def get_norm_move(self):
self.raw_word = []
self.may_proceed = True
# Array for letters already on board and are included in the word made
self.aob_list = []
self.w_range = sorted(self.placed_tiles)
self.determine_direction()
self.set_raw_word()
# Just the letters are necessary for word object
aob_list = [x[2] for x in self.aob_list]
self.word = Word(self.w_range[0], self.direction, self.raw_word, self.board, self.dict, aob_list, self.chal_mode)
# Check if all the spots are on the same row or column
if not self.valid_sorted_letters():
self.may_proceed = False
class TestWord(TestCase):
def setUp(self):
self.word = Word("noon")
def test_first_is_equal(self):
assert_that(self.word.letter_at(0), is_("n"))
def test_get_last_index(self):
assert_that(self.word.last_index(), is_(3))
def test_second_letter_equal(self):
assert_that(self.word.letter_at(1), is_("o"))
def test_third_letter_is_equal(self):
assert_that(self.word.letter_at(2), is_("o"))
def test_not_equal(self):
assert_that(self.word.letter_at(3), is_not("o"))
def test_return_word_length(self):
assert_that(self.word.length(), is_(4))
def test_returns_word_length_given_longer_word(self):
word = Word("spontaneous")
assert_that(word.length(), is_(11))
def get_move(self, bag, board, dic):
self.wild_letters = []
self.full_bonus = False
self.is_passing = False
# Change all wild tiles to letter S
if '@' in self.letters:
for i in range(self.letters.count('@')):
self.letters[self.letters.index('@')] = 'S'
self.wild_letters.append('S')
words = []
word_set = set()
# All the possible valid permutations of the letters
for n in range(2, len(self.letters) + 1):
word_set = word_set.union(self._permute(n, dic))
# Check if the word can be played validly horizontally or vertically
for word in word_set:
for spot in board.board.keys():
word_d = Word(spot, 'd', word, board, dic)
word_r = Word(spot, 'r', word, board, dic)
if word_d.validate():
words.append(word_d)
if word_r.validate():
words.append(word_r)
if len(words) == 0:
self.is_passing = True
self._pass_letters(bag)
else:
self.word = words[0]
# Add wild tile S to word wild tile list so that it doesn't get points
for i in range(len(self.wild_letters)):
if 'S' in self.word.word:
self.word.wild_letters.append(
self.word.range[self.word.word.index('S')])
for word in words:
# Add wild tile S to word wild tile list so that it doesn't get points
for i in range(len(self.wild_letters)):
if 'S' in word.word:
word.wild_letters.append(
word.range[word.word.index('S')])
# Pick the word with more points
if word.calculate_total_points(
) > self.word.calculate_total_points():
self.word = word
# Put back the wild letter character in the letters array
for letter in self.wild_letters:
self.letters[self.letters.index('S')] = '@'
return self.word
class WordGame:
def __init__(self):
self.word = Word()
self.searcher = Searcher()
self.correct_answer = ""
self.definition = ""
def game_setting(self, length):
# 제대로된 검색결과를 받을 때까지 반복
while self.correct_answer == "error" or self.correct_answer == "" or self.definition == "":
# 받아오는 데이터 형식 ---> 단어: 단어의 뜻
information = self.searcher.get_word_information(self.word.get_random_word(length))
information = information.split(": ")
# 한글이 아닌 내용이 있을 시 제거 (예시) 맏-손자 -> 맏손자
self.correct_answer = information[0]
self.definition = information[1]
return (self.correct_answer, self.definition)
def guess(self, answer):
# 치트키
if answer == "hint":
return self.correct_answer
if answer == self.correct_answer:
return True
else:
return False
@staticmethod
def consol_test(correct_answer, definition):
answer = ""
while answer != correct_answer:
print("단어의 길이 : ", len(correct_answer))
print("단어의 뜻: ", definition)
answer = input("답을 입력하세요: ")
if answer == "hint":
print(correct_answer)
elif answer != correct_answer:
print("다시입력하세요.")
print("정답")
def get_word_information(self, word, start=1):
parameters = {
"key": self.API_KEY,
'target_type': 'search',
'part': 'word',
'q': word,
'sort': 'dict',
'start': start,
'num': 10,
}
with requests.Session() as s:
for i in range(1, 5):
# 결과가 예상한 것과 다를 경우 표제어의 번호를 바꿔가며 재시도
parameters[start] = i
print("{}번째 요청".format(i))
# 우리말샘 API에 검색결과를 요청
request = s.get(self.BASE_URL, params=parameters)
if request.status_code == 200 and request.ok:
soup = BeautifulSoup(request.text, 'html.parser')
# 한글이외의 내용들 제거 (예시) 맏-손자 -> 맏손자
word_name = Word.extract_hangul(soup.find("word").string)
word_definition = soup.find("definition").string
# 검색결과와 검색 키워드가 달라질경우 : 단어의 길이 우선적으로 검사
if len(word_name) != len(word):
continue
elif word_name is None or word_definition is None:
return "error: 없는데이터"
else:
return word_name + ": " + word_definition
else:
return "error: Request에러"
# 제대로된 결과를 얻지 못했을 경우
return "error: 없는데이터"
word_name = Word.extract_hangul(soup.find("word").string)
word_definition = soup.find("definition").string
# 검색결과와 검색 키워드가 달라질경우 : 단어의 길이 우선적으로 검사
if len(word_name) != len(word):
continue
elif word_name is None or word_definition is None:
return "error: 없는데이터"
else:
return word_name + ": " + word_definition
else:
return "error: Request에러"
# 제대로된 결과를 얻지 못했을 경우
return "error: 없는데이터"
if __name__ == "__main__":
d = Searcher()
# 원하는 단어 검색 테스트
word = input("검색하고 싶은 단어를 입력해주세요 : ")
result = d.get_word_information(word)
print(result)
print()
# 랜덤단어 검색 테스트
w = Word()
