def compete(self, b1, b2):
while True:
if Tetris.mode == 'auto':
time.sleep(1)
else:
input()
Board.create_piece()
l1 = b1.get_attack_points()
l2 = b2.get_attack_points()
print('l1: %d; l2: %d' % (l1, l2))
b1.get_attacked(l2)
b2.get_attacked(l1)
s1, _, _ = b1.get_board_state()
s2, _, _ = b2.get_board_state()
self.print_game(s1, s2)
if b1.defeated() or b2.defeated():
break
if b1.defeated() and not b2.defeated():
print('Player2 won')
elif b2.defeated() and not b1.defeated():
print('Player1 won')
else:
print('Tie')
def initialize_board(self, board_size, players_list):
self.__game_dao.set_ladders()
self.__game_dao.set_snakes()
self.__board = Board(board_size)
for player in players_list:
self.__game_dao.add_player(player)
def _test_from_files(self, in_file_path, out_file_path):
with open(in_file_path) as f:
b_in = Board.from_file(f)
with open(out_file_path) as f:
b_out = Board.from_file(f)
solve_board(b_in)
self.assertEquals(b_in, b_out, "boards don't match (in=%s, out=%s)" % (in_file_path, out_file_path))
def build(self, testMode=True):
"""
Initiate objects and views.
"""
''' init game objects '''
self.deck = Deck()
self.evaluator = Evaluator()
self.player = []
self.player.append(Player(0))
self.player.append(Player(1))
# board stands for public cards on board
self.board = Board()
# In test mode, both player select right-most cards for the turn automatically
self.testMode = testMode
''' create view objects '''
# Scatter that can be rotated to display players
scatter_bot = ScatterLayout(do_rotation=False,
do_translation=False,
do_scale=False,
size_hint=(1, 1),
pos_hint={
'x': 0,
'y': 0
},
rotation=0)
# For player on top, the widget rotates 180 degree
scatter_top = ScatterLayout(do_rotation=False,
do_translation=False,
do_scale=False,
size_hint=(1, 1),
pos_hint={
'x': 0,
'y': 0
},
rotation=180)
box = PlayerDeck()
box2 = PlayerDeck()
publicArea = PublicArea()
box.build(self, "player1", 0, self.testMode)
box2.build(self, "player2", 1, self.testMode)
publicArea.build()
scatter_bot.add_widget(box)
scatter_top.add_widget(box2)
self.add_widget(scatter_bot)
self.add_widget(scatter_top)
self.add_widget(publicArea)
# register id of view objects
self.ids[box.id] = box
self.ids[box2.id] = box2
self.ids[publicArea.id] = publicArea
def load(I, path): """ Reset the board and load history from given path. """ with open(path, mode='r', encoding='utf-8') as f: history = json.load(f, object_hook=Turn.from_json) board = Board() for turn in history: for src, dst in turn.moves: board = board.move(src, dst) I.board = board I.history = history
def load(I, path):
"""
Reset the board and load history from given path.
