list(itertools.permutations(roll)) if roll[0] != roll[1] else [[roll[0]]*4]
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# print("Dice permuts:",dice_permutations)
for roll in dice_permutations:
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# Calculate boards resulting from first move
#print("initial board: ", board)
#print("roll:", roll)
boards = calc_moves(board, roll[0])
#print("boards after first die: ", boards)
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for die in roll[1:]:
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# Calculate boards resulting from second move
nested_boards = [calc_moves(board, die) for board in boards]
#print("nested boards: ", nested_boards)
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boards = [board for boards in nested_boards for board in boards]
# What the fuck
#for board in boards:
# print(board)
# print("type__:",type(board))
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# Add resulting unique boards to set of legal boards resulting from roll
#print("printing boards from calculate_legal_states: ", boards)
legal_moves = legal_moves | set(boards)
# print("legal moves: ", legal_moves)
if len(legal_moves) == 0:
legal_moves = { tuple(board) }
return legal_moves
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@staticmethod
def pretty(board):
def black(count):
return "\033[0;30m\033[47m{}\033[0m\033[47m".format(count)
def white(count):
return "\033[0;31m\033[47m{}\033[0m\033[47m".format(count)
temp = []
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for x in board:
if x > 0:
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temp.append(" {}".format(x))
elif x < 0:
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temp.append("{}".format(x))
else: temp.append(" ")
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return """
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13 14 15 16 17 18 19 20 21 22 23 24
+--------------------------------------------------------------------------+
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| {13}| {14}| {15}| {16}| {17}| {18}| bar -1: {25} | {19}| {20}| {21}| {22}| {23}| {24}| end -1: TODO|
|---|---|---|---|---|---|------------|---|---|---|---|---|---| |
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| {12}| {11}| {10}| {9}| {8}| {7}| bar 1: {0} | {6}| {5}| {4}| {3}| {2}| {1}| end 1: TODO|
+--------------------------------------------------------------------------+
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12 11 10 9 8 7 6 5 4 3 2 1
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""".format(*temp)
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@staticmethod
def do_move(board, player, move):
# Implies that move is valid; make sure to check move validity before calling do_move(...)
def move_to_bar(board, to_idx):
board = list(board)
if player == 1:
board[25] -= player
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else:
board[0] -= player
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board[to_idx] = 0
return board
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# TODO: Moving in from bar is handled by the representation
# TODONE: Handle bearing off
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from_idx = move[0]
#print("from_idx: ", from_idx)
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to_idx = move[1]
#print("to_idx: ", to_idx)
# pdb.set_trace()
board = list(board) # Make mutable copy of board
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# 'Lift' checker
board[from_idx] -= player
# Handle bearing off
if to_idx < 1 or to_idx > 24:
return tuple(board)
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# Handle hitting checkers
if board[to_idx] * player == -1:
board = move_to_bar(board, to_idx)
# Put down checker
board[to_idx] += player
return tuple(board)