result = d.get_word_information(w.get_random_word())
print(result)
class GamePage(Frame):
def __init__(self, parent, options, dic='./dics/sowpods.txt'):
Frame.__init__(self, parent, bg='azure')
self.grid(row=0, column=0, sticky=S + N + E + W)
self.dict = Dict(dic)
self.bag = Bag()
self.board = Board()
self.set_variables()
# There isn't a play_num key in the options, it is a game joined on lan
if options.get('play_num', False):
self.joined_lan = False
self.resolve_options(options)
else:
self.joined_lan = True
self.thread = threading.Thread(target=lh.join_lan_game,
args=(options, self.queue))
self.thread.start()
self.resolve_options(options)
self.run()
def run(self):
if self.server_not_found:
self.destroy()
else:
self.draw_main_frame()
self.draw_info_frame()
self.initialize_game()
def set_variables(self):
self.word = None
self.thread = None
self.winner = None
self.cur_player = None
self.start_tile = None
self.time_up = False
self.game_over = False
self.chal_failed = False
self.is_challenged = False # Necessary for lan game
self.letters_passed = False # Necessary for lan game
self.server_not_found = False # Necessary for lan game
self.first_turn = True
self.game_online = True
self.may_proceed = True
self.turns = 0 # For games against computer
self.seconds = 0
self.own_mark = 0 # Necessary for lan game
self.op_score = 0 # For games against computer
self.pass_num = 0
self.cur_play_mark = 0
self.gui_board = {}
self.used_spots = {}
self.placed_tiles = {}
self.rack = []
self.losers = []
self.raw_word = []
self.wild_tiles = []
self.prev_words = [] # Necessary for challenge mode
self.spots_buffer = [] # Necessary for challenge mode
self.empty_rack_tiles = []
self.wild_tiles_clone = [] # Necessary for challenge mode
self.prev_spots_buffer = [] # Necessary for challenge mode
self.queue = queue.Queue()
self.bag_info = StringVar()
self.time_info = StringVar()
self.status_info = StringVar()
self.words_info = StringVar()
def resolve_options(self, options):
if self.joined_lan:
if not options.get('ip', None):
showinfo(
'Searching...',
'Will try to find a hosted game. This might take a while depending on the computer.\n\nClick OK to start.'
)
# If a server is not found, a single value False comes
# from the queue causing an exception.
try:
self.options, self.own_mark = self.queue.get()
except:
self.options = options
self.server_not_found = True
else:
self.options = options
self.chal_mode = self.options.get('chal_mode', False)
self.comp_mode = self.options.get('comp_mode', False)
self.norm_mode = self.options.get('normal_mode', False)
self.lan_mode = self.options.get('lan_mode', False)
self.time_limit = self.options.get('time_limit', 0)
self.point_limit = self.options.get('point_limit', 0)
self.players = self.options.get('names', [])
self.play_num = self.options.get('play_num', 0)
self.loading = self.options.get('loading', False)
self.minutes = self.time_limit
def draw_main_frame(self):
out_f = Frame(self, padx=30, bg='azure')
out_f.pack(side=LEFT)
l = Label(out_f, textvariable=self.status_info)
l.config(bg='azure', fg='#FF4500', font=('times', 25, 'italic'))
l.pack(side=TOP, pady=15)
if self.lan_mode and not self.joined_lan:
self.status_info.set('... Waiting for player(s) ...')
board_f = Frame(out_f)
board_f.pack(side=TOP)
row_num = 0
row_name = 15
while row_num < 15:
col_num = 0
col_name = 'a'
while col_num < 15:
tile = BoardTile(row_num, col_num, board_f)
tile.bind('<1>', self.place_tile)
tile.name = col_name + str(row_name)
self.determine_tile_background(tile)
self.gui_board[tile.name] = tile
col_num += 1
col_name = chr(ord(col_name) + 1)
row_num += 1
row_name -= 1
rack = Frame(out_f, pady=15, bg='azure')
rack.pack(side=TOP)
for i in range(7):
tile = RackTile(rack)
tile.bind('<1>', self.place_tile)
tile['bg'] = '#BE975B'
# In the normal mode, conceal the letters so others can't see
if self.norm_mode:
tile['fg'] = '#BE975B'
self.rack.append(tile)
button_f = Frame(out_f, bg='azure')
button_f.pack(side=TOP)
self.sub = Button(button_f, text='Submit')
self.sub.config(command=self.process_word)
self.sub.pack(side=LEFT, padx=5)
self.pas = Button(button_f, text='Pass')
self.pas.config(command=self.pass_letters)
self.pas.pack(side=LEFT, padx=5)
if self.chal_mode:
self.chal = Button(button_f, text='Challenge')
self.chal.config(command=self.challenge)
self.chal.pack(side=LEFT, padx=5)
if self.norm_mode:
Button(button_f, text='Reveal', command=self.reveal_tile).pack()
def determine_tile_background(self, tile):
if tile.name in 'a1 a8 a15 h15 o15 h1 o8 o1'.split():
tile['bg'] = '#ff3300'
elif tile.name in 'h8 b2 c3 d4 e5 b14 c13 d12 e11 n2 m3 l4 k5 n14 m13 l12 k11'.split(
):
tile['bg'] = '#ff99cc'
elif tile.name in 'b6 b10 n6 n10 f2 f6 f10 f14 j2 j6 j10 j14'.split():
tile['bg'] = '#3366ff'
elif tile.name in 'a4 a12 c7 c9 d1 d8 d15 g3 g7 g9 g13 h4 h12 o4 o12 m7 m9 l1 l8 l15 i3 i7 i9 i13'.split(
):
tile['bg'] = '#b3c6ff'
else:
tile['bg'] = '#ffd6cc'
def reveal_tile(self):
for tile in self.rack:
tile['fg'] = 'black'
def draw_info_frame(self):
info_frame = Frame(self, bg='azure')
info_frame.pack(side=LEFT, fill=BOTH)
self.sav = Button(info_frame, text='Save Game')
self.sav.config(command=self.save_game)
self.sav.pack(side=TOP, pady=50)
cont_f = Frame(info_frame, bg='azure')
cont_f.pack(side=TOP, pady=40, fill=X)