"""
with open(path, mode='r', encoding='utf-8') as f:
history = json.load(f, object_hook=Turn.from_json)
board = Board()
for turn in history:
for src, dst in turn.moves:
board = board.move(src, dst)
I.board = board
I.history = history
def get_state(self):
b1 = self.board1
b2 = self.board2
l1 = b1.get_attack_points()
l2 = b2.get_attack_points()
Board.create_piece()
b1.get_attacked(l2)
b2.get_attacked(l1)
s1, _, _ = b1.get_board_state()
s2, _, _ = b2.get_board_state()
return self.reverse_row(s1), self.reverse_row(s2)
def post(self):
tName = self.request.get("taskName").lower().strip()
board_url = self.request.get("board_url")
keyconcat = tName+'/'+self.request.get("key_board")
key_name = ndb.Key(Task, keyconcat)
task = key_name.get()
if task:
task.dueDate = datetime.strptime(self.request.get("dueDate"), '%Y-%m-%d')
task.description = self.request.get("description")
task.assignee = self.request.get("assignee")
if task.status == self.request.get("status"):
task.completionDate = task.completionDate
else:
if self.request.get("status") == "completed":
now = datetime.now() #using utc time
task.completionDate = now
elif self.request.get("status") == "not completed":
task.completionDate = None
task.status = self.request.get("status")
task.put()
boardCheck = Board.get_by_id(int(self.request.get("key_board")))
for i in range(0,len(boardCheck.tasks)):
if str(boardCheck.tasks[i].taskTitle.lower()).strip() == tName.lower().strip():
boardCheck.tasks[i].status = task.status
boardCheck.tasks[i].description = task.description
boardCheck.tasks[i].assignee = task.assignee
boardCheck.tasks[i].dueDate = task.dueDate
boardCheck.tasks[i].completionDate = task.completionDate
boardCheck.put()
self.add_message('Task updated successfully', 'success')
else:
self.add_message('Task not found.', 'danger')
self.redirect(str(board_url), abort=False)
def post(self):
user = users.get_current_user()
board_url = self.request.get("board_url")
boardName = self.request.get("boardName").strip()
userToRem = self.request.get("userRemove").strip()
board = Board.get_by_id(int(self.request.get("key_board")))
if board:
board.boardTitle = boardName
if userToRem != "" and user.email() == board.owner:
key_user = ndb.Key(User, userToRem)
user_details = key_user.get()
if user_details:
if user_details.boards != None:
del user_details.boards[str(self.request.get("key_board"))]
user_details.put()
for i in range(0,len(board.users)):
if str(board.users[i].email.lower()).strip() == userToRem.lower():
board.users.pop(i)
break
for i in range(0,len(board.tasks)):
if str(board.tasks[i].assignee.lower()).strip() == userToRem.lower().strip():
board.tasks[i].assignee = 'Unassigned'
board.put()
self.add_message('Board updated successfully', 'success')
else:
self.add_message("Board doesn't exist", 'success')
self.redirect(str(board_url), abort=False)
def __init__(self):
self.boards = {
# player 1, 2
1: {
# boards 1 -> ship board
# 2-> attack board
1: Board(),
2: Board()
},
2: {
# boards 1 -> ship board
# 2-> attack board
1: Board(),
2: Board()
}
}
def __init__(self):
board = Board([[0, 0, 0], [0, 0, 0], [0, 0, 0]])
super().__init__(players=[
HumanPlayer(name="Mikolaj", symbol='x'),
HumanPlayer(name="Arek", symbol='o')
],
state=MemoryState(board, moves=['x', 'o']))
def delete_board(id):
board = Board.get_or_none(Board.id == id)
if not board:
return jsonify({'message': 'ERROR', 'result': None}), 404
board.delete_instance()
return jsonify({'message': 'OK', 'result': None})
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.title("Drunkard walk")
self.resizable(False, False)
self.controller = EventController(self)
board = Board()
self.controller.set_board(board)
main_frame = ttk.Frame(self, padding=(20, 10, 10, 10))
main_frame.pack(fill="both", expand=True)
interface_frame = InterfaceFrame(main_frame,
self.controller,
padding=(20, 10, 10, 10))
interface_frame.pack(side="left", fill="x")
board_frame = BoardFrame(main_frame,
