def setUp(self):
self.deck = generateDeck()
self.dealer = Player('DEALER', True)
self.playerOne = Player('Kevin', False)
self.normalCard = Card('Three of Hearts', 3)
self.faceCard = Card('King of Diamonds', 10)
self.ace = Card('Ace of Spades', [1, 11])
def button_play_command(self):
"""
When the button play (or ready is press)
:return: None
"""
if self.is_server:
if self.player_2_is_connected:
if self.player_2_is_ready:
self.export_last_game_settings()
self.ui.server.send_message_to_all(Server.encode_message(MESSAGE_PLAY))
self.ui.change_panel(
ServerGamePanel.ServerGamePanel,
player_1=Player.Player(TokenState.Player_1, self.players_tokens[0],
self.players_entry_string_variable[0].get()),
player_2=Player.Player(TokenState.Player_2, self.players_tokens[1],
self.players_entry_string_variable[1].get()),
is_server=self.is_server
)
else:
self.player_1_want_to_start()
else:
self.set_player_2_ready(not self.player_2_is_ready)
self.ui.client.send_message(Server.encode_message(PARAMETER_SEPARATOR.join((MESSAGE_SEND_READY,
str(self.player_2_is_ready)))))
def test_add_player(self):
player = Player("Franco")
self.billboard.add_player(player)
self.assertEqual(self.billboard.get_players_name(), ['Franco'])
player = Player("Francois")
self.billboard.add_player(player)
self.assertEqual(self.billboard.get_players_name(),
['Franco', 'Francois'])
def test_add(capsys):
main = Main()
main.add_player("Carl")
out, err = capsys.readouterr()
assert ((Player("Carl", "b") in main.players)
or (Player("Carl", "y") in main.players))
assert ("Added: Player(name='Carl', color='y')\n" == out
or "Added: Player(name='Carl', color='b')\n" == out)
def test_random_color_negative():
main = Main()
main.players = {
Player("Alice", "g"),
Player("Bob", "r"),
Player("Carl", "y"),
Player("Donna", "b")
}
with pytest.raises(IndexError):
main.random_color()
def client_on_message(self, message):
"""
When the client receive a message
:param message: The message receive
:return: None
"""
messages = Server.Server.decode_message(message)
for message in messages:
message = message.split('_')
if message[0] == MESSAGE_NEED_STATE:
self.client_send_player_name()
self.client_send_token()
elif message[0] == MESSAGE_SEND_NAME_SELECTED:
self.players_entry_string_variable[0].set(message[1])
self.name_string_var_trace_write(False)
elif message[0] == MESSAGE_SEND_TOKEN_SELECTED:
try:
# noinspection PyTypeChecker
self.players_tokens[
self.opponent_id] = TokenStyle.TokenStyle(
int(message[1]))
self.players_tokens_images[self.opponent_id] = \
self.ui.image_getter.save_token_photos[self.opponent][self.players_tokens[self.opponent_id]]
self.players_tokens_labels[self.opponent_id].config(
image=self.players_tokens_images[self.opponent_id])
except ValueError:
pass
elif message[0] == MESSAGE_PLAYER_1_WANT_START:
self.player_1_want_to_start()
elif message[0] == MESSAGE_PLAY:
game = Game.Game(
first_player=(TokenState.Player_2,
TokenState.Player_1)[message[1] == "1"])
self.export_last_game_settings()
self.ui.change_panel(
ServerGamePanel.ServerGamePanel,
player_1=Player.Player(
TokenState.Player_1, self.players_tokens[0],
self.players_entry_string_variable[0].get()),
player_2=Player.Player(
TokenState.Player_2, self.players_tokens[1],
self.players_entry_string_variable[1].get()),
is_server=self.create_game,
game=game)
def test_no_add(capsys):
main = Main()
main.players = {
Player("Alice", "g"),
Player("Bob", "r"),
Player("Carl", "y"),
Player("Donna", "b")
}
main.add_player("Eric")
out, err = capsys.readouterr()
assert "Can't have more than 4 players\n" == out
def gameLoop():
time.sleep(1)
game_exit = False
tictactoe = TicTacToe()
points = (((300, 25), (300, 575)), ((500, 25), (500, 575)),
((125, 200), (675, 200)), ((125, 400), (675, 400)))
qplayer = QPlayer('o', q_path='pretrained_model.npy')
curr_turn = 'o'