options = {
'font': ('times', 16, 'italic'),
'bg': 'azure',
'fg': '#004d00'
}
if self.time_limit:
l = Label(cont_f, textvariable=self.time_info)
l.config(font=('times', 16, 'italic'), bg='#004d00', fg='azure')
l.pack(anchor=NW)
Label(cont_f, textvariable=self.bag_info, **options).pack(pady=10)
play_f = LabelFrame(cont_f, pady=5, padx=5, bg='azure')
play_f.pack(anchor=NW)
# For displaying players' names and points
self.pl1_info = StringVar()
Label(play_f, textvariable=self.pl1_info, **options).pack(anchor=NW)
self.pl2_info = StringVar()
Label(play_f, textvariable=self.pl2_info, **options).pack(anchor=NW)
if self.play_num >= 3:
self.pl3_info = StringVar()
Label(play_f, textvariable=self.pl3_info,
**options).pack(anchor=NW)
if self.play_num == 4:
self.pl4_info = StringVar()
Label(play_f, textvariable=self.pl4_info,
**options).pack(anchor=NW)
Label(cont_f, text='Words:', **options).pack(anchor=NW, pady=10)
# For displaying the words made and their point values
m = Message(cont_f, textvariable=self.words_info)
m.config(font=('times', 15, 'italic'),
anchor=NW,
bg='azure',
fg='#004d00')
m.pack(anchor=NW, fill=X)
def set_word_info(self, words):
message = ''
for word in words:
message = message + ('{} {}\n'.format(word, words[word]))
if self.cur_player.full_bonus:
message = message + ('\nBonus 60\n')
self.cur_player.full_bonus = False
self.words_info.set(message[:-1])
# Undo tile placement and word formation
def undo_placement(self):
for t1, t2 in zip(self.empty_rack_tiles, self.placed_tiles.values()):
t1.letter.set(t2.letter.get())
t2.letter.set('')
t1['bg'] = '#BE975B'
self.determine_tile_background(t2)
self.placed_tiles = {}
self.may_proceed = False
def initialize_game(self):
self.check_game_over()
# No need to create new players if a saved game is loaded or joined a game on lan
if self.lan_mode and not self.joined_lan:
self.thread = threading.Thread(target=lh.create_lan_game,
args=(self.options, self.queue,
self.bag))
self.thread.start()
self.initialize_players()
elif self.joined_lan:
self.players, self.bag = self.queue.get()
self.init_turn()
elif self.loading:
# If a saved game is being loaded, it is good to wait
# for one second and load the board so that variables are set
self.master.master.after(1000, self.load_board)
else:
self.initialize_players()
def countdown(self):
if self.seconds == 0:
self.seconds = 59
self.minutes -= 1
else:
self.seconds -= 1
if self.seconds >= 0 and self.minutes >= 0:
if self.seconds > 9:
seconds = str(self.seconds)
else:
seconds = '0' + str(self.seconds)
self.time_info.set('{}:{} Left'.format(self.minutes, seconds))
self.master.master.after(1000, self.countdown)
else:
self.time_up = True
self.end_game()
def initialize_players(self):
if self.lan_mode and len(self.players) < self.play_num:
self.master.master.after(1000, self.initialize_players)
else:
# Play num in joined mode is 0
for i in range(self.play_num):
pl = Player(self.players[i])
pl.draw_letters(self.bag)
self.players.append(pl)
# If the game is against a computer, no need for the second
# iteration because its class is different
if self.comp_mode:
self.opponent = AIOpponent()
self.opponent.draw_letters(self.bag)
self.players.append(self.opponent)
break
# Deletes the name strings
del self.players[:self.play_num]
if self.lan_mode:
self.queue.put(self.players)
self.init_turn()
# Set the words of the loaded game on the board
def load_board(self):
spots = []
letters = []
for spot, letter in self.board.board.items():
if re.fullmatch('[A-Z@]', letter):
spots.append(spot)
letters.append(letter)
for spot, letter in self.gui_board.items():
if spot in spots:
self.gui_board[spot].letter.set(letters[spots.index(spot)])
self.gui_board[spot].active = False
self.gui_board[spot]['bg'] = '#BE975B'
self.used_spots[spot] = self.gui_board[spot]
for spot in spots:
del self.gui_board[spot]
self.init_turn()
def init_turn(self):
self.turns += 1
if self.lan_mode and not self.first_turn:
if self.own_mark == self.cur_play_mark:
self.disable_board()
if self.letters_passed:
self.queue.put((self.own_mark, self.bag, self.game_online))
elif not self.chal_failed:
self.queue.put(
(self.own_mark, self.word, self.w_range,
self.placed_tiles, self.prev_spots_buffer,
self.players, self.bag, self.board, self.game_online))
else:
# Failed challenge
self.queue.put(
(self.own_mark, False, None, None, self.game_online))
# Wait till the queue is emptied by the other thread
# So that the same item is not captured by this thread
while not self.queue.empty():
continue
elif not self.is_challenged:
self.enable_board()
elif self.joined_lan and self.first_turn:
self.disable_board()
self.placed_tiles = {}
self.empty_rack_tiles = []
self.spots_buffer = []
self.start_tile = None
if not self.comp_mode and not self.loading and not self.first_turn:
self.cur_play_mark = (self.cur_play_mark + 1) % self.play_num
self.cur_player = self.players[self.cur_play_mark]
self.update_info()
self.decorate_rack()
if self.time_limit and self.first_turn:
self.countdown()
self.loading = False
self.first_turn = False
self.chal_failed = False
if self.lan_mode and self.own_mark != self.cur_play_mark:
self.process_word()
if self.comp_mode and self.turns % 2 == 0:
self.wait_comp()
def update_info(self):
if self.comp_mode:
self.status_info.set('... Player\'s Turn ...')