board,
self.controller,
padding=(10, 10, 10, 10))
board_frame.pack(side="left", fill="both")
output_frame = OutputFrame(self,
self.controller,
padding=(20, 10, 20, 10))
output_frame.pack(side="bottom", fill="both", expand=True)
def post(self):
tName = self.request.get("name")
board_url = self.request.get("board_url")
checkbovVal = self.request.get("checkbovVal")
keyconcat = tName.lower().strip()+'/'+self.request.get("key_board")
key_name = ndb.Key(Task, keyconcat)
taskStatus = key_name.get()
if taskStatus:
if checkbovVal == "true":
taskStatus.status = "completed"
now = datetime.now() #using utc time
taskStatus.completionDate = now
elif checkbovVal == "false":
taskStatus.status = "not completed"
taskStatus.completionDate = None
taskStatus.put()
boardCheck = Board.get_by_id(int(self.request.get("key_board")))
for i in range(0,len(boardCheck.tasks)):
if str(boardCheck.tasks[i].taskTitle.lower()).strip() == tName.lower().strip():
boardCheck.tasks[i].status = taskStatus.status
boardCheck.tasks[i].completionDate = taskStatus.completionDate
boardCheck.put()
self.add_message('Task status updated successfully', 'success')
else:
self.add_message('Task not found.', 'danger')
self.redirect(str(board_url), abort=False)
def __init__(self):
board = Board([[0, 0, 0], [0, 0, 0], [0, 0, 0]])
super().__init__(players=[
HumanPlayer(name="Humek", symbol='x'),
ComputerPlayer(name="Comp", symbol='o')
],
state=MemoryState(board, moves=['x', 'o']))
class GameService:
def __init__(self):
self.__game_dao = GameDao()
self.__board = 0
self.__dice = Dice()
def initialize_board(self, board_size, players_list):
self.__game_dao.set_ladders()
self.__game_dao.set_snakes()
self.__board = Board(board_size)
for player in players_list:
self.__game_dao.add_player(player)
def play_game(self):
while True:
dice_num = self.__dice.roll_dice()
player = self.__game_dao.get_player()
print(f'{player.get_name()} turn, dice number: {dice_num}')
position = player.get_position()
new_position = dice_num + position
if new_position > self.__board.get_size():
self.__game_dao.add_player(player)
continue
if new_position == self.__board.get_size():
print(f'{player.get_name()} wins')
player.set_is_won(True)
break
if self.__game_dao.get_snakes(new_position) != None:
new_position = self.__game_dao.get_snakes(new_position)
print(f'Snake bits, new position is {new_position}')
elif self.__game_dao.get_ladders(new_position) != None:
new_position = self.__game_dao.get_ladders(new_position)
print(f'Ladder Climbed, new position is {new_position}')
else:
print(f'new position is {new_position}')
player.set_position(new_position)
self.__game_dao.add_player(player)
def render(entry, settings):
board = Board()
board.fromAlgebraic(entry["algebraic"])
html = pdf.ExportDocument.header(entry, settings['lang'])
html += board_to_html(board, settings['diagram_font'])
html += entry['stipulation'] + ' ' + board.getPiecesCount() + "<br/>\n"
html += pdf.ExportDocument.solver(entry, settings['lang']) + "<br/>\n"
html += pdf.ExportDocument.legend(board) + "<br/><br/>\n"
if 'solution' in entry:
html += solution_to_html(entry['solution'], settings['inline_font'])
if 'keywords' in entry:
html += "<br/>\n" + ', '.join(entry['keywords']) + "<br/>\n"
if 'comments' in entry:
html += "<br/>\n" + "<br/>\n".join(entry['comments']) + "<br/>\n"
html += "<br/><br/>\n"
return html
def parse_file(file_name):
tiles = []
with open(file_name) as f:
num_lines = int(f.readline())
for i in range(num_lines):
line = [int(tile) for tile in f.readline().split(' ')]
tiles.append(line)
return Board(tiles)
def optimum_move(board: Board, opponent_move, player_move, cur_move):
available_spots = board.empty_fields()
if board.winning(opponent_move):
return Move(None, -10) # when computer loses -> move.score = -10
elif board.winning(player_move):
return Move(None, 10) # when computer wins -> move.score = 10
elif len(available_spots) == 0:
