def test_two_words(self):
string = 'abc cde'
inp = UserInput(string)
for s in string[:4]:
inp.update(s)
self.assertEqual('abc ', inp.correct_text())
self.assertEqual('', inp.correct_input)
def test_many_incorrect_symbols(self):
string = 'test'
wrong_string = 'qwry '
inp = UserInput(string)
for s in wrong_string:
inp.update(s)
self.assertEqual(wrong_string, inp.incorrect_text)
self.assertEqual('', inp.correct_text())
def test_accurate(self):
string = 'test'
inps = 'tesq\x7ft'
inp = UserInput(string)
for s in inps:
inp.update(s)
self.assertEqual(0.75, inp.accurate)
self.assertEqual(1, inp.error_count)
self.assertTrue(inp.is_done())
def __init__(self, enemy_speed, label, dir_name=""):
self.text_storage = TextStorage(dir_name)
self.text_name, text = self.text_storage.get_random_string(label)
super().__init__(text)
self.enemy_input = UserInput(text)
self.enemy_speed = enemy_speed
self.inp_thread = Thread(target=self.input_thread)
self.en_thread = Thread(target=self.enemy_thread)
self.upd_thread = Thread(target=self.print_thread)
self.threads_active = False
self.enemy_finish = None
def test_get_blank_text(self):
string = 'test'
inp = UserInput(string)
self.assertEqual(string, inp.get_blank_text())
inp.update('t')
self.assertEqual(string[1:], inp.get_blank_text())
for s in string[1:]:
inp.update(s)
self.assertEqual('', inp.get_blank_text())
def test_update(self):
old_nick = sett.get_name_from_config()
sett.change_user('test')
user = User('test')
old_tcount = user.stat['text_count']
old_count = user.stat['symbol_count']
old_errors = user.stat['errors']
string = 'test'
inp = UserInput(string)
for s in string:
inp.update(s)
user.update_stat(inp, 1, 100)
stat = user.load_statistics()
self.assertEqual(old_tcount + 1, stat['text_count'])
self.assertEqual(old_count + len(string), stat['symbol_count'])
self.assertEqual(old_errors, stat['errors'])
sett.change_user(old_nick)
def __init__(self, text):
self._user = User(settings.get_name_from_config())
self._strings = self._user.get_strings()
self._start_time = 0
self._res_time = 0
self.user_input = UserInput(text)
self.is_finished = True
self.is_exit = False
def test_del_backspace(self):
string = 'test'
inp = UserInput(string)
inp.update('t')
inp.update('\x7f')
self.assertEqual('', inp.correct_input)
self.assertEqual('', inp.incorrect_text)
def test_backspace_after_word(self):
string = 'test test'
inp = UserInput(string)
for s in string[:5]:
inp.update(s)
inp.update('\x7f')
self.assertEqual('', inp.correct_input)
self.assertEqual('', inp.incorrect_text)
def test_incorrect_symbol(self):
string = 'test'
inp = UserInput(string)
inp.update('q')
self.assertEqual('t', inp.get_incorrect_symbol())
def test_create(self):
inp = UserInput('test')
self.assertEqual('test', inp.text)
def test_update_all_correct_symbols(self):
string = 'test'
inp = UserInput(string)
for s in string:
inp.update(s)
self.assertEqual(string, inp.correct_text())
def test_update_one_incorrect_symbol(self):
inp = UserInput('test')
inp.update('a')
self.assertEqual('', inp.correct_text())
self.assertEqual('a', inp.incorrect_text)
class EnemyGame(Game):
TIMER = 5
def __init__(self, enemy_speed, label, dir_name=""):
self.text_storage = TextStorage(dir_name)
self.text_name, text = self.text_storage.get_random_string(label)
super().__init__(text)
self.enemy_input = UserInput(text)
self.enemy_speed = enemy_speed
self.inp_thread = Thread(target=self.input_thread)
self.en_thread = Thread(target=self.enemy_thread)
self.upd_thread = Thread(target=self.print_thread)
self.threads_active = False
self.enemy_finish = None
def start_game(self):
self.set_timer(self.current_state
(self.current_enemy_state(self.enemy_input),
self.current_state_string(self.user_input)))
self._start_time = timeit.default_timer()
self.inp_thread.start()
self.en_thread.start()
self.threads_active = True
self.inp_thread.join()
self.en_thread.join()
if self.is_exit:
SimpleGame.clear()
sys.exit()
finish_time = timeit.default_timer()
res_time = finish_time - self._start_time
if self.is_finished:
self.print_results(self.current_state(None,
self.result_string(
self.user_input,
res_time,
finish_time)))
self.get_label(self.text_storage, self.text_name)
self._user.update_stat(self.user_input, res_time,
self.calc_current_speed())
def input_thread(self):
while not self.user_input.is_done():
symbol = self.get_user_input()
if symbol == '\x03':
self.is_exit = True
break
if symbol is None:
self.is_finished = False
break
self.user_input.update(symbol)
self.print_results(
self.current_state(self.current_enemy_state(self.enemy_input),
self.current_state_string(self.user_input)))
def print_thread(self):
while not self.user_input.is_done():
if not self.inp_thread.is_alive():
break
self.print_results(
self.current_state(self.current_enemy_state(self.enemy_input),
self.current_state_string(self.user_input)))
time.sleep(0.5)
def enemy_thread(self):
while not self.enemy_input.is_done():
if not self.inp_thread.is_alive():
break
symbol = self.enemy_input.get_blank_text()[0]
self.enemy_input.update(symbol)
spd = (self.enemy_speed // 60) or 1
time.sleep(1 / spd)
self.print_results(
self.current_state(self.current_enemy_state(self.enemy_input),
self.current_state_string(self.user_input)))
self.enemy_finish = timeit.default_timer()
self.upd_thread.start()
self.upd_thread.join()
def result_string(self, user_input, res_time, finish_time):
s = f'{colored(user_input.text, "green")}\r\n' \
f'{self._strings["acc"]}: ' \
f'{user_input.accurate:.2%}\r\n' \
f'{self._strings["time"]}: {res_time:.2f} ' \
f'{self._strings["sec"]}\r\n' \
f'{self._strings["avg_speed"]}:' \
f' {self.calc_current_speed()} ' \
f'{self._strings["speed"]}\r\n' \
f'{self._strings["err"]}: ' \
f'{user_input.error_count}\r\n' \
f'{self._strings["delta"]}: ' \
f'{finish_time - self.enemy_finish:.2f} ' \
f'{self._strings["sec"]}'
return s
def current_state_string(self, user_input):
s = f'{colored(user_input.correct_text(), "green")}' \
f'{colored(user_input.get_incorrect_symbol(), "red")}' \
f'{user_input.get_blank_text()}\r\n' \
f'{colored(user_input.correct_input, "green")}' \
f'{colored(user_input.incorrect_text, "red")}\r\n' \
f'{self._strings["cur_speed"]}: ' \
f'{self.calc_current_speed()} ' \
f'{self._strings["speed"]}\r\n' \
f'{self._strings["err"]}: ' \
f'{self.user_input.error_count}\r'
return s
def current_state(self, enemy_res, user_res):
res = user_res
rows = os.get_terminal_size().columns
if enemy_res:
res = f"{enemy_res}\r\n{'-' * rows}\r\n{user_res}"
return res
def current_enemy_state(self, user_input):
return '{}{}{}\r\n'.format(
colored(user_input.correct_text(), 'magenta'),
colored(user_input.get_incorrect_symbol(), 'red'),
user_input.get_blank_text(),
)