self.bag_info.set('{} Tiles in Bag'.format(len(self.bag.bag)))
self.pl1_info.set('{}: {}'.format(self.players[0].name,
self.players[0].score))
self.pl2_info.set('Computer: {}'.format(self.players[1].score))
else:
if self.lan_mode and self.own_mark == self.cur_play_mark:
name = 'Your'
else:
name = self.cur_player.name + '\'s'
self.status_info.set('... {} Turn ...'.format(name))
self.pl1_info.set('{}: {}'.format(self.players[0].name,
self.players[0].score))
self.pl2_info.set('{}: {}'.format(self.players[1].name,
self.players[1].score))
if self.play_num >= 3:
self.pl3_info.set('{}: {}'.format(self.players[2].name,
self.players[2].score))
if self.play_num == 4:
self.pl4_info.set('{}: {}'.format(self.players[3].name,
self.players[3].score))
self.bag_info.set('{} Tiles in Bag'.format(len(self.bag.bag)))
def decorate_rack(self):
# The challenged player is the previous player.
if self.is_challenged:
player = self.players[self.own_mark]
else:
player = self.cur_player
# If it is a game on lan, no need to show other players tiles on the rack
if not self.lan_mode or self.lan_mode and self.own_mark == self.cur_play_mark:
for letter, tile in zip(player.letters, self.rack):
if letter == '@':
tile.letter.set(' ')
else:
tile.letter.set(letter)
tile['bg'] = '#BE975B'
# Hide the letters on the board if it is a normal game.
# So that players can't see each others letters
if self.norm_mode:
tile['fg'] = '#BE975B'
# If there are no letters left, leave the spots of the used tiles blank
if len(self.bag.bag) == 0:
# Slice the rack array up to the length of player's letters array
for tile in self.rack[len(player.letters):]:
tile.letter.set('')
tile['bg'] = '#cccccc'
# If a player joins a game on lan, display his own letters on the 1st turn.
elif self.joined_lan and self.first_turn:
for letter, tile in zip(self.players[self.own_mark].letters,
self.rack):
if letter == '@':
tile.letter.set(' ')
else:
tile.letter.set(letter)
tile['bg'] = '#BE975B'
# Disable board and buttons when it is not a player's turn
# so that they don't mess things up
def disable_board(self):
self.sub.config(state=DISABLED)
self.pas.config(state=DISABLED)
self.sav.config(state=DISABLED)
if self.lan_mode and self.chal_mode:
self.chal.config(state=DISABLED)
for spot in self.gui_board.values():
spot.active = False
# Enable board and buttons when it is player's turn
def enable_board(self):
self.sub.config(state=NORMAL)
self.pas.config(state=NORMAL)
self.sav.config(state=NORMAL)
if self.lan_mode and self.chal_mode:
self.chal.config(state=NORMAL)
for spot in self.gui_board.values():
spot.active = True
def wait_comp(self):
self.disable_board()
self.pl1_info.set('Player: {}'.format(self.cur_player.score))
self.bag_info.set('{} Tiles in Bag'.format(len(self.bag.bag)))
self.status_info.set('... Computer\'s Turn ...')
args = (self.queue, self.opponent, self.bag, self.board, self.dict)
t = threading.Thread(target=self.get_comp_move, args=args)
t.start()
self.process_comp_word()
def get_comp_move(self, queue, opponent, bag, board, dic):
word = opponent.get_move(bag, board, dic)
queue.put(word)
def process_comp_word(self):
if self.queue.empty():
self.master.master.after(1000, self.process_comp_word)
else:
word = self.queue.get()
if self.opponent.is_passing:
self.pass_num += 1
else:
self.pass_num = 0
for spot, letter in zip(word.range, word.word):
if self.gui_board.get(spot, False):
self.gui_board[spot].letter.set(letter)
self.gui_board[spot]['bg'] = '#BE975B'
self.gui_board[spot].active = False
self.used_spots[spot] = self.gui_board[spot]
del self.gui_board[spot]
self.opponent.update_rack(self.bag)
self.opponent.update_score()
self.set_word_info(word.words)
self.decorate_rack()
self.board.place(word.word, word.range)
self.enable_board()
self.init_turn()
def place_tile(self, event):
start_t_name = type(self.start_tile).__name__
end_tile = event.widget
end_t_name = type(end_tile).__name__
end_t_letter = end_tile.letter
if start_t_name == 'RackTile' and self.start_tile.letter.get() != '':
if end_t_name == 'BoardTile' and end_tile.active:
if end_t_letter.get() == '':
end_t_letter.set(self.start_tile.letter.get())
end_tile['bg'] = self.start_tile['bg']
self.placed_tiles[end_tile.name] = end_tile
self.spots_buffer.append(end_tile.name)
self.empty_rack_tiles.append(self.start_tile)
self.start_tile['bg'] = '#cccccc'
self.start_tile.letter.set('')
self.start_tile = None
else:
temp = end_t_letter.get()
end_t_letter.set(self.start_tile.letter.get())
self.start_tile.letter.set(temp)
self.start_tile = None
elif end_t_name == 'RackTile':
temp = end_t_letter.get()
end_t_letter.set(self.start_tile.letter.get())
if end_tile in self.empty_rack_tiles:
self.empty_rack_tiles.append(self.start_tile)
del self.empty_rack_tiles[self.empty_rack_tiles.index(
end_tile)]
end_tile['bg'] = '#BE975B'
self.start_tile['bg'] = '#cccccc'
self.start_tile.letter.set(temp)
self.start_tile = None
else:
self.start_tile = None
elif start_t_name == 'BoardTile' and self.start_tile.letter.get(
) != '' and self.start_tile.active:
if end_t_name == 'RackTile' and end_t_letter.get() == '':
del self.placed_tiles[self.start_tile.name]
del self.empty_rack_tiles[self.empty_rack_tiles.index(
end_tile)]
self.spots_buffer.remove(self.start_tile.name)
end_t_letter.set(self.start_tile.letter.get())
end_tile['bg'] = '#BE975B'
self.determine_tile_background(self.start_tile)
self.start_tile.letter.set('')
self.start_tile = None
elif end_t_name == 'BoardTile' and end_tile.active:
if end_t_letter.get() == '':
