does not work, but is improved

This commit is contained in:
Christoffer Müller Madsen 2018-02-13 14:38:49 +01:00
parent 56ceee589b
commit bd87ed86d0
4 changed files with 143 additions and 99 deletions

154
board.py
View File

@ -1,23 +1,18 @@
from cup import Cup
import numpy as np
import itertools
class Board:
# TODO: Remember to handle pushing other pieces to home
# TODO: Also remember that a player can't move backwards and the one
# player goes from 1-47 while the other goes from 47-1
def __init__(self):
self.state = [ 0,
initial_state = [ 0,
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, 0, 0 ]
0 ]
def get_state(self):
return self.state
# TODO: Remember to handle pushing other pieces to home
# TODO: Also remember that a player can't move backwards and the one
# player goes from 1-47 while the other goes from 47-1
# Remember to handle edge case when we're on the last moves and you may go
# from position 22 -> 24 on a 6, if you have no pieces behind 22. Simply
@ -35,64 +30,97 @@ class Board:
# TODO: handle barring in a more elengant way
# TODO: allow bearing off with non-exact die roll if this is only possible
# move
def check_move(self, move, player, roll):
from_idx = int(move[0])
to_idx = int(move[1])
to_state = self.state[to_idx]
from_state = self.state[from_idx]
# TODO: Allow not doing anything if and only if no alternatives
@staticmethod
def is_move_valid(board, player, face_value, move):
board = list(board)
from_idx = move[0]
to_idx = move[1]
to_state = board[to_idx]
from_state = board[from_idx]
if from_idx == 26:
from_idx = 1
roll -= 1
face_value -= 1
elif from_idx == 27:
from_idx = 24
roll -= 1
face_value -= 1
if not (1 <= from_idx <= 24 and
1 <= to_idx <= 24):
return False
elif ( abs( from_idx - to_idx ) != roll ):
elif ( abs( from_idx - to_idx ) != face_value ):
return False
elif (from_state * player >= 1 and # Is moving player's own checker?
(to_state * player >= 0 or # Is 'to' empty or has player's own checkers?
to_state * -player == 1)): # Can opponent checker be hit?
return True
def find_pieces_for_player(self, player):
idxs = []
for idx, pip in enumerate(self.state):
if pip * player >= 1:
idxs.append(idx)
return idxs
def is_winner(self, player):
@staticmethod
def is_winner(board, player):
for i in range(1,25):
if player * self.state[i] > 0:
if player * board[i] > 0:
return False
return True
def find_legal_moves(self, player, roll):
@staticmethod
def calculate_legal_states(board, player, roll):
# Find all pips with things on them belonging to the player
# Iterate through each index and check if it's a possible move given the roll
# If player is O, then check for idx + roll
# If player is X, then check for idx - roll
print("Find legal moves: ",roll,"-"*20)
# Rewrite this, it's shit.
idxs_with_thing = self.find_pieces_for_player(player)
legal_moves = []
def idxs_with_checkers_of_current_player(board):
idxs = []
for idx, checker_count in enumerate(board):
if checker_count * player >= 1:
idxs.append(idx)
return idxs
for index in idxs_with_thing:
from_idx = index
to_idx = index+(roll*player)
if self.check_move([from_idx,to_idx], player, roll):
legal_moves.append([from_idx,to_idx])
def calc_moves(board, face_value):
idxs_with_checkers = idxs_with_checkers_of_current_player(board)
boards = [(do_move(board,
player,
(idx, idx + (face_value * player))) if
is_move_valid(board,
player,
face_value,
(idx, idx + (face_value * player))) else None)
for idx
in idxs_with_checkers]
# If no move can be made, make sure to include current board
if is_move_valid(board, player, face_value, None):
boards.append(board)
return list(filter(None, boards)) # Remove None-values
# ------------------
# 1. Determine if dice have identical face value
# 2. Iterate through remaining dice
legal_moves = set()
dice_permutations = list(itertools.permutations(roll)) if roll[0] != roll[1] else [[roll[0]]*4]
for pair in dice_permutations:
# Calculate boards resulting from first move
boards = calc_moves(board, pair[0])
for x in dice_permutations[1:None]:
# Calculate boards resulting from second move
nested_boards = [calc_moves(board, x) for board in boards]
boards = [board for boards in nested_boards for board in boards]
# Add resulting unique boards to set of legal boards resulting from roll
legal_moves = legal_moves | set(boards)
return legal_moves
def pretty(self):
@staticmethod
def pretty(board):
temp = []
for x in self.state:
for x in board:
if x >= 0:
temp.append(" {}".format(x))
else:
@ -101,28 +129,46 @@ class Board:
return """
13 14 15 16 17 18 19 20 21 22 23 24
--------------------------------------------------------------------------
| {12}| {11}| {10}| {9}| {8}| {7}| bar 1: {26} | {6}| {5}| {4}| {3}| {2}| {1}| end -1: {0}|
| {11}| {10}| {9}| {8}| {7}| {6}| bar -1: {24} | {5}| {4}| {3}| {2}| {1}| {0}| end -1: TODO|
|---|---|---|---|---|---|-----------|---|---|---|---|---|---|
| {13}| {14}| {15}| {16}| {17}| {18}| bar -1: {27} | {19}| {20}| {21}| {22}| {23}| {24}| end 1: {25}|
| {12}| {13}| {14}| {15}| {16}| {17}| bar 1: {25} | {18}| {19}| {20}| {21}| {22}| {23}| end 1: TODO|
--------------------------------------------------------------------------
12 11 10 9 8 7 6 5 4 3 2 1
""".format(*temp)
def move_to_bar(self, to_idx):
# Find the owner of the hit checker
player = self.state[to_idx]
# FIXME: find better bar solution
@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:
self.state[26] += player
board[0] += player
else:
self.state[27] += player
board[25] += player
self.state[to_idx] = 0
board[to_idx] = 0
return board
def move_thing(self, player, from_idx, to_idx):
self.state[from_idx] -= player
# TODO: Moving in from bar is handled by the representation
# TODONE: Handle bearing off
if self.state[to_idx] * player == -1:
self.move_to_bar(to_idx)
from_idx = move[0]
to_idx = move[1]
board = list(board) # Clone board
self.state[to_idx] += player
# 'Lift' checker
board[from_idx] -= player
# Handle bearing off
if to_idx < 1 or to_idx > 24:
return board
# Handle hitting checkers
if board[to_idx] * player == -1:
board = move_to_bar(board, to_idx)
# Put down checker
board[to_idx] += player
return board