return Move(None, 0) # when there is no more fields -> tie
moves = []
for i in range(0, len(available_spots)):
index = available_spots[i]
board = board.put(available_spots[i][0], available_spots[i][1],
cur_move) # simulation
if cur_move == player_move:
result = optimum_move(board, opponent_move, player_move,
opponent_move)
else:
result = optimum_move(board, opponent_move, player_move,
player_move)
board = board.put(available_spots[i][0], available_spots[i][1],
0) # back to previous state
moves.append(Move(
index, result.score)) # creating a list of potential best moves
# choosing best move for current player
if cur_move == player_move:
best_score = -inf
for i in range(0, len(moves)):
if moves[i].score > best_score:
best_score = moves[i].score
best_move = i
else:
best_score = inf
for i in range(0, len(moves)):
if moves[i].score < best_score:
best_score = moves[i].score
best_move = i
return moves[best_move]
def board(self):
threshold = GlobalProperties.histeresis
board = sr.get_state()
r = 0 # repeat - how many times was this state
while not _is_valid(board, self.board_size) or r < threshold:
pboard = board
board = sr.get_state()
if diff(pboard, board)[0] == 0:
r += 1
else:
r = 0
return Board(board)
def update_board(id):
board = Board.get_or_none(Board.id == id)
if not board:
return jsonify({'message': 'ERROR', 'result': None}), 404
board.name = request.json.get('name')
board.description = request.json.get('description')
board.image = request.json.get('image')
board.linkedin = request.json.get('linkedin')
board.position = request.json.get('position')
board.save()
return jsonify({'message': 'OK', 'result': board})
def main():
if not 2 <= len(sys.argv) <= 3:
usage()
sys.exit(-1)
with open(sys.argv[1]) as f:
b_in = Board.from_file(f)
if len(sys.argv) == 3:
with open(sys.argv[2]) as f:
b_exp = Board.from_file(f)
else:
b_exp = None
print '\nInput:\n\n', b_in, '\n'
solve_board(b_in)
print '\nSolution:\n\n', b_in, '\n'
if b_exp:
assert b_in == b_exp, 'board does not match expected result'
def post(self):
user = users.get_current_user()
if user:
key_user = ndb.Key(User, user.email())
user_details = key_user.get()
board = Board()
board.boardTitle = self.request.get('title').strip()
board.owner = user.email()
board.users.append(user_details)
boardKey = board.put()
boardKeyId = boardKey.get().key.id()
if user_details:
if user_details.boards: key_dict = user_details.boards
else: key_dict = {}
key_dict[boardKeyId] = boardKey.urlsafe()
userModel = User(key=key_user, boards=key_dict, email=user.email())
userModel.put()
self.add_message('Task Board created successfully.', 'success')
self.redirect('/boards', abort=False)
return
else:
self.redirect('/', abort=False)
def play_game(ngames=100):
verbose = ngames == 1
cost_of_hut = 0.05
cost_of_station = 3
ntrees = 9
ngardens = 3
ncurses = 3
"""
IDEAL GAME SCENARIOS:
selfish vs. selfish: RARELY WIN
selfish vs. default: MOSTLY WIN -> SELFISH
selfish vs. generous: ALWAYS WIN -> SELFISH
generous vs. generous: RARELY WIN
"""
player_types = ["reasonable", "reasonable"] #
# player_types = ["default", "generous"] #
# player_types = ["super-selfish", "super-selfish"] #
# player_types = ["selfish", "reasonable"] #
# player_types = ["selfish", "selfish"] #
# player_types = ["reasonable", "selfish"] #
# player_types = ["selfish", "super-selfish"] #
# player_types = ["super-selfish", "reasonable"] #
# player_types = ["super-selfish", "generous"] #
# player_types = ["selfish", "default"] # 8/10, all S
# player_types = ["selfish", "generous"] # 5/10, all S
# player_types = ["generous", "generous"] # 0/10
# player_types = ["reasonable", "reasonable"] # 0/10
board = Board((6, 6), {
"hut": cost_of_hut,
"station": cost_of_station
},
ntrees=ntrees)
deck = Deck({"garden": ngardens, "curse": ncurses})
g = Game(board, deck, verbose=verbose)
ps = get_players(player_types)
ss = []
ws = []
for i in xrange(ngames):