player = Player()
global clicked
while not game_exit:
game_display.fill(white)
for event in pygame.event.get():
if event.type == pygame.QUIT:
quitGame()
if tictactoe.terminal:
if tictactoe.winning != 0:
time.sleep(2)
terminalScreen(tictactoe.winning)
for start, end in points:
pygame.draw.line(game_display, black, start, end, 8)
if curr_turn == 'o':
action = qplayer.choose(tictactoe, False)
tictactoe.update(action, 'o', False)
else:
position = 0
for i in [4, 204, 404]:
for j in [104, 304, 504]:
if player.validMove(position, tictactoe.board):
button('', j, i, 192, 192, white, white, human_move, {
'position': position,
'tictactoe': tictactoe
})
position += 1
position = 0
for i in [4, 204, 404]:
for j in [104, 304, 504]:
curr_pos = tictactoe.board[position]
if curr_pos == 'o':
game_display.blit(circle_image, (j + 49, i + 49))
elif curr_pos == 'x':
game_display.blit(cross_image, (j + 49, i + 49))
position += 1
if (clicked and curr_turn == 'x') or curr_turn == 'o':
curr_turn = 'o' if curr_turn == 'x' else 'x'
clicked = False
pygame.display.update()
clock.tick(15)
def test_winner():
alice = Player("Alice", "g")
bob = Player("Bob", "r")
game = Game([alice, bob])
game.board.move_piece(Piece("g", 1, Field("A", color="g")),
Field("B1", "g"))
game.board.move_piece(Piece("g", 2, Field("A", color="g")),
Field("B2", "g"))
game.board.move_piece(Piece("g", 3, Field("A", color="g")),
Field("B3", "g"))
game.board.move_piece(Piece("g", 4, Field("A", color="g")),
Field("B4", "g"))
assert game.has_winner()
def test_buy_card_valid(self):
player = Player("Name", 100)
initialBudget = player.getBudget()
card = YuGiOhMaster.getCardByName("Blue-Eyes White Dragon")
player.buyCard("Blue-Eyes White Dragon")
self.assertEqual(
player.getBudget(),
float(initialBudget) - float(card["card_prices"]["ebay_price"]))
self.assertEqual(len(player.getDeck()), 1)
self.assertEqual(len(player.getTransactions()), 1)
def __init__(self,
master,
ui,
is_server=False,
player_1=Player.Player(TokenState.TokenState.Player_1,
TokenStyle.TokenStyle.Blue),
player_2=Player.Player(TokenState.TokenState.Player_2,
TokenStyle.TokenStyle.Green),
game=Game.Game()):
"""
Constructor
"""
super().__init__(master,
ui,
player_1,
player_2,
game,
disable_end_button=not is_server)
self.is_server = is_server
if self.is_server:
self.button_main_menu.configure(
text=self.ui.translation.get_translation("quit"))
# Set server functions
self.ui.server.on_message_function = self.server_on_message
self.ui.server.on_client_connect_function = self.server_on_client_connect_function
self.ui.server.on_client_disconnect_function = self.server_on_client_disconnect_function
else:
tkinter.tix.Label(self.win_text_frame,
text=self.ui.translation.get_translation(
"server_game_wait_host")).grid(row=1,
column=0)
# Set client functions
self.ui.client.on_message_function = self.client_on_message
self.ui.client.on_connection_function = self.client_on_connection_function
self.ui.client.on_disconnection_function = self.client_on_disconnection_function
def __init__(self, master, ui, is_server=False,
player_1=Player.Player(TokenState.TokenState.Player_1, TokenStyle.TokenStyle.Blue),
player_2=Player.Player(TokenState.TokenState.Player_2, TokenStyle.TokenStyle.Green),
game=None):
"""
Constructor
"""
super().__init__(master, ui, player_1, player_2, game, disable_end_button=not is_server)
self.is_server = is_server
self.button_syn = tkinter.tix.Button(
self, image=self.ui.image_getter.syn_icon, command=self.button_syn_command)
self.button_syn.place(relx=1., rely=0., x=0, y=0, anchor=tkinter.N + tkinter.E)
self.button_syn_lock = False
if self.is_server:
self.after(100, lambda: self.ui.server.send_message_to_all(Server.encode_message(
PARAMETER_SEPARATOR.join((MESSAGE_SET_TURN, str(self.game.current_turn.value))))))
self.button_main_menu.configure(
