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Trading.py
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# Load Nessesary Libraries
import tkinter as tk
from tkinter import ttk
from tkinter import messagebox
from matplotlib.backends.backend_tkagg import FigureCanvasTkAgg
import matplotlib.pyplot as plt
import pandas as pd
import numpy as np
# Create Window
window = tk.Tk()
window.geometry("1080x640")
window.wm_title("Trading - Forex")
# Create PanedWindow and Frames
pw = ttk.Panedwindow(window, orient=tk.HORIZONTAL)
pw.pack(fill=tk.BOTH, expand=True)
w2 = ttk.Panedwindow(pw, orient=tk.VERTICAL)
frame1 = ttk.Frame(pw, width=360, height=640, relief=tk.SUNKEN)
frame2 = ttk.Frame(pw, width=720, height=400, relief=tk.SUNKEN)
frame3 = ttk.Frame(pw, width=720, height=240, relief=tk.SUNKEN)
w2.add(frame2)
w2.add(frame3)
pw.add(w2)
pw.add(frame1)
# Fill Frame1 with TreeView and Button
item = ""
def callback(event):
global item
item = treeview.identify("item", event.x, event.y)
#treeview
treeview = ttk.Treeview(frame1)
treeview.grid(row=0, column=1, padx=25, pady=25)
treeview.insert("", "0", "Major", text="Major")
treeview.insert("Major", "1", "EUR/USD", text="EUR/USD")
treeview.insert("", "2", "Minor", text="Minor")
treeview.insert("Minor", "3", "EUR/GBR", text="EUR/GBR")
treeview.bind("<Button-1>", callback)
#button
def readNews(item):
if item == "EUR/USD":
news = pd.read_csv("data/news_EURUSD.txt")
elif item == "EUR/GBR":
news = pd.read_csv("data/news_EURGBR.txt")
textbox.insert(tk.INSERT, news)
def openTrade():
global data, future, data_close_array, future_array, line1, line2, line3, line4, canvas1, canvas2, canvas3, canvas4, ax1, ax2, ax3, ax4
if item != "":
if item=="EUR/USD":
#Button Settings
open_trading_btn.config(state="disabled")
start_trading_btn.config(state="normal")
#Read Data
data = pd.read_csv("data/eurusd.csv")
#Split Data
future = data[-1000:]
data = data[:len(data)-1000]
data_close_array = data.close1.values
future_array = list(future.close1.values)
#Line
fig1 = plt.Figure(figsize=(5,4), dpi = 100)
ax1 = fig1.add_subplot(111)
line1, = ax1.plot(range(len(data)), data.close1, color="blue")
canvas1 = FigureCanvasTkAgg(fig1, master=tab1)
canvas1.draw()
canvas1.get_tk_widget().pack(side=tk.TOP, fill=tk.BOTH, expand=1)
#Scatter
fig2 = plt.Figure(figsize=(5,4), dpi=100)
ax2 = fig2.add_subplot(111)
line2 = ax2.scatter(range(len(data)), data.close1, color="blue", alpha=0.5, s=1)
canvas2 = FigureCanvasTkAgg(fig2, master=tab2)
canvas2.draw()
canvas2.get_tk_widget().pack(side=tk.TOP, fill=tk.BOTH, expand=1)
#Read News
readNews(item)
elif item =="EUR/GBR":
#Button Settings
open_trading_btn.config(state="disabled")
start_trading_btn.config(state="normal")
#Read Data
data = pd.read_csv("data/eurgbr.csv")
#Split Data
future = data[-1000:]
data = data[:len(data)-1000]
data_close_array = data.close1.values
future_array = list(future.close1.values)
#Line
fig3 = plt.Figure(figsize=(5,4), dpi = 100)
ax3 = fig3.add_subplot(111)
line3, = ax3.plot(range(len(data)), data.close1, color="blue")
canvas3 = FigureCanvasTkAgg(fig3, master=tab1)
canvas3.draw()
canvas3.get_tk_widget().pack(side=tk.TOP, fill=tk.BOTH, expand=1)
#Scatter
fig4 = plt.Figure(figsize=(5,4), dpi=100)
ax4 = fig4.add_subplot(111)
line4 = ax4.scatter(range(len(data)), data.close1, color="blue", alpha=0.5, s=1)
canvas4 = FigureCanvasTkAgg(fig4, master=tab2)
canvas4.draw()
canvas4.get_tk_widget().pack(side=tk.TOP, fill=tk.BOTH, expand=1)
#Read News
readNews(item)
else:
messagebox.showinfo(title="Warning", message="Please Choose a Currency Pair")
else:
messagebox.showinfo(title="Warning", message="Please Choose a Currency Pair")
open_trading_btn = tk.Button(frame1, text="Open Trading", command=openTrade)
open_trading_btn.grid(row=2, column=1, padx=5, pady=5)
# Create Frame3 with Text Editor & Scroll Bar
textbox = tk.Text(frame3, width=70, height=10, wrap="word")
textbox.grid(row=0, column=0, padx=25, pady=25)
scroll = tk.Scrollbar(frame3, orient=tk.VERTICAL, command=textbox.yview)
scroll.grid(row=0, column=1, sticky=tk.N + tk.S, pady=10)
textbox.config(yscrollcommand=scroll.set)
# Create Frame2 with Tab, Radio Button, Button, Result(Label Frame), and Plot
#tabs
tabs = ttk.Notebook(frame2, width=540, height=300)
tabs.place(x=25, y=25)
tab1 = ttk.Frame(tabs, width=50, height=50)
tab2 = ttk.Frame(tabs, width=50, height=50)
tabs.add(tab1, text="Line")