end_t_letter.set(self.start_tile.letter.get())
end_tile['bg'] = self.start_tile['bg']
self.update_buffer_letters(end_tile)
self.determine_tile_background(self.start_tile)
del self.placed_tiles[self.start_tile.name]
self.placed_tiles[end_tile.name] = end_tile
self.start_tile.letter.set('')
self.start_tile = None
elif end_t_letter.get() == self.start_tile.letter.get():
self.start_tile = None
else:
temp = end_t_letter.get()
end_t_letter.set(self.start_tile.letter.get())
self.start_tile.letter.set(temp)
self.update_buffer_letters(end_tile)
self.placed_tiles[self.start_tile.name] = self.start_tile
self.placed_tiles[end_tile.name] = end_tile
self.start_tile = None
else:
self.start_tile = end_tile
def update_buffer_letters(self, tile):
for spot in self.spots_buffer:
if spot == self.start_tile.name:
self.spots_buffer.remove(spot)
self.spots_buffer.append(tile.name)
def get_lan_move(self):
if self.queue.empty():
self.may_proceed = False
self.master.master.after(1000, self.process_word)
else:
pack = self.queue.get()
# Other player passed letters
if len(pack) == 3:
self.bag = pack[1]
self.pass_num += 1
self.init_turn()
# There was a challenge
elif type(pack[1]) == type(True):
# In this case, pack[1] is the flag for being challenged successfully or not
if pack[1]:
self.is_challenged = True
self.challenge(pack)
self.master.master.after(1000, self.process_word)
else:
self.challenge()
else:
self.may_proceed = True
self.is_challenged = False
# pack[0] is a number significant for create_server and handle_lan_game
# pack[-1] is the game_online flag
self.word, self.w_range, received_tiles, self.prev_spots_buffer, self.players, self.bag, self.board = pack[
1:-1]
# It is a new word for the receiver
self.word.new = True
# Should populate placed_tiles because there were no clicks on this side.
for spot, letter in received_tiles.items():
self.placed_tiles[spot] = self.gui_board[spot]
self.placed_tiles[spot].letter.set(letter)
self.placed_tiles[spot].active = False
def determine_direction(self):
# If there is only one letter in the list, find its direction
if len(self.w_range) == 1:
# Get the spots on the right and left side by changing letter value of the spot
r = chr(ord(self.w_range[0][0]) + 1) + self.w_range[0][1:]
l = chr(ord(self.w_range[0][0]) - 1) + self.w_range[0][1:]
# Check the spots on the left and right side.
# If they are occupied, the direction is r. If not, d.
# Also check if they go over the board boundary.
if self.board.board.get(r, False) and re.fullmatch(
'[A-Z@]', self.board.board[r]):
self.direction = 'r'
elif self.board.board.get(l, False) and re.fullmatch(
'[A-Z@]', self.board.board[l]):
self.direction = 'r'
else:
self.direction = 'd'
else:
# use letter parts of the first and last spots for checking
check1 = self.w_range[0][0]
check2 = self.w_range[-1][0]
# If letters are the same, direction is down
if check1 == check2:
# Need to sort number parts of the spots as digits for accuracy
digits = sorted([int(x[1:]) for x in self.w_range])
self.w_range = [check1 + str(x) for x in digits]
self.w_range.reverse()
self.direction = 'd'
else:
self.direction = 'r'
def set_raw_word(self):
for spot in self.w_range:
self.raw_word.append(self.placed_tiles[spot].letter.get())
self.set_aob_list(spot)
# offset is necessary because array is mutable and it is dynamically
# changed as the loop continues
offset = 0
length = len(self.w_range)
for spot, index, letter in self.aob_list:
if index < 0:
index = 0
elif index > length:
index = length - 1
self.raw_word.insert(index + offset, letter)
self.w_range.insert(index + offset, spot)
offset += 1
self.raw_word = ''.join(self.raw_word)
if ' ' in self.raw_word:
self.change_wild_tile()
def get_norm_move(self):
self.raw_word = []
self.may_proceed = True
# Array for letters already on board and are included in the word made
self.aob_list = []
self.w_range = sorted(self.placed_tiles)
self.determine_direction()
self.set_raw_word()
# Just the letters are necessary for word object
aob_list = [x[2] for x in self.aob_list]
self.word = Word(self.w_range[0], self.direction, self.raw_word,
self.board, self.dict, aob_list, self.chal_mode)
# Check if all the spots are on the same row or column
if not self.valid_sorted_letters():
self.may_proceed = False
def process_word(self):
if self.lan_mode and self.own_mark != self.cur_play_mark:
self.get_lan_move()
elif self.placed_tiles:
self.get_norm_move()
if self.may_proceed and type(self.word) != type(
None) and self.word.new and self.word.validate():
self.cur_player.word = self.word
self.pass_num = 0
self.wild_tiles = []
self.prev_words = []
# Deactivate and disclude used spots
for spot in self.w_range:
if spot in self.placed_tiles:
self.placed_tiles[spot].active = False
self.used_spots[spot] = self.gui_board[spot]
del self.gui_board[spot]
# On lan games, the game object of the current player updates rack and score of its own.
if not self.lan_mode or self.own_mark == self.cur_play_mark:
self.cur_player.update_rack(self.bag)
self.cur_player.update_score()
self.prev_spots_buffer = self.spots_buffer.copy()
self.decorate_rack()
self.board.place(self.word.word, self.w_range)
self.set_word_info(self.word.words)
self.prev_words.append(self.word.word)
self.prev_words.extend([x[0] for x in self.word.extra_words])
# Get the background correct for the lan game words
# as there are no clicks on this side
if self.lan_mode and self.own_mark != self.cur_play_mark:
for tile in self.placed_tiles.values():
tile['bg'] = '#BE975B'