text=self.ui.translation.get_translation("quit"), command=self.button_back_dialog_command
)
# Set server functions
self.ui.server.on_message_function = self.server_on_message
self.ui.server.on_client_connect_function = self.server_on_client_connect_function
self.ui.server.on_client_disconnect_function = self.server_on_client_disconnect_function
else:
tkinter.tix.Label(
self.win_text_frame,
text=self.ui.translation.get_translation("server_game_wait_host")
).grid(row=1, column=0)
# Set client functions
self.ui.client.on_message_function = self.client_on_message
self.ui.client.on_connection_function = self.client_on_connection_function
self.ui.client.on_disconnection_function = self.client_on_disconnection_function
def button_play_command(self):
"""
When the button play (or ready is press)
:return: None
"""
if self.create_game:
if self.player_2_is_connected:
if self.player_2_is_ready:
self.export_last_game_settings()
self.ui.change_panel(
ServerGamePanel.ServerGamePanel,
player_1=Player.Player(
TokenState.Player_1, self.players_tokens[0],
self.players_entry_string_variable[0].get()),
player_2=Player.Player(
TokenState.Player_2, self.players_tokens[1],
self.players_entry_string_variable[1].get()),
is_server=self.create_game,
game=Game.Game(
first_player=random.choice((TokenState.Player_1,
TokenState.Player_2))))
self.ui.server.send_message_to_all(
Server.Server.encode_message('_'.join(
(MESSAGE_PLAY,
str(self.ui.current_panel.game.current_turn.value)
))))
else:
self.player_1_want_to_start()
else:
self.set_player_2_ready(not self.player_2_is_ready)
self.ui.client.send_message(
Server.Server.encode_message('_'.join(
(MESSAGE_SEND_READY, str(self.player_2_is_ready)))))
def test_remove(capsys):
main = Main()
main.players = {
Player("Alice", "g"),
Player("Bob", "r"),
Player("Carl", "y"),
Player("Donna", "b")
}
main.remove_player("Donna")
out, err = capsys.readouterr()
assert "Removed: Player(name='Donna', color='b')\n" == out
assert {Player("Alice", "g"),
Player("Bob", "r"),
Player("Carl", "y")} == main.players
def add_player(session, team_id_in, jersey_num, first_name_in, last_name_in,
mpg_in, ppg_in, rpg_in, apg_in, spg_in, bpg_in):
from main import State, Team, Color, Player
new_player = Player(team_id=int(team_id_in),
uniform_num=int(jersey_num),
first_name=first_name_in,
last_name=last_name_in,
mpg=int(mpg_in),
ppg=int(ppg_in),
rpg=int(rpg_in),
apg=int(apg_in),
spg=float(spg_in),
bpg=float(bpg_in))
session.add(new_player)
session.commit()
return
def test1():
llist = CircularLinkedList([Player('name', 'username'), Player('name1','username1')])
player = llist.head
player.data.add_word('lol')
from main import Player
import json
import pickle
obj = Player("frank", "1", [0, 2, 1, 0], 7, [])
list = [1, 2, 34, 54, 5, 48]
dict = {"key": "value", "tuber": 3}
with open("testsave.json", "w") as f:
json.dump([obj.__dict__, obj.__dict__], f)
f.close()
with open("testsave.json", "r") as f:
jsondata = json.load(f)
print(jsondata)
f.close()
with open('testpickle.dat', 'wb') as f:
pickle.dump([obj, list, dict], f)
with open('testpickle.dat', 'rb') as f:
newplayer, newlist, newdict = pickle.load(f)
print(newplayer)
print(newlist)
print(newdict)
def setUp(self):
self.player = Player()
def __init__(self, master, ui,
player_1=Player.Player(TokenState.TokenState.Player_1, TokenStyle.TokenStyle.Blue),
player_2=Player.Player(TokenState.TokenState.Player_2, TokenStyle.TokenStyle.Green),
game=Game.Game(), disable_end_button=False, delay=Preferences.DEFAULT_DELAY):
"""
Constructor
:param player_1: the player 1
:param player_2: the player 2
:param game: a link to the game
:param disable_end_button: if need to disable end buttons (for the client)
:param delay: the delay between click in ms
:param master: see Panel class
:param ui: see Panel class
"""
