def main():
s = get_server_socket()
try:
### endless loop, for multiple linear games
while True:
print ('Waiting for a player...')
(clientsocket, address) = s.accept() # blocking line
print ('New player came from {0}\n'.format(address))
clientsocket.sendall("Tic Tac Toe server greeting you!\nYou are Welcome!")
gf = copy.deepcopy(ttc.GAME_FIELD)
### one game, loop until winner or disconnect
while True:
#B get user's turn
try:
print("Wait for user's turn...")
user_step = ttc.get_msg_from_socket(clientsocket, exception=True, ex=False)
except Exception as exp:
ttc.d(exp)
break;
# validate step #
step_check = {}
ttc.d("user raw turn: {}".format(user_step))
#user_turn_json_index = ttc.convert_json_turn_human_to_machine(user_step)
#ttc.d("user turn in term of indexes: {}".format(user_turn_json_index))
# thus, if True -> error = False
step_check["error"] = not ttc.is_step_correct(user_step, gf)
if not step_check["error"]:
ttc.apply_turn(user_step, gf, ttc.USER_RAW_STEP)
step_check["winner"] = get_winner(gf)
ttc.print_game_field(gf)
else:
step_check["winner"] = 0
#B answer, is step correct #
step_check_str = json.dumps(step_check)
ttc.d("I will send: {0}".format(step_check_str))
clientsocket.sendall(step_check_str)
time.sleep(0.1)
# if an error occured earlier -- get new answer from user
if True == step_check["error"] or 0 != step_check["winner"]:
continue;
# do server step #
ttc.d("proceed server turn")
server_step_dict = do_server_step(gf)
ttc.d("server step: {}".format(server_step_dict))
ttc.apply_turn(json.dumps(server_step_dict), gf, ttc.SERVER_RAW_STEP)
# check for winners
server_step_dict["winner"] = get_winner(gf)
server_step_dict["error"] = False
#B send server turn with winner result
clientsocket.sendall( json.dumps(server_step_dict) )
ttc.print_game_field(gf)
except KeyboardInterrupt as exp:
print ("\nShutting down... {0}".format(exp))
except Exception as exp:
print("Sorry, but: {0}".format(exp))
except:
print("Unexpected error:", sys.exc_info()[0])
try:
clientsocket.close()
s.close()
except Exception as exp:
# not an error on most cases
ttc.d("may be you will be interested, but {0}".format(exp))
sys.exit(0)
def main():
s = ttc.get_client_socket()
try:
# Recebe mensagem de olá
hello_msg = ttc.get_msg_from_socket(s)
print("\n{0}\n".format(hello_msg))
print('''
Você é a cruz/o xis (X).
Entre com as coordenadas, onde você deseja colocar o X.
Exemplo, canto do topo a esquerda será (0, 0).
No seguinte formato: <numero> <numero> <aperte Enter>
''')
gf = copy.deepcopy(ttc.GAME_FIELD)
ttc.print_game_field(gf)
### Loop do jogo até ter um ganhador ou CTRL+C
while True:
#Pega a jogada do usuário
turn_json = ttc.get_turn_from_user(gf)
#Manda a jogada ao servidor
s.sendall(turn_json.encode(encoding='utf-8'))
#Pega a resposta do servidor sobre a jogada do usuario
res = ttc.get_msg_from_socket(s, exception=False, ex=True)
# se for um erro, pergunta a jogada normalmente
if is_error_in_answer(res):
print(
"Servidor não está gostando da resposta, tente de novo.\n")
continue
else:
ttc.apply_turn(turn_json, gf, ttc.USER_RAW_STEP)
ttc.print_game_field(gf)
# Procura por ganhadores, se tiver um o jogo termina
handle_winner_variable(res)
#Pega a jogada do servidor
print("Esperando a resposta do servidor...")
server_step = ttc.get_msg_from_socket(s)
ttc.d("server step: {0}\n".format(server_step))
ttc.apply_turn(server_step, gf, ttc.SERVER_RAW_STEP)
handle_winner_variable(server_step)
ttc.print_game_field(gf)
except KeyboardInterrupt as k:
print("\nDesligando... {0}".format(k))
except Exception as exp:
print(": {0}".format(exp))
ttc.print_game_field(gf)
except:
print("Erro inesperado:", sys.exc_info()[0])
s.close()
sys.exit(0)
def main():
s = ttc.get_client_socket()
try:
# get hello
hello_msg = ttc.get_msg_from_socket(s)
print("\n{0}\n".format(hello_msg))
print('''
You are a cross (X).
