#! /usr/bin/env python3 import math import numpy as np import pandas as pd import MagnaSim1 as MaSi from tkinter import * window = Tk() window.title("MaSi") #window.geometry('600x500') lbl_client_txt = ["BTC","ETH","MGN","BTC/ETH","ETH/MGN","MGN/BTC","B/E/M"] lbl_client = Label(window, text="Nbr clients:") lbl_client.grid(column=0, row=0) lbl_client_coord = {"BTC":(0,1),"ETH":(0,3),"MGN":(0,5),"BTC/ETH":(1,1),"ETH/MGN":(1,3),"MGN/BTC":(1,5),"B/E/M":(2,1)} txt_client_coord = {"BTC":(0,2),"ETH":(0,4),"MGN":(0,6),"BTC/ETH":(1,2),"ETH/MGN":(1,4),"MGN/BTC":(1,6),"B/E/M":(2,2)} lbl_client_token = {} txt_client_token = {} for token in lbl_client_txt: lbl_client_token[token] = Label(window, text=token) txt_client_token[token] = Entry(window, width=10) txt_client_token[token].insert(0,"0") lbl_client_token[token].grid(row=lbl_client_coord[token][0], column=lbl_client_coord[token][1]) txt_client_token[token].grid(row=txt_client_coord[token][0], column=txt_client_coord[token][1]) lbl_rates = Label(window, text="% Frais:") lbl_rates.grid(column=0, row=3) lbl_rates_coord = {"BTC":(3,1),"ETH":(3,3),"MGN":(3,5)} txt_rates_coord = {"BTC":(3,2),"ETH":(3,4),"MGN":(3,6)} lbl_rates = {} txt_rates = {} for token in lbl_client_txt[0:3]: lbl_rates[token] = Label(window, text=token) txt_rates[token] = Entry(window, width=10) txt_rates[token].insert(0,"0") lbl_rates[token].grid(row=lbl_rates_coord[token][0], column=lbl_rates_coord[token][1]) txt_rates[token].grid(row=txt_rates_coord[token][0], column=txt_rates_coord[token][1]) def clicked(): # First we get the number of clients # in each category nbr_client = {} for token in lbl_client_txt: nbr_client[token] = int(txt_client_token[token].get()) if nbr_client[token] == None:#To avoid erors nbr_client[token] = 0 # Then we get the rates for each token rates_fee = {} for token in lbl_client_txt[0:3]: rates_fee[token] = float(txt_rates[token].get()) # We print the total of clients lbl_SUM.configure(text=sum(nbr_client.values())) print(sum(nbr_client.values())) # We create a population pop = MaSi.Populations(nbr_client) # We create the list of transaction trans = MaSi.Transaction() trans_value = {"BTC":0,"ETH":0,"MGN":0} trans_fees = {"BTC":0,"ETH":0,"MGN":0} for i in pop.population: x = abs(np.random.normal(i.magna_wallet_btc[0],i.magna_wallet_btc[1])) if x != 0: trans.btc += 1 trans_value["BTC"] += x trans_fees["BTC"] += x*rates_fee[token] y = abs(np.random.normal(i.magna_wallet_eth[0],i.magna_wallet_eth[1])) if y != 0: trans.eth += 1 trans_value["ETH"] += y trans_fees["ETH"] += y*rates_fee["ETH"] z = abs(np.random.normal(i.magna_wallet_mgn[0],i.magna_wallet_mgn[1])) if z != 0: trans.mgn += 1 trans_value["MGN"] += z trans_fees["MGN"] += z*rates_fee["MGN"] # print("Nombre de BTC : {:f}".format(MaSi.fees_btc(trans.btc)*0.0000001)) print("Pour le BTC:\nLes transfères du aux frais coûtent :{:f} satoshi\n".format(MaSi.fees_btc(trans.btc))) print("Pour le ETH:\nLes transfères du aux frais coûtent :{:f} Gwei\n".format(MaSi.fees_eth(trans.eth))) print("Pour le MGN:\nLes transfères du aux frais coûtent :{:f} stroops\n".format(MaSi.fees_mgn(trans.mgn))) print("frais :", trans_fees) print("total mouvement:", trans_value) btn = Button(window, text="Launch", command=clicked) lbl_SUM0 = Label(window, text="clients :") lbl_SUM0.grid(column=7, row=21) lbl_SUM = Label(window, text="0") lbl_SUM.grid(column=8, row=21) btn.grid(column=8, row=20) txt_client_token["BTC"].focus() window.mainloop()