super().__init__(master, ui)
self.turn_text_format = self.ui.translation.get_translation("game_panel_turn_format")
self.win_text_format = self.ui.translation.get_translation("game_panel_win_format")
self.grid_canvas = tkinter.tix.Canvas(self)
self.grid_canvas.pack(expand=True, fill=tkinter.tix.BOTH)
self.after(500, lambda: self.grid_canvas.bind("<Button>", self.grid_canvas_on_click))
self.game = game
self.players = {
TokenState.TokenState.Player_1: player_1,
TokenState.TokenState.Player_2: player_2
}
self.token_square_size = 0
self.height_center = 0
self.width_center = 0
self.button_main_menu = tkinter.tix.Button(
self,
# text=self.ui.translation.get_translation("game_panel_main_menu_button"),
command=self.button_main_menu_command, image=self.ui.image_getter.door_exit_icon)
self.button_main_menu.place(x=0, y=0)
self.grid_image_create = []
self.turn_text_id = -1
self.turn_image_id = - 1
self.win_line_id = -1
self.win_icon_id = -1
self.win_icon_background_id = -1
self.win_text_frame = tkinter.tix.Frame(self, relief=tkinter.tix.RAISED, borderwidth=2)
self.win_text_label = tkinter.tix.Label(self.win_text_frame)
self.win_text_label.grid(row=0, column=0)
if not disable_end_button:
self.end_buttons_frame = tkinter.tix.Frame(self.win_text_frame)
self.end_buttons_frame.columnconfigure(0, weight=1)
self.end_buttons_frame.columnconfigure(1, weight=1)
self.end_buttons_frame.grid(row=1, column=0)
max_width = max(len(self.ui.translation.get_translation("back")),
len(self.ui.translation.get_translation("restart")),
len(self.ui.translation.get_translation("main_menu")))
self.button_main_menu_end = tkinter.tix.Button(
self.end_buttons_frame,
text=self.ui.translation.get_translation("main_menu"),
command=self.button_main_menu_command, width=max_width
)
self.button_main_menu_end.grid(row=0, column=0, sticky=tkinter.tix.NSEW, padx=5)
self.back_button = tkinter.tix.Button(
self.end_buttons_frame,
text=self.ui.translation.get_translation("back"),
command=self.button_back_command, width=max_width
)
self.back_button.grid(row=0, column=1, sticky=tkinter.tix.NSEW, padx=5)
self.restart_button = tkinter.tix.Button(
self.end_buttons_frame,
text=self.ui.translation.get_translation("restart"),
command=self.button_restart_command, width=max_width
)
self.restart_button.grid(row=0, column=2, sticky=tkinter.tix.NSEW, padx=5)
for x in range(0, self.game.grid_width):
self.grid_image_create.append([])
for y in range(0, self.game.grid_height):
self.grid_image_create[x].append(-1)
self.token_animation_list = []
self.delay = delay / 1000. # convert in second
self.last_click_time = time.time()
self.ai_turn_start_time = time.time()
self.ai_progress_bar = tkinter.ttk.Progressbar(self.grid_canvas, orient=tkinter.tix.HORIZONTAL,
mode='determinate')
self.ai_progress_bar_show = False
def test():
# Test all of the possible outcomes of a comparison
pool=['r', 'a', 'c', 'd', 'x', 'z']
# Comparison is valid
print("LUMEN -> NUMERAL: {}".format(compare("lumen", "numeral", pool))) # Returns ['r', 'a']
# No tiles from the pool are used
print("LISTEN -> SILENT: {}".format(compare("listen", "silent", pool))) # Returns []
# At least one letter does not show in test_word or in pool
print("ELITE -> ELICITED: {}".format(compare("elite", "elicited", pool))) # Returns []
# Not all of the letters in test_word are used
print("ULTIMATE -> LAME: {}".format(compare("ultimate", "lame", pool))) # Returns []
print()
print()
# Test adding and removing words and accessing class variables from Player
p1=Player("Carson")
p1.add_word("neat")
p1.add_word("epic")
p1.add_word("cool")
print("{}: {}".format(p1.name, p1.words))
print()
p2=Player("Chase")
p2.add_word("discombobulate")
p1.remove_word("cool")
print("{}: {}".format(p1.name, p1.words))
print("{}: {}".format(p2.name, p2.words))
print()
print()