Enter coordinats, where to put next cross.
Suppose, left top corner is (0, 0).
Input in format: <int> <int> <hit Return>
''')
gf = copy.deepcopy(ttc.GAME_FIELD)
ttc.print_game_field(gf)
### loop for a game, untill winner or ^C
while True:
#B get a step from user
turn_json = ttc.get_turn_from_user(gf)
#B send step to the server
s.sendall(turn_json.encode('utf-8'))
#B get server answer about user step
res = ttc.get_msg_from_socket(s, exception=False, ex=True)
# if error - ask step again
if is_error_in_answer(res):
print(
"Ou, server not pleasent about your answer, try again.\n")
continue
else:
ttc.apply_turn(turn_json, gf, ttc.USER_RAW_STEP)
ttc.print_game_field(gf)
# check for winners in the answer, if exist any - game ends.
handle_winner_variable(res)
#B get server step
print("Wait for server response...")
server_step = ttc.get_msg_from_socket(s)
ttc.d("server step: {0}\n".format(server_step))
ttc.apply_turn(server_step, gf, ttc.SERVER_RAW_STEP)
handle_winner_variable(server_step)
ttc.print_game_field(gf)
except KeyboardInterrupt as k:
print("\nShutting down... {0}".format(k))
except Exception as exp:
print(": {0}".format(exp))
ttc.print_game_field(gf)
except:
print("Unexpected error:", sys.exc_info()[0])
s.close()
sys.exit(0)
def main():
s = get_server_socket()
try:
### endless loop, for multiple linear games
while True:
print ('Waiting for a player...')
(clientsocket, address) = s.accept() # blocking line
print ('New player came from {0}\n'.format(address))
clientsocket.sendall("Tic Tac Toe server greeting you!\nYou are Welcome!")
gf = copy.deepcopy(ttc.GAME_FIELD)
### one game, loop until winner or disconnect
while True:
#B get user's turn
try:
print("Wait for user's turn...")
user_step = ttc.get_msg_from_socket(clientsocket, exception=True, ex=False)
except Exception as exp:
ttc.d(exp)
ttc.d("\n" + 40*"=" + "\n")
break;
# validate step #
step_check = {}
ttc.d("user raw turn: {}".format(user_step))
#user_turn_json_index = ttc.convert_json_turn_human_to_machine(user_step)
#ttc.d("user turn in term of indexes: {}".format(user_turn_json_index))
# thus, if True -> error = False
step_check["error"] = not ttc.is_step_correct(user_step, gf)
if not step_check["error"]:
ttc.apply_turn(user_step, gf, ttc.USER_RAW_STEP)
step_check["winner"] = get_winner(gf)
ttc.print_game_field(gf)
else:
step_check["winner"] = 0
#B answer, is step correct #
step_check_str = json.dumps(step_check)
ttc.d("I will send: {0}".format(step_check_str))
clientsocket.sendall(step_check_str)
time.sleep(0.1)
# if an error occured earlier -- get new answer from user
if True == step_check["error"] or 0 != step_check["winner"]:
continue;
# do server step #
ttc.d("proceed server turn")
server_step_dict = do_server_step(gf)
ttc.d("server step: {}".format(server_step_dict))
ttc.apply_turn(json.dumps(server_step_dict), gf, ttc.SERVER_RAW_STEP)
# check for winners
server_step_dict["winner"] = get_winner(gf)
server_step_dict["error"] = False
#B send server turn with winner result
clientsocket.sendall( json.dumps(server_step_dict) )
ttc.print_game_field(gf)
except KeyboardInterrupt as exp:
print ("\nShutting down... {0}".format(exp))
except Exception as exp:
print("Sorry, but: {0}".format(exp))
except:
print("Unexpected error:", sys.exc_info()[0])
try:
clientsocket.close()
s.close()
except Exception as exp:
# not an error on most cases
ttc.d("may be you will be interested, but {0}".format(exp))
sys.exit(0)
def main():
s = ttc.get_client_socket()
try:
# get hello
hello_msg = ttc.get_msg_from_socket(s)
print("\n{0}\n".format(hello_msg))
print('''
You are a cross (X).