status, winner = g.play(ps, print_end_status=False)
ss.append(status)
ws.append(winner)
g.reset()
import collections
print '=================='
print collections.Counter(ws)
print collections.Counter(ss)
def get(self, id=None):
user = users.get_current_user()
ex_user = True
board = []
cmpTask = []
actTask = []
cmpToday = []
taskLen = []
if user:
url = users.create_logout_url(self.request.uri)
url = url.split("board")[0]+"boards"
url_string = "Logout"
key_user = ndb.Key(User, user.email())
if not key_user.get():
userModel = User(key=key_user, email=user.email())
userModel.put()
ex_user = False
board = Board.get_by_id(int(id))
if board:
if board.tasks:
taskLen = board.tasks
for task in board.tasks:
if task.status == "not completed":
actTask.append(task.status)
if task.status == "completed":
cmpTask.append(task.status)
if datetime.now().date() == task.completionDate.date():
cmpToday.append(task.status)
else:
url = users.create_login_url(self.request.uri)
url_string = "Login"
template_values = {
"messages": self.messages,
"url": url,
"url_string": url_string,
"user": user,
"ex_user": ex_user,
"board_url": "board/"+id,
"key_board": id,
"board": board,
"taskLen": len(taskLen),
"cmpTask": len(cmpTask),
"actTask": len(actTask),
"cmpToday": len(cmpToday)
}
template = JINJA_ENVIRONMENT.get_template("/TaskManagement/taskboard.html")
self.response.write(template.render(template_values))
def start():
print("Waiting for other players")
message = s.recv(10240)
print(message.decode())
view = View()
while True:
data = s.recv(10240)
new_game = pickle.loads(data)
view.print_board(new_game)
print("waiting for oponent move")
data = s.recv(10240)
new_game = pickle.loads(data)
view.print_board(new_game)
while True:
column_number = Board.take_number_from_user('column')
row_number = Board.take_number_from_user('row')
lista = [column_number, row_number]
print(lista)
data = pickle.dumps(lista)
s.send(data)
message = s.recv(10240).decode()
if (message != "This field is already occupied"):
if (message == "draw"):
print("Draw")
return
elif (message == "won"):
print("You won")
return
else:
break
else:
print("This field is already occupied")
def get_board_stats(self, project_name: str, board_name: str) -> Task:
board_data = self._get_board(project_name, board_name)
board = Board(project_name, board_name)
for column in board.columns:
tasks = create_tasks_from_dict(column.tasks)
board.add_column(column['title'], tasks)
# tasks = list()
# for project in my_dashboard:
# task = Task(project['project_name'], project['title'], project['priority'], project['column_name'],
# project['assignee_username'], project['date_due'])
# tasks.append(task)
#
# if printable:
# table = self.get_summary_tasks(tasks)
# print(table)
#
# return tasks
pass
def get(self):
tName = self.request.get("name")
board_url = self.request.get("board_url")
keyconcat = tName.lower().strip()+'/'+self.request.get("key_board")
key_name = ndb.Key(Task, keyconcat)
taskDel = key_name.get()
if taskDel:
taskDel.key.delete()
boardDel = Board.get_by_id(int(self.request.get("key_board")))
for i in range(0,len(boardDel.tasks)):
if str(boardDel.tasks[i].taskTitle.lower()).strip() == tName.lower().strip():
boardDel.tasks.pop(i)
break
boardDel.put()
self.add_message('Task Deleted successfully.', 'success')
else:
boardDel = Board.get_by_id(int(self.request.get("key_board")))
for i in range(0,len(boardDel.tasks)):
if str(boardDel.tasks[i].taskTitle.lower()).strip() == tName.lower().strip():
boardDel.tasks.pop(i)
break
boardDel.put()
self.add_message('Task not found in database.', 'danger')
self.redirect(str(board_url), abort=False)
def post(self):
board_url = self.request.get("board_url")
keyconcat = self.request.get("taskName").lower().strip()+'/'+self.request.get("key_board")
key_name = ndb.Key(Task, keyconcat)
if not key_name.get():
task = Task(key=key_name)
task.taskTitle = self.request.get("taskName").lower().strip()