llist=CircularLinkedList(['a', 'b', 'c', 'd', 'e'])
print(llist)
llist.add_node(Node('f'))
print(llist)
llist.remove_node(Node('b'))
print(llist)
print()
print()
llist2 = CircularLinkedList()
print(llist2)
llist2.add_node(Node('a'))
print(llist2)
llist2.add_node(Node('b'))
print(llist2)
class PlayerTestCase(unittest.TestCase):
def setUp(self):
self.player = Player()
def tearDown(self):
pass
def test_accelerate_successfulWithLowTemperatureAndVelocity(self):
oldVelocity = self.player.velocity
self.player.accelerate()
self.assertFalse(self.player.velocity == oldVelocity)
def test_accelerate_failsWhenMaxVelocityExceeded(self):
self.player.velocity += self.player.max_velocity
oldVelocity = self.player.velocity
self.player.accelerate()
self.assertTrue(self.player.velocity == oldVelocity)
def test_accelerate_failsWhenMaxTemperatureExceeded(self):
self.player.temperature += self.player.max_temperature
oldTemperature = self.player.temperature
self.player.accelerate()
self.assertTrue(self.player.temperature == oldTemperature)
def test_accelerate_temperatureUnchangedOnFailDueToExcessiveVelocity(self):
self.player.velocity = self.player.max_velocity+1
oldTemperature = self.player.temperature
self.player.accelerate()
self.assertTrue(self.player.temperature == oldTemperature)
def test_accelerate_temperatureUnchangedOnFailDueToExcessiveTemperature(self):
self.player.temperature = self.player.max_temperature+1
oldTemperature = self.player.temperature
self.player.accelerate()
self.assertTrue(self.player.temperature == oldTemperature)
def test_decelerate_successfulWithLowTemperatureAndVelocity(self):
oldVelocity = self.player.velocity
self.player.decelerate()
self.assertFalse(self.player.velocity == oldVelocity)
def test_decelerate_failsWhenMinVelocityExceeded(self):
self.player.velocity = self.player.min_velocity-1
oldVelocity = self.player.velocity
self.player.decelerate()
self.assertTrue(self.player.velocity == oldVelocity)
def test_decelerate_failsWhenMaxTemperatureExceeded(self):
self.player.temperature += self.player.max_temperature
oldTemperature = self.player.temperature
self.player.decelerate()
self.assertTrue(self.player.temperature == oldTemperature)
def test_decelerate_temperatureUnchangedOnFailDueToLowVelocity(self):
self.player.velocity = self.player.min_velocity-1
oldTemperature = self.player.temperature
self.player.decelerate()
self.assertTrue(self.player.temperature == oldTemperature)
def test_decelerate_temperatureUnchangedOnFailDueToExcessiveTemperature(self):
self.player.temperature = self.player.max_temperature+1
oldTemperature = self.player.temperature
self.player.decelerate()
self.assertTrue(self.player.temperature == oldTemperature)
def setUp(self):
self.billboard = BillBoard()
self.player1 = Player("Franco")
self.billboard.add_player(self.player1)
self.player2 = Player("Francois")
self.billboard.add_player(self.player2)
# font
font = pygame.font.Font(None, 40)
#opening the json file and loading all packages
with open("presets.json") as f:
packages = json.load(f)
#getting all characters from the chosen packages into one list
chosen_packages = ["Anime_Female"]
characters = []
for package in chosen_packages:
characters.extend(packages[package])
#replacing the raw names with objects of the class Player
for i in range(len(characters)):
characters[i] = Player(name=characters[i])
# mainloop-boolean
go = True
turn_ended = False
#creating window#
window = pygame.display.set_mode((WIDTH, HEIGHT), 0, 0)
window.fill(grass_green)
clock = pygame.time.Clock()
#Surfaceproperties
top_surface_properties = (WIDTH, HEIGHT * (1 / 5))
tile_size = (WIDTH * (1 / 3), HEIGHT * (4 / 5))
left_surface_properties = tile_size
middle_surface_properties = tile_size
def test_player_instantiation(self):
player = Player("Franco")
self.assertEqual(player.name, "Franco")