23
bot.py
View File

@ -1,13 +1,12 @@
from cup import Cup
from board import Board
import random
class Bot:
def __init__(self, board, sym, network):
def __init__(self, sym):
self.cup = Cup()
self.board = board
self.sym = sym
self.network = network
def roll(self):
print("{} rolled: ".format(self.sym))
@ -22,20 +21,20 @@ class Bot:
def get_sym(self):
return self.sym
def do_move(self, roll):
print(self.board.pretty())
print(self.board.find_legal_moves(self.sym, roll[0]))
moves_1 = self.board.find_legal_moves(self.sym,roll[0])
def do_move(board, roll):
print(Board.pretty(board))
print(Board.find_legal_moves(board, self.sym, roll[0]))
moves_1 = Board.find_legal_moves(board, self.sym,roll[0])
move = random.choice(moves_1)
print("{} was picked as move".format(move))
self.board.move_thing(self.sym, int(move[0]), int(move[1]))
new_board = Board.move_thing(self.sym, int(move[0]), int(move[1]))
print(self.board.pretty())
print(self.board.find_legal_moves(self.sym, roll[1]))
moves_2 = self.board.find_legal_moves(self.sym,roll[1])
print(Board.pretty(new_board))
print(Board.find_legal_moves(new_board, self.sym, roll[1]))
moves_2 = Board.find_legal_moves(new_board, self.sym,roll[1])
move = random.choice(moves_2)
print("{} was picked as move".format(move))
self.board.move_thing(self.sym, int(move[0]), int(move[1]))
return Board.move_thing(new_board, self.sym, int(move[0]), int(move[1]))

15
game.py
View File

@ -6,10 +6,9 @@ from cup import Cup
class Game:
def __init__(self):
self.board = Board()
self.network = Network()
self.p1 = Human(self.board, 1, self.network)
self.p2 = Bot(self.board, -1, self.network)
self.board = Board.initial_state
self.p1 = Human(1)
self.p2 = Bot(-1)
self.cup = Cup()
def roll(self):
@ -19,15 +18,15 @@ class Game:
while True:
roll = self.roll()
print("{} rolled: {}".format(self.p1.get_sym(), roll))
self.p1.do_move(roll)
if self.board.is_winner(self.p1.get_sym()):
self.board = self.p1.do_move(self.board, roll)
if Board.is_winner(board, self.p1.get_sym()):
print("{} won!".format(self.p1.get_sym()))
break
roll = self.roll()
print("{} rolled: {}".format(self.p1.get_sym(), roll))
self.p2.do_move(roll)
if self.board.is_winner(self.p2.get_sym()):
self.board = self.p2.do_move(self.board, roll)
if Board.is_winner(board, self.p2.get_sym()):
print("{} won!".format(self.p2.get_sym()))
break

View File

@ -1,7 +1,7 @@
from board import Board
class Human:
def __init__(self, board, sym, network):
self.network = network
self.board = board
def __init__(self, sym):
self.sym = sym
def switch(self,cur):
@ -10,30 +10,30 @@ class Human:
def get_sym(self):
return self.sym
def do_move(self, roll):
print(self.board.pretty())
print(self.board.find_legal_moves(self.sym,roll[0]))
cur_state = self.board.get_state()
def do_move(self, board, roll):
print(Board.pretty(board))
print("Human: ",roll,"-"*20)
print(Board.find_legal_moves(board,self.sym,roll[0]))
print("What to do with the first roll?")
cmds_1 = input().split(",")
while not self.board.check_move(cmds_1, self.sym, roll[0]):
while not Board.is_move_valid(board, roll[0], self.sym, cmds_1):
print("Invalid move, try again.")
cmds_1 = input().split(",")
self.board.move_thing(self.sym, int(cmds_1[0]), int(cmds_1[1]))
new_board = Board.move_thing(board, self.sym, int(cmds_1[0]), int(cmds_1[1]))
print(self.board.pretty())
print(self.board.find_legal_moves(self.sym,roll[1]))
print(Board.pretty(board))
print(Board.find_legal_moves(new_board, self.sym,roll[1]))
print("What to do with the second roll?")
cmds_2 = input().split(",")
while not self.board.check_move(cmds_2, self.sym, roll[1]):
while not Board.is_move_valid(new_board, roll[1], self.sym, cmds_2):
print("Invalid move")
cmds_2 = input().split(",")
self.board.move_thing(self.sym, int(cmds_2[0]), int(cmds_2[1]))
return Board.move_thing(new_board, self.sym, int(cmds_2[0]), int(cmds_2[1]))