Graphic.py

import tkinter as tk
from tkinter import ttk
from tkinter import scrolledtext
import Cdma as cdma

win = tk.Tk()
def make_menu(w):
    global the_menu
    the_menu = tk.Menu(w, tearoff=0)
    the_menu.add_command(label="Cut")
    the_menu.add_command(label="Copy")
    the_menu.add_command(label="Paste")

def show_menu(e):
    w = e.widget
    the_menu.entryconfigure("Cut",
    command=lambda: w.event_generate("<<Cut>>"))
    the_menu.entryconfigure("Copy",
    command=lambda: w.event_generate("<<Copy>>"))
    the_menu.entryconfigure("Paste",
    command=lambda: w.event_generate("<<Paste>>"))
    the_menu.tk.call("tk_popup", the_menu, e.x_root, e.y_root)

def Start ():    
    make_menu(win)
    win.title("CDMA Simulator")

    # drop down menu
    ttk.Label(win, text="Nombre d'utilisateur:").grid(column=0, row=0)
    optionss = ['1','1','2']
    number = tk.StringVar()
    numberChosen = ttk.OptionMenu(win,number, *optionss) 
    numberChosen.grid(column=0, row=1)


    
    # numberChosen = ttk.Combobox(win, state="readonly", width=12, textvariable=number) 
    # numberChosen['values'] = (1, 2)
    # numberChosen.grid(column=0, row=1)
    # numberChosen.current(0)
    

     # drop down menu
    ttk.Label(win, text="Facteur d'étalement:").grid(column=1, row=0)
    options =['8', '8' ,'16']
    option_Menu = tk.StringVar()
    # option_Menu.set('8')
    factorChosen = ttk.OptionMenu(win,option_Menu, *options) 
    factorChosen.grid(column=1, row=1)    
    
    #check box
    var1 = tk.IntVar()
    c1 = tk.Checkbutton(win, text='Mode Verbose',variable=var1, onvalue=1, offvalue=0)
    c1.grid(column=2, row=1)
   
    
    

    #Slider    
    ttk.Label(win, text="Niveau de bruit").grid(column=0, row=2)
    slider = tk.Scale(win, from_=0, to=100,tickinterval=10,length =300,width =10,orient="horizontal")
    slider.set(20)
    slider.grid(column=1, row=2, sticky=tk.W, columnspan=2)
    
    # scrolled text
    ttk.Label(win, text="Message 1:").grid(column=0, row=4)
    msg_1 = scrolledtext.ScrolledText(win, width=30, height=3, wrap=tk.WORD)
    msg_1.grid(column=0, row=5, sticky='WE', columnspan=3)
    # scrolled text
    ttk.Label(win, text="Message 2:").grid(column=0, row=6)
    msg_2 = scrolledtext.ScrolledText(win, width=30, height=3, wrap=tk.WORD)
    msg_2.grid(column=0, row=7, sticky='WE', columnspan=3 )
    if(number.get() == 1):
        msg_2.configure(state="disabled")
        # button
    
    action = ttk.Button(win, text="Start", command= lambda: Start_simulation(number.get(),option_Menu.get(),var1.get(), slider.get()/100, msg_1.get('1.0', 'end-1c'), msg_2.get('1.0', 'end-1c')))
    action.grid(column=2, row=8)
    
    

def Start_simulation(nombre_users, factor,verbose, bruit, msg_1, msg_2):
    # action.configure(text='Start')
    print('=========== Start simulation ===========')
    print('Nombre d utilisateurs: '+nombre_users)
    print("Facteur d'etalement: "+factor)
    print('Bruit: '+str(bruit*100)+"%")
    print()
   
    
    if (factor== '8'):
        Cle_1=cdma.Key_1
        Cle_2=cdma.Key_2
    elif (factor == '16'):
        Cle_1=cdma.Key_16_1
        Cle_2=cdma.Key_16_2

    #Cas 1 user
    if nombre_users =='1':
        #saving input as bits for BER analysis 
        input_1 = cdma.binaire_to_ternaire(cdma.text_to_bits(msg_1))
        Encoded_Volt = cdma.User_sending(msg_1,Cle_1)
        if (bruit > 0):
            Traffic = cdma.Multiplexing(Encoded_Volt ,cdma.Noise_Generator(len(Encoded_Volt),bruit ))
        else : Traffic = Encoded_Volt
        if (verbose ==1):
            print(">>>>>>>>>>>>>>>>>>>>>>>>>>> Message du l'utilisateur en bits <<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
            print(input_1)
            print()
            print(">>>>>>>>>>>>>>>>>>>>>>>>>>> Message du l'utilisateur en Volt <<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
            print(Encoded_Volt)
            print()
            print(">>>>>>>>>>>>>>>>>>>>>>>>>>>>> Traffic sur le canal <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
            print(Traffic)
            print()