Enter coordinats, where to put next cross.
Suppose, left top corner is (0, 0).
Input in format: <int> <int> <hit Return>
''')
gf = copy.deepcopy(ttc.GAME_FIELD)
ttc.print_game_field(gf)
### loop for a game, untill winner or ^C
while True:
#B get a step from user
turn_json = ttc.get_turn_from_user(gf)
#B send step to the server
s.sendall(turn_json)
#B get server answer about user step
res = ttc.get_msg_from_socket(s, exception=False, ex=True)
# if error - ask step again
if is_error_in_answer(res):
print("Ou, server not pleasent about your answer, try again.\n")
continue;
else:
ttc.apply_turn(turn_json, gf, ttc.USER_RAW_STEP)
ttc.print_game_field(gf)
# check for winners in the answer, if exist any - game ends.
handle_winner_variable(res)
#B get server step
print("Wait for server response...")
server_step = ttc.get_msg_from_socket(s)
ttc.d("server step: {0}\n".format(server_step))
ttc.apply_turn(server_step, gf, ttc.SERVER_RAW_STEP)
handle_winner_variable(server_step)
ttc.print_game_field(gf)
except KeyboardInterrupt as k:
print ("\nShutting down... {0}".format(k))
except Exception as exp:
print(": {0}".format(exp))
ttc.print_game_field(gf)
except:
print("Unexpected error:", sys.exc_info()[0])
s.close()
sys.exit(0)
def main():
s = get_server_socket()
try:
### Loop infinito para multiplos jogos
while True:
print('Esperando um jogador...')
(clientsocket, address) = s.accept() # bloqueio de linha aqui
print('Novo jogador vindo de {0}\n'.format(address))
clientsocket.sendall(
"Servidor de Jogo da velha!\nSeja bem vindo!".encode(
encoding='UTF-8'))
gf = copy.deepcopy(ttc.GAME_FIELD)
### um jogo, loop termina caso haja um vencedor
while True:
#Pega a jogada do usuário
try:
print("Esperando o turno do usuario")
user_step = ttc.get_msg_from_socket(clientsocket,
exception=True,
ex=False)
except Exception as exp:
ttc.d(exp)
ttc.d("\n" + 40 * "=" + "\n")
break
#valida jogada#
step_check = {}
ttc.d("user raw turn: {}".format(user_step))
step_check["error"] = not ttc.is_step_correct(user_step, gf)
if not step_check["error"]:
ttc.apply_turn(user_step, gf, ttc.USER_RAW_STEP)
step_check["winner"] = get_winner(gf)
ttc.print_game_field(gf)
else:
step_check["winner"] = 0
#B resposta se a jogada está correta #
step_check_str = json.dumps(step_check)
ttc.d("I will send: {0}".format(step_check_str))
clientsocket.sendall(step_check_str.encode(encoding='UTF-8'))
time.sleep(0.1)
# se ocorrer um erro pede uma nova resposta do usuário
if True == step_check["error"] or 0 != step_check["winner"]:
continue
# Jogada do servidor#
ttc.d("proceed server turn")
server_step_dict = do_server_step(gf)
ttc.d("server step: {}".format(server_step_dict))
ttc.apply_turn(json.dumps(server_step_dict), gf,
ttc.SERVER_RAW_STEP)
# Valida se há algum ganhador
server_step_dict["winner"] = get_winner(gf)
server_step_dict["error"] = False
#B manda a jogada do servidor com a resposta de quem venceu
clientsocket.sendall(
json.dumps(server_step_dict).encode(encoding='UTF-8'))
ttc.print_game_field(gf)
except KeyboardInterrupt as exp:
print("\nDesligando... {0}".format(exp))
except Exception as exp:
print("Desculpas, mas: {0}".format(exp))
except:
print("Erro inesperado:", sys.exc_info()[0])
try:
clientsocket.close()
s.close()
except Exception as exp:
# Não é um erro mas...
ttc.d("Você podera se interessar, mas {0}".format(exp))
sys.exit(0)