task.dueDate = datetime.strptime(self.request.get("dueDate"), '%Y-%m-%d')
task.description = self.request.get("description")
task.status = self.request.get("status")
task.assignee = self.request.get("assignee")
task.put()
board = Board.get_by_id(int(self.request.get("key_board")))
board.tasks.append(key_name.get())
board.put()
self.add_message('Task Created successfully.', 'success')
else:
self.add_message('Task with same task name already exists.', 'danger')
self.redirect(str(board_url), abort=False)
def get(self, id=None):
user = users.get_current_user()
board = Board.get_by_id(int(id))
board_url = self.request.get("board_url")
form_url = '/board/{}'.format(id)
if board:
if len(board.users) == 1 and len(board.tasks) == 0 and user.email() == board.users[0].email.strip():
key_user = ndb.Key(User, user.email())
user_details = key_user.get()
if user_details:
if user_details.boards != None:
del user_details.boards[str(id)]
user_details.put()
board.key.delete()
self.add_message('Board deleted successfully.', 'success')
self.redirect('/boards', abort=False)
else:
self.add_message('Please remove all the tasks and users in order to delete this board', 'danger')
self.redirect(form_url, abort=False)
else:
self.add_message('Board not found in database.', 'danger')
self.redirect(form_url, abort=False)
def post(self):
user = users.get_current_user()
board_url = self.request.get("board_url")
if user:
board = Board.get_by_id(int(self.request.get("key_board")))
user_email_key = ndb.Key(User, str(self.request.get("email_id").strip()))
invited_user = user_email_key.get()
if invited_user:
if invited_user.boards:
board_dict = invited_user.boards
else:
board_dict = {}
board_dict[board.key.id()] = board.key.urlsafe()
invited_user.boards = board_dict
invited_user.put()
existing_u = []
for addedUser in board.users:
existing_u.append(addedUser.email.strip())
if invited_user.key.id().strip() not in existing_u:
board.users.append(invited_user)
board.put()
self.add_message('User invited successfully.', 'success')
self.redirect(str(board_url), abort=False)
else:
self.add_message('User already invited.', 'danger')
self.redirect(str(board_url), abort=False)
return
else:
self.add_message('User not found.', 'danger')
self.redirect(str(board_url), abort=False)
return
else:
self.add_message('Not authorized.', 'danger')
self.redirect('/', abort=False)
return
def main():
# get players
player1, player2 = initialisePlayer()
# build board
boardConfig = {
"size": initialiseBoard()
# "size": 5
}
board = Board(**boardConfig)
gameController = GameController(board)
# reset
gameController.resetBoard()
gameController.printBoard()
# build battleship and place
ships = initialiseShip()
for ship in ships:
gameController.place(Battleship(**ship))
gameController.printBoard()
# player attacks
print(gameController.attack(**playerAttack()))
gameController.printBoard()
if row == 4:
return (Board.FIFTH_ROW_TOP_BORDER + Board.FIFTH_ROW_BOTTOM_BORDER) / 2
if row == 5:
return (Board.SIXTH_ROW_TOP_BORDER + Board.SIXTH_ROW_BOTTOM_BORDER) / 2
# Initializes the pygame modules
pygame.init()
# The window of the game
display = pygame.display.set_mode((0, 0), pygame.FULLSCREEN)
display_width, display_height = pygame.display.get_surface().get_size()
pygame.display.set_caption('ConnectFour')
# Initialize the board and discs
board = Board.Board(display_width, display_height)
disc_array = [
Disc.Disc("Red") if i % 2 == 0 else Disc.Disc("Yellow") for i in range(42)
]
for disc in disc_array:
disc.x = (Board.FIRST_COLUMN_LEFT_BORDER +
Board.FIRST_COLUMN_RIGHT_BORDER) / 2
disc.y = Board.TOP_BOARD_SPACE - Disc.DISC_PIXEL_DIAMETER / 2 - 5
disc_used_array = []
move = (0, 0)
row_position = None
# Disc number in the array
disc_number = 0
# Create a scoreboard and set its position to the right of the board
def deserialize_board(self, string):
board_export = self.string_to_array(string)
board = Board()
board.from_export(board_export)
return board