self.assertEqual(player.position, 0)
def test_rename(capsys):
main = Main()
main.rename_player("Alice", "Alex")
out, err = capsys.readouterr()
assert {Player("Alex", "g"), Player("Bob", "r")} == main.players
assert "Renamed: Player(name='Alice', color='g')\n" == out
def button_play_command(self):
"""
The command of the play button
:return: None
"""
self.export_last_game_settings()
if len(self.players_entry_string_variable[0].get().strip()) < 3:
tkinter.messagebox.showerror(
self.ui.translation.get_translation("configure_game_panel_dialog_name_blank_title"),
self.ui.translation.get_translation("configure_game_panel_dialog_name_blank_message").format("1")
)
return None
if len(self.players_entry_string_variable[1].get().strip()) < 3:
tkinter.messagebox.showerror(
self.ui.translation.get_translation("configure_game_panel_dialog_name_blank_title"),
self.ui.translation.get_translation("configure_game_panel_dialog_name_blank_message").format("2")
)
return None
if self.players_entry_string_variable[0].get().strip() == self.players_entry_string_variable[1].get().strip():
tkinter.messagebox.showerror(
self.ui.translation.get_translation("configure_game_panel_dialog_same_name_title"),
self.ui.translation.get_translation("configure_game_panel_dialog_same_name_message")
)
return None
if self.players_tokens[0] == self.players_tokens[1]:
if not tkinter.messagebox.askokcancel(
self.ui.translation.get_translation("configure_game_panel_dialog_same_token_title"),
self.ui.translation.get_translation("configure_game_panel_dialog_same_token_message")):
return None
game = Game.Game()
game.current_turn = random.choice((TokenState.Player_1, TokenState.Player_2))
if self.player_ai_choose_var[0].get():
player_1 = AIPlayer.AIPlayer(
self.ui.preference.get_preference(PREFERENCE_DIFFICULTY_DEPTH_LEVEL)[self.difficulty_selected_button],
self.ui.preference.get_preference(PREFERENCE_DIFFICULTY_ROUND_LEVEL)[self.difficulty_selected_button],
game, TokenState.Player_1,
self.players_tokens[0], self.players_entry_string_variable[0].get().strip())
else:
player_1 = Player.Player(TokenState.Player_1, self.players_tokens[0],
self.players_entry_string_variable[0].get().strip())
if self.player_ai_choose_var[1].get():
player_2 = AIPlayer.AIPlayer(
self.ui.preference.get_preference(PREFERENCE_DIFFICULTY_DEPTH_LEVEL)[self.difficulty_selected_button],
self.ui.preference.get_preference(PREFERENCE_DIFFICULTY_ROUND_LEVEL)[self.difficulty_selected_button],
game, TokenState.Player_2,
self.players_tokens[1], self.players_entry_string_variable[1].get().strip())
else:
player_2 = Player.Player(TokenState.Player_2, self.players_tokens[1],
self.players_entry_string_variable[1].get().strip())
self.ui.change_panel(GamePanel.GamePanel,
player_1=player_1,
player_2=player_2,
game=game, delay=self.ui.preference.get_preference(PREFERENCE_DELAY))
s.bind((server, port))
s.listen(2)
print("Waiting for a connection, Server Started")
# Set up random pictionary word
with open("pictionary.txt", "r") as pictionary:
w = pictionary.read().split()
def randomWord():
return random.choice(w)
picWord = randomWord()
players = [Player(800, 600, 1, picWord), Player(800, 600, 2, picWord)]
def nextRound(pW, gW):
if pW == gW:
print("drawP.picWord({0}) = guessP.guessWord({1})".format(pW, gW))
return randomWord()
def threaded_client(conn, playerID):
reply = ""
conn.send(pickle.dumps(players[playerID]))
while True:
global pW
data = pickle.loads(conn.recv(2048))
def create_player(name: str):
return Player(name)
def setUp(self):
self.player1 = Player.Player("Ein")
self.player2 = Player.Player("Rome")
self.rock_paper_scissors_game = RockPaperScissorsGame.RockPaperScissorsGame(
self.player1, self.player2)
def test_no_winner():
alice = Player("Alice", "g")
bob = Player("Bob", "r")
game = Game([alice, bob])
assert not game.has_winner()
