import random
def game_guesse():
x = random.randint(1, 101)
print(x)
print("Добро пожаловать в числовую угадайку")
number = int(input())
trys = 1
while number:
if is_valid(number) == False:
print('А может быть все-таки введем целое число от 1 до 100?')
number = int(input())
trys += 1
continue
if number > x:
print('Ваше число больше загаданного, попробуйте еще разок')
elif number < x:
print('Ваше число меньше загаданного, попробуйте еще разок')
else:
print('Вы угадали, поздравляем!')
print(f'Число попыток: {trys}')
print('Спасибо, что играли в числовую угадайку. Еще увидимся...')
break
number = int(input())
trys += 1
def is_valid(num):
return 1 <= num <= 100
# game_guesse()
# Шифр Цезаря. Очень плохая реализация.
def caesar_cipher_1(data: str, rot: int):
RU_LEN = 32
chipher_date = ''
a = ord('а')
A = ord('А')
low_case_ch = [chr(x) for x in range(a, a + RU_LEN)]
low_case = [x for x in range(a, a + RU_LEN)]
up_case_ch = [chr(x) for x in range(A, A + RU_LEN)]
up_case = [x for x in range(A, A + RU_LEN)]
print(''.join(low_case_ch))
# print(up_case, len(up_case))
if rot > 31:
rot = rot%31
for i in data:
code = ord(i)
if code in low_case:
if rot > (low_case[-1] - code):
chipher_date += chr(low_case[0] + rot - (low_case[-1] - code) - 1)
else:
chipher_date += chr(code + rot)
elif code in up_case:
if rot > (up_case[-1] - code):
chipher_date += chr(up_case[0] + rot - (up_case[-1] - code) - 1)
else:
chipher_date += chr(code + rot)
else:
chipher_date += i
return chipher_date
# Шифр Цезаря. Нормальная реализация.
def caesar_cipher_2(data: str, rot: int, lang='ru'):
RU_LEN = 31
EN_LEN = 25
chipher_date = ''
d = [chr(x) for x in range(ord('а'), ord('я') + 1)]
ru_low_case = ''.join(d) * 2
d = [chr(x) for x in range(ord('А'), ord('Я') + 1)]
ru_up_case = ''.join(d) * 2
d = [chr(x) for x in range(ord('a'), ord('z') + 1)]
en_low_case = ''.join(d) * 2
d = [chr(x) for x in range(ord('A'), ord('Z') + 1)]
en_up_case = ''.join(d) * 2
if lang == 'ru':
if rot > RU_LEN:
rot = rot%RU_LEN
for i in data:
if i in ru_low_case:
chipher_date += ru_low_case[ru_low_case.index(i) + rot]
elif i in ru_up_case:
chipher_date += ru_up_case[ru_up_case.index(i) + rot]
else:
chipher_date += i
elif lang == 'en':
if rot > EN_LEN:
rot = rot%EN_LEN
for i in data:
if i in en_low_case:
chipher_date += en_low_case[en_low_case.index(i) + rot]
elif i in en_up_case:
chipher_date += en_up_case[en_up_case.index(i) + rot]
else:
chipher_date += i
else:
return '-1'
return chipher_date
# Шифр Цезаря. Нормальная реализация.
def caesar_recipher_2(data: str, rot: int, lang='ru'):
RU_LEN = 31
EN_LEN = 25
chipher_date = ''
d = [chr(x) for x in range(ord('а'), ord('я') + 1)]
ru_low_case = ''.join(d) * 2
d = [chr(x) for x in range(ord('А'), ord('Я') + 1)]
ru_up_case = ''.join(d) * 2
d = [chr(x) for x in range(ord('a'), ord('z') + 1)]
en_low_case = ''.join(d) * 2
d = [chr(x) for x in range(ord('A'), ord('Z') + 1)]
en_up_case = ''.join(d) * 2
if lang == 'ru':
if rot > RU_LEN:
rot = rot%RU_LEN
for i in data:
if i in ru_low_case:
chipher_date += ru_low_case[ru_low_case.index(i) - rot]
elif i in ru_up_case:
chipher_date += ru_up_case[ru_up_case.index(i) - rot]
else:
chipher_date += i
elif lang == 'en':
if rot > EN_LEN:
rot = rot%EN_LEN
for i in data:
if i in en_low_case:
chipher_date += en_low_case[en_low_case.index(i) - rot]
elif i in en_up_case:
chipher_date += en_up_case[en_up_case.index(i) - rot]
else:
chipher_date += i
else:
return '-1'
return chipher_date
# print(caesar_cipher_2("Блажен, кто верует, тепло ему на свете!", 10, 'ru'))
# print(caesar_recipher_2("Лхкрпч, фьш мпъэпь, ьпщхш пцэ чк ымпьп!", 10, 'ru'))
# print(caesar_cipher_2("To be, or not to be, that is the question!", 17, 'en'))
def length(data: str):
ret = 0
for i in data:
if i.isalpha():
ret += 1
return len([x for x in data if x.isalpha()])
def caesar_cipher_test(data: str):
l = data.split()
ret = ''
for sim in l:
rot = length(sim)
for i in sim:
ret += caesar_cipher_2(i, rot, 'en')
ret += ' '
return ret
# print(caesar_cipher_test("my name is Python!"))
# print(caesar_cipher_test('Day, mice. "Year" is a mistake!'))
def test(num):
bin_num = bin(num) # 0b1111111
oct_num = oct(num) # 0o177
hex_num = hex(num) # 0x7f
print(bin_num[2:]) # 1111111
print(oct_num[2:]) # 177
print(hex_num[2:]) # 7f
# test(124)
def my_range_gen(*args):
if len(args) == 1:
cnt = 0
while cnt != args[0]:
yield cnt
cnt += 1
elif len(args) == 2:
cnt = args[0]
while cnt < args[1]:
yield cnt
cnt += 1
elif len(args) == 3:
if args[2] > 0:
cnt = args[0]
while cnt < args[1]:
yield cnt
cnt += args[2]
elif args[2] == 0:
return
else:
cnt = args[0]
while cnt > args[1]:
yield cnt
cnt += args[2]
for i in my_range_gen(8):
print(i)
# for i in my_range_gen(8, 5, -1):
# print(i)
# for i in my_range_gen(10, 30, 3):
# print(i)
# for i in my_range_gen(30, 1, 0):
# print(i)
# for i in my_range_gen(30, 1, -5):
# print(i)
# for i in my_range_gen(5):
# print(i)
# s = my_range_gen(5)
# print(next(s))
# print(next(s))
# print(next(s))
# print(next(s))
# print(next(s))
# print(next(s))
# def f(*args, **kwargs):
# print(args, kwargs)
# f(5, 4, 5, 6, 1, a = 1, b = 5, c = 6, name = 123)