# For lan game turn_packs, no tkinter objects, hence no tiles, for pickling.
# Spots and letters are enough
if self.lan_mode:
self.placed_tiles = {
spot: tile.letter.get()
for spot, tile in self.placed_tiles.items()
}
self.init_turn()
else:
if self.wild_tiles:
for tile in self.wild_tiles:
tile.letter.set(' ')
self.wild_tiles = []
def set_aob_list(self, spot):
# Checks are to see if the spot is already on the list
# If aft or bef is not in the gui board, it was previusly placed on the board
# Otherwise, flag is false.
flag = True
if self.direction == 'd':
# Modify the number part of the spots
bef = spot[0] + str(int(spot[1:]) + 1)
aft = spot[0] + str(int(spot[1:]) - 1)
check = [x[0] for x in self.aob_list if x[0] == aft or x[0] == bef]
while flag and not check:
# range(1, 16) because there are 15 rows
if aft not in self.gui_board and int(aft[1:]) in range(1, 16):
self.aob_list.append((aft, self.w_range.index(spot) + 1,
self.used_spots[aft].letter.get()))
aft = aft[0] + str(int(aft[1:]) - 1)
elif bef not in self.gui_board and int(bef[1:]) in range(
1, 16):
self.aob_list.insert(0,
(bef, self.w_range.index(spot) - 1,
self.used_spots[bef].letter.get()))
bef = bef[0] + str(int(bef[1:]) + 1)
else:
flag = False
else:
# Modify the letter part of the spots
bef = chr(ord(spot[0]) - 1) + spot[1:]
aft = chr(ord(spot[0]) + 1) + spot[1:]
check = [x[0] for x in self.aob_list if x[0] == aft or x[0] == bef]
while flag and not check:
# range(97, 112) because these are ascii codes fo the lower case letters a-o
if aft not in self.gui_board and ord(aft[0]) in range(97, 112):
self.aob_list.append((aft, self.w_range.index(spot) + 1,
self.used_spots[aft].letter.get()))
aft = chr(ord(aft[0]) + 1) + aft[1:]
elif bef not in self.gui_board and ord(bef[0]) in range(
97, 112):
self.aob_list.insert(0,
(bef, self.w_range.index(spot) - 1,
self.used_spots[bef].letter.get()))
bef = chr(ord(bef[0]) - 1) + bef[1:]
else:
flag = False
def valid_sorted_letters(self):
if self.direction == 'd':
# Check1 is the number part of the spot
check1 = int(self.w_range[0][1:])
# Check2 is the letter part of the spot
check2 = self.w_range[0][0]
# Skip first spot because it is already used in checks
for spot in self.w_range[1:]:
# Numbers should be consequent
if int(spot[1:]) != check1 - 1:
return False
# Letters should be the same
if spot[0] != check2:
return False
check1 -= 1
else:
# Check1 is the ascii value for the letter part of the spot
check1 = ord(self.w_range[0][0])
# Check2 is the number part of the spot
check2 = self.w_range[0][1:]
# Skip first spot because it is already used in checks
for spot in self.w_range[1:]:
# letters should be consequent
if ord(spot[0]) != check1 + 1:
return False
# Numbers should be the same
if spot[1:] != check2:
return False
check1 += 1
return True
def change_wild_tile(self):
# askstring returns None if the action is cancelled
letter = askstring('Set Wild Tile', 'Enter letter(s):') or '0'
letter = re.sub('[^A-Z]', '', letter.upper())
if letter:
if re.fullmatch('[A-Z]+', letter):
self.raw_word = re.sub(' ', letter[0], self.raw_word, 1)
if ' ' in self.raw_word:
self.raw_word = re.sub(' ', letter[1], self.raw_word, 1)
for spot in self.w_range:
try:
if self.placed_tiles[spot].letter.get() == ' ':
self.wild_tiles.append(self.placed_tiles[spot])
if self.chal_mode:
self.wild_tiles_clone = self.wild_tiles.copy()
self.board.wild_letters_on_board.append(
self.placed_tiles[spot].name)
except KeyError:
continue
for i, tile in enumerate(self.wild_tiles):
tile.letter.set(letter[i])
self.cur_player.wild_letters.append(letter[i])
else:
self.undo_placement()
def pass_letters(self):
letters = askstring('Pass Letters', 'Enter letters to pass:'******'':
self.empty_rack_tiles[0].letter.set(tile.letter.get())
self.empty_rack_tiles[0]['bg'] = '#BE975B'
del self.empty_rack_tiles[0]
tile.letter.set('')
self.determine_tile_background(tile)
passed_letters = list(re.sub('[^A-Z ]', '', letters.upper()))
if passed_letters:
# If a player wants to change a wild letter
if ' ' in passed_letters and '@' in self.cur_player.letters:
count1 = self.cur_player.letters.count('@')
count2 = passed_letters.count(' ')
for i in range(count2):
passed_letters.remove(' ')
passed_letters.append('@')
if i == count1 - 1:
break
# Remove the remaining spaces
while ' ' in passed_letters:
passed_letters.remove(' ')
self.cur_player.passed_letters = passed_letters
self.bag.put_back(passed_letters)
self.cur_player.update_rack(self.bag)
self.decorate_rack()
self.pass_num += 1
if self.comp_mode:
self.wait_comp()
else:
self.init_turn()
def challenge(self, pack=None):
for word in self.prev_words:
if not self.dict.valid_word(word):
self.players[self.cur_play_mark - 1].update_score(
self.word.points)
# Substract full bonus if applicable
if len(self.players[self.cur_play_mark - 1].new_letters) == 7:
self.players[self.cur_play_mark - 1].update_score(60)
# Remove and return all the new letters
for letter in self.players[self.cur_play_mark - 1].new_letters:
self.players[self.cur_play_mark - 1].letters.remove(letter)
self.bag.put_back([letter])
