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enigma_oop_v2.py
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from tkinter import *
import string
import random
class Enigma(object):
def __init__(self):
self.root = Tk()
self.root.counter, self.root.counter_1, self.root.counter_2 = 0, 0, 0
self.root.title("Enigma OOP")
self.true_alphabet = ['A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X' ,'Y', 'Z']
self.alphabet = ['Q', 'W', 'E', 'R', 'T', 'Z', 'U', 'I', 'O', 'A', 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'P', 'Y', 'X', 'C', 'V', 'B', 'N', 'M', 'L']
self.create_keyboard()
self.create_cylinders()
self.QUIT = Button(self.root, text = "QUIT", command = self.root.quit).grid(column = 5)
### making the yellow on click and the rotate function is called here
label_list = []
def onClick(self, i):
val = self.rotate(self.labels[i]['text'])
self.label_list.append(val)
self.labels[self.alphabet.index(val)].configure(bg = 'YELLOW')
self.root.after(250, lambda: self.labels[self.alphabet.index(val)].configure(bg = 'WHITE'))
self.create_downward_label(self.label_list)
### LOGIC PART OF ENIGMA IS ADDED TO ROTATE
def rotate(self, value_sent):
self.val = []
self.val_0 = value_sent
self.val.append(self.label['text'])
self.val.append(self.label_1['text'])
self.val.append(self.label_2['text'])
try:
self.root.counter += 1
self.label.configure(text = self.true_alphabet[self.root.counter])
except:
self.root.counter = 0
self.label.configure(text = self.true_alphabet[0])
self.next_1(0)
if self.label_1['text'] == self.true_alphabet[0]:
self.next_2(0)
value = self.enigma_brain(self.val_0, self.val)
return value
### making the main keyboard layout ###
## _________START_________##
labels = []
buttons = []
def create_keyboard(self):
for i in self.alphabet:
self.create_label_and_buttons(i, self.alphabet.index(i))
for i in range(26):
if i <= 8:
self.labels[i].grid(row = 2, column = i)
self.buttons[i].grid(row = 5, column = i)
elif 8 < i <= 16:
self.labels[i].grid(row = 3, column = i-8)
self.buttons[i].grid(row = 6, column = i-8)
else:
self.labels[i].grid(row = 4, column = i-17)
self.buttons[i].grid(row = 7, column = i-17)
self.label_down = Label(self.root, text = " ")
self.label_down.grid()
def create_label_and_buttons(self, text, index):
self.labels.append(Label(self.root, text = text, padx = 20, pady = 20, borderwidth = 3, relief = 'ridge'))
self.buttons.append(Button(self.root, text = text, padx = 20, pady = 20, borderwidth = 3, relief = 'ridge', command = lambda: self.onClick(index)))
## ______________END_____________ ##
### making the rotating cylinders ###
## ____________START______________##
def next(self, i):
try:
if i == 0:
self.root.counter += 1
self.label.configure(text = self.true_alphabet[self.root.counter])
else:
self.root.counter -= 1
self.label.configure(text = self.true_alphabet[self.root.counter])
except:
self.root.counter = 0
self.label.configure(text = self.true_alphabet[self.root.counter])
def next_1(self, i):
try:
if i == 0:
self.root.counter_1 += 1
self.label_1.configure(text = self.true_alphabet[self.root.counter_1])
else:
self.root.counter_1 -= 1
self.label_1.configure(text = self.true_alphabet[self.root.counter_1])
except:
self.root.counter_1 = 0
self.label_1.configure(text = self.true_alphabet[self.root.counter_1])
def next_2(self, i):
try:
if i == 0:
self.root.counter_2 += 1
self.label_2.configure(text = self.true_alphabet[self.root.counter_2])
else:
self.root.counter_2 -= 1
self.label_2.configure(text = self.true_alphabet[self.root.counter_2])
except:
self.root.counter_2 = 0
self.label_2.configure(text = self.true_alphabet[self.root.counter_2])
def create_cylinders(self):
self.label = Label(self.root, text = self.true_alphabet[0])
self.label.grid(row = 1, column = 2)
self.button_right = Button(self.root, text = ">", command = lambda: self.next(0)).grid(row = 1, column = 1)
self.button_left = Button(self.root, text = "<", command = lambda: self.next(1)).grid(row = 1, column = 3)
self.label_1 = Label(self.root, text = self.true_alphabet[0])
self.label_1.grid(row = 1, column = 5)
self.button_right_1 = Button(self.root, text = ">", command = lambda: self.next_1(0)).grid(row = 1, column = 4)
self.button_left_1 = Button(self.root, text = "<", command = lambda: self.next_1(1)).grid(row = 1, column = 6)
self.label_2 = Label(self.root, text = self.true_alphabet[0])
self.label_2.grid(row = 1, column = 8)
self.button_right_2 = Button(self.root, text = ">", command = lambda: self.next_2(0)).grid(row = 1, column = 7)
self.button_left_2 = Button(self.root, text = "<", command = lambda: self.next_2(1)).grid(row = 1, column = 9)
## _____________END______________##
### The LOGIC PART BEGINS NOW
## ______________START_____________##
random_rotors = []
def create_random_rotors(self, i):
random.seed(i)
self.random_rotors.append(random.sample(self.true_alphabet, len(self.true_alphabet)))
connect_back_rotors = ['Z', 'Y', 'X', 'W', 'V', 'U', 'T', 'S', 'R', 'Q', 'P', 'O', 'N', 'M', 'L', 'K', 'J', 'I', 'H', 'G', 'F', 'E', 'D', 'C', 'B', 'A']
def calc_value(self, var, rotor_name):
value = self.true_alphabet.index(var)
letter = rotor_name[value]
return letter
def connect_back(self, value):
value = self.true_alphabet.index(value)
letter = self.connect_back_rotors[value]
return letter
def reverse(self, value, rotor_name):
value = self.true_alphabet[rotor_name.index(value)]
return value
def enigma_brain(self, val_0, val_list):
for i in range(3):
self.create_random_rotors(i)
rotors = []
for i in range(3):
rotors.append(self.random_rotors[i][self.true_alphabet.index(self.val[i]):] + self.random_rotors[i][:self.true_alphabet.index(self.val[i])])
#print(''.join(map(str, self.random_rotors[i][self.true_alphabet.index(self.val[i]):] + self.random_rotors[i][:self.true_alphabet.index(self.val[i])])))
value = self.val_0
for i in rotors:
value = self.calc_value(value, i)
value = self.connect_back(value)
for i in reversed(rotors):
value = self.reverse(value, i)
return value
## ___________END________________##
## MAKE THE EASIER INTERFACE
## ____________START_____________##
def create_downward_label(self, label_list):
self.label_down.configure(text = self.label_list)
def last_fn(self):
# self.create_downward_label(label_list)
self.root.mainloop()
enigma = Enigma()
enigma.last_fn()