    #Cas 2 users
    elif (nombre_users == '2'): 
        #saving input as bits for BER analysis 
        input_2_1 = cdma.binaire_to_ternaire(cdma.text_to_bits(msg_1))
        input_2_2 = cdma.binaire_to_ternaire(cdma.text_to_bits(msg_2))
     
        Encoded_Volt_1 = cdma.User_sending(msg_1,Cle_1)
        Encoded_Volt_2 = cdma.User_sending(msg_2,Cle_2 )
        #saving the lengths
        long1,long2=len(Encoded_Volt_1),len(Encoded_Volt_2)
        if (bruit > 0):
            Traffic = cdma.Multiplexing(cdma.Multiplexing(Encoded_Volt_1,Encoded_Volt_2),cdma.Noise_Generator(max(len(Encoded_Volt_1),len(Encoded_Volt_2)),bruit))
        else : Traffic = cdma.Multiplexing(Encoded_Volt_1,Encoded_Volt_2)

        if (verbose ==1):
            print(">>>>>>>>>>>>>>>>>>>>>>>>> Message du l'utilisateur 1 en bits <<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
            print(input_2_1)
            print()
            print(">>>>>>>>>>>>>>>>>>>>>>>>> Message du l'utilisateur 1 en Volts <<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
            print(Encoded_Volt_1)
            print()
            print(">>>>>>>>>>>>>>>>>>>>>>>>> Message du l'utilisateur 2 en bits <<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
            print(input_2_2)
            print()
            print(">>>>>>>>>>>>>>>>>>>>>>>>> Message du l'utilisateur 2 en Volts <<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
            print(Encoded_Volt_2)
            print()
            print(">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> Traffic sur le canal <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
            print(Traffic)
            print()

    #reception
    if nombre_users== '1':
        Reception=cdma.Decoder_1(Traffic,Cle_1)
        if (verbose ==1):
            print(">>>>>>>>>>>>>>>>>>>>>>>>>>>>> Message a la reception en bits <<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
            print(Reception)
            print()
            print("_____________________________________________________________________________________________________________________________________________________________________________")
            print()
        print(">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> Reception <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
        #Back to Text 
        try :
            print (cdma.Back_to_text(Reception))
        except:
            print ("Erreurs dans la reconversion en ASCII")
        
        er =cdma.BER(input_1,Reception)
        print()
        if (verbose ==1):
            print(">>>>>>>>>>>>>>>>>>>>>>>>> Nombre de bits errones <<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
            print(er)
            print()
        print(">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> Taux d'erreur <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
        print("{:.2f} %".format(er/len(input_1)))

    elif nombre_users== '2':
        Reception_1 = cdma.Decoder_1(Traffic[:long1],Cle_1)
        Reception_2 = cdma.Decoder_1(Traffic[:long2],Cle_2)
        if (verbose ==1):
            print(">>>>>>>>>>>>>>>>>>>>>>>>>>>>> Message 1 a la reception en bits <<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
            print(Reception_1)
            print()
            print(">>>>>>>>>>>>>>>>>>>>>>>>>>>>> Message 2 a la reception en bits <<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
            print(Reception_2)
            print()
            print("_____________________________________________________________________________________________________________________________________________________________________________")
            print()
        print(">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> Reception 1 <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
        try :
            print(cdma.Back_to_text(Reception_1))
        except:
            print ("Erreurs dans la reconversion en ASCII")
       
        er1 = cdma.BER(input_2_1,Reception_1)
        print()
        if (verbose ==1):
            print(">>>>>>>>>>>>>>>>>>>>>>>>> Nombre de bits errones pour message 1 <<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
            print(er1)
            print()
        print(">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> Taux d'erreur pour message 1 <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
        print("{:.2f} %".format(er1/len(input_2_1)))

        print(">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> Reception 2 <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<")

        try :
            print(cdma.Back_to_text(Reception_2))
        except:
            print ("Erreur dans la reconversion en ASCII")
        
        er2 = cdma.BER(input_2_2,Reception_2)
        print()
        if (verbose ==1):
            print(">>>>>>>>>>>>>>>>>>>>>>>>> Nombre de bits errones pour message 2 <<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
            print(er2)
            print()
        print(">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> Taux d'erreur pour message 2 <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<")
        print("{:.2f} %".format(er2/len(input_2_2)))
 
if __name__ == '__main__':
    Start() 
    win.mainloop()