# Remove the letters of the challenged word and put them back on rack
for spot in self.prev_spots_buffer:
if spot in self.used_spots:
for tile in self.wild_tiles_clone:
if spot == tile.name:
self.board.wild_letters_on_board.remove(spot)
self.used_spots[spot].letter.set('')
self.players[self.cur_play_mark -
1].letters.append('@')
# If the letter value is set to a letter
if self.used_spots[spot].letter.get():
self.players[
self.cur_play_mark - 1].letters.append(
self.used_spots[spot].letter.get())
self.used_spots[spot].letter.set('')
self.board.board[spot] = ' '
self.used_spots[spot].active = True
self.determine_tile_background(self.used_spots[spot])
self.gui_board[spot] = self.used_spots[spot]
del self.used_spots[spot]
self.prev_words = []
self.prev_spots_buffer = []
if self.lan_mode:
if self.is_challenged:
# If the player is challenged on the lan
self.players = pack[2]
self.bag = pack[3]
self.decorate_rack()
else:
# If the challenger is the player
self.queue.put(
(self.own_mark, True, self.players, self.bag))
self.update_info()
return True
# If challenge fails
if self.lan_mode:
self.chal_failed = True
self.init_turn()
return False
def check_game_over(self):
if len(self.bag.bag) == 0:
for pl in self.players:
if len(pl.letters) == 0:
self.end_game()
return
self.master.master.after(1000, self.check_game_over)
elif self.pass_num == 3 * self.play_num:
self.end_game()
elif self.point_limit:
for pl in self.players:
if type(pl) != type('') and pl.score >= self.point_limit:
self.end_game()
return
self.master.master.after(1000, self.check_game_over)
else:
self.master.master.after(1000, self.check_game_over)
def end_game(self):
if not self.game_over:
self.game_over = True
if self.chal_mode and len(self.bag.bag) == 0 and [
pl for pl in self.players if len(pl.letters) == 0
]:
text = 'Will you challenge any of \'{}\'?'.format(', '.join(
self.prev_words))
challenged = askyesno('Challenge', text) and self.challenge()
else:
challenged = False
if not challenged:
self.determine_winner()
if self.time_up:
rea = 'Time Is Up'
else:
rea = 'Game Is Over'
mes = '{} has won with {} points!'.format(
self.winner[0].name, self.winner[1])
self.game_online = False
self.show_end_game_popup(rea, mes)
else:
self.game_over = False
self.check_game_over()
def show_end_game_popup(self, reason, message):
pop = Toplevel(self)
pop.title(reason)
# Show popup inside the main window
self.master.master.update()
x = self.master.master.winfo_rootx() + 200
pop.geometry('+{}+{}'.format(x, 300))
pop.protocol('WM_DELETE_WINDOW', lambda: self.quit_game(pop))
Label(pop, text=message, font=('times', 30, 'italic')).pack(side=TOP,
padx=50,
pady=30)
info_f = Frame(pop)
info_f.pack(side=TOP)
for player, subt in self.losers:
if subt > 0:
text = '{} {} points for {} left on rack...'.format(
player.name, -subt, ', '.join(player.letters))
Label(info_f, text=text).pack(side=TOP)
button_f = Frame(pop)
button_f.pack(side=TOP, pady=20)
Button(button_f, text='Quit',
command=lambda: self.quit_game(pop)).pack(side=LEFT, padx=15)
Button(button_f, text='Restart',
command=self.restart_game).pack(side=LEFT)
pop.grab_set()
pop.focus_set()
pop.wait_window()
def determine_winner(self):
# Substract the remaining letter values
# and add them to the winner if s/he has no tiles left
bonus_getter = None
bonus = 0
for player in self.players:
if len(player.letters) == 0:
bonus_getter = player
else:
subt = 0
try:
for letter in player.letters:
subt += self.word.letter_points[letter]
player.update_score(self.word.letter_points[letter])
except AttributeError:
pass
bonus += subt
self.losers.append((player, subt))
if bonus_getter:
bonus_getter.score += bonus
scores = [player.score for player in self.players]
points = max(scores)
winner = self.players[scores.index(points)]
self.winner = (winner, points)
# Remove the winner from losers if s/he has no tiles left
if len(self.winner[0].letters) == 0:
del self.losers[scores.index(points)]
def quit_game(self, win):
self.game_online = False
win.destroy()
self.destroy()
self.master.master.quit()
def restart_game(self):
self.game_online = False
self.master.master.geometry('704x420')
self.master.master.minsize(704, 420)
self.destroy()
def save_game(self):
if not os.path.exists('./saves'):
os.mkdir('./saves')
filename = asksaveasfilename(initialdir='saves',
defaultextension='.pickle')
if filename:
data = {}
data['play_num'] = self.play_num
data['players'] = self.players
data['pass_num'] = self.pass_num
data['cur_play_mark'] = self.cur_play_mark
data['chal_mode'] = self.chal_mode
data['comp_mode'] = self.comp_mode
data['norm_mode'] = self.norm_mode or self.lan_mode
data['point_limit'] = self.point_limit
data['time_limit'] = self.time_limit
data['bag'] = self.bag
data['board'] = self.board
data['op_score'] = self.op_score
data['seconds'] = self.seconds
data['minutes'] = self.minutes
data['turns'] = self.turns
file = open(filename, 'wb')
pickle.dump(data, file)
# Necessary for preventing lag in lan games
def destroy(self):
if self.server_not_found:
showwarning('Game Not Found', 'There are no hosted games.')
# Prevent infinite loop
self.server_not_found = False
self.restart_game()
if self.lan_mode:
# End the socket
self.queue.put([self.own_mark, False])
self.thread.join()
super().destroy()
def __init__(self):
self.word = Word()
self.searcher = Searcher()
self.correct_answer = ""
self.definition = ""
def test_is_palindrome(self):
word = Word("noon")
palindrome = Palindrome(word)
assert_that(palindrome.is_palindrome(), is_(True))
def test_returns_word_length_given_longer_word(self):
word = Word("spontaneous")
assert_that(word.length(), is_(11))
def test_get_letter_at(self):
word = Word("noon")
palindrome = Palindrome(word)
assert_that(palindrome.get_letter_at(0), is_("n"))
def test_returns_false_when_given_a_none_palindrom(self):
word = Word("dented")
palindrome = Palindrome(word)
assert_that(palindrome.is_palindrome(), is_(False))
def test_palindrome_word_with_odd_number_letters(self):
word = Word("racecar")
palindrome = Palindrome(word)
assert_that(palindrome.is_palindrome(), is_(True))
def test_get_last_index(self):
word = Word("Boss")
palindrome = Palindrome(word)
assert_that(palindrome.get_last_index(), is_(3))
def test_false_if_word_not_palindrome(self):
word = Word("Boss")
palindrome = Palindrome(word)
assert_that(palindrome.is_palindrome(), is_(False))
def setUp(self):
self.word = Word("noon")
def extract_corpora(self, batch_id: int, iter_id: int = 0) -> Dict[str, object]:
# noinspection PyBroadException
try:
trans_file = open(os.path.join(
self.result_dir, str(batch_id), str(iter_id), "trans"))
transcripts = trans_file.readlines()
transcript_repo: Dict[str, List[str]] = {}
for t in transcripts:
spl = t.split(maxsplit=1)
header = spl[0].split("_")[-1].split(".")[0]
trans = spl[1]
single_trans = open(os.path.join(self.result_dir, str(
batch_id), str(iter_id), "trans_" + header), "w")
single_trans.write(trans)
single_trans.close()
archived = open(os.path.join("/root/audio/batch" +
str(batch_id), "tran_" + header + ".txt"), "w")
archived.write(trans)
archived.close()
transcript_repo[header] = trans.split()
trans_int_file = open(os.path.join(self.result_dir, str(
batch_id), str(iter_id), "trans_int_combined"))
transcript_ints = trans_int_file.readlines()
transcript_int_repo: Dict[str, List[int]] = {}
for t in transcript_ints:
spl = t.split(maxsplit=1)
header = spl[0].split("_")[-1].split(".")[0]
trans = spl[1]
single_trans = open(os.path.join(self.result_dir, str(
batch_id), str(iter_id), "trans_int_combined_" + header), "w")
single_trans.write(trans)
single_trans.close()
transcript_int_repo[header] = list(
map(lambda x: int(x), trans.split()))
cmt_file = open(os.path.join(self.result_dir, str(
batch_id), str(iter_id), "CTM.ctm"))
convo = cmt_file.readlines()
# noinspection PyTypeChecker
extraction: Dict[str, TextIOWrapper] = {}
convo_repo: Dict[str, List] = {}
for c in convo:
conv = c.split()[3:]
conv = [float(conv[0]), int(conv[1])]
meta = c.split()[0]
header = meta.split(".", maxsplit=1)[0].split("_")[-1]
if header in extraction:
extraction[header].write(str(conv[0]) + " " + str(conv[1]))
convo_repo[header].append(conv)
else:
fd = os.path.join(self.result_dir, str(
batch_id), str(iter_id), header + ".ctm")
# noinspection PyTypeChecker
extraction[header] = open(fd, "w")
convo_repo[header] = []
for k in extraction.keys():
extraction[k].close()
except:
logging.error("Failed for batch ", batch_id)
return {}
batch_out = {}
for key in transcript_repo.keys():
# noinspection PyBroadException
# try:
transcript_tokens = transcript_repo[key]
transcript = ""
for tt in transcript_tokens:
transcript += (tt + " ")
alignment, duration = Decoder.calculate_alignment(
transcript_repo[key], transcript_int_repo[key], convo_repo[key])
logging.debug("Alignment complete for ", key)
sentences = []
# noinspection PyBroadException
try:
os.environ['CUDA_VISIBLE_DEVICES'] = '0'
self.init_segment()
sentences = self.segmenter.segment_long(transcript)
use_lstm = True
except Exception as e:
logging.error(e)
use_lstm = False
tokens = transcript.split()
for index in range(len(tokens)):
sentence_size = len(sentences)
if sentence_size < (int(index / 5) + 1):
sentences.append([])
word = tokens[int(index)]
sentences[int(index / 5)].append(word)
w_dim = 0
aligned_sentences = list()
for s_raw in sentences:
if use_lstm:
sentence = s_raw.split()
else:
sentence = s_raw
sentence[-1] = sentence[-1] + "."
aligned_sentence = list()
for widx, word in enumerate(sentence):
w_dim += 0
Word(word, alignment[w_dim])
word_obj = Word(word, alignment[w_dim])
if widx == len(sentence) - 1:
word_obj.add_tag("is_punctuated", True)
aligned_sentence.append(word_obj)
sentence_obj = Sentence(aligned_sentence, 0)
aligned_sentences.append(sentence_obj)
for idx, _ in enumerate(aligned_sentences):
if idx < (len(aligned_sentences) - 1):
aligned_sentences[idx].length = aligned_sentences[idx +
1].words[0].timestamp
aligned_sentences[(len(aligned_sentences) - 1)].length = duration
transcript_out = {"duration": duration, "length": len(alignment), "sentences": aligned_sentences,
"complete": "1"}
out_json = open(os.path.join(
"/root/audio/batch" + str(batch_id), key + ".json"), "w")
json.dump(transcript_out, out_json)
out_json.close()
batch_out[key] = transcript_out
# Release GPU
device = cuda.get_current_device()
device.reset()
return batch_out
def test_returns_legth_of_another_word(self):
word = Word("Very Long word")
palindrome = Palindrome(word)
assert_that(palindrome.get_letter_at(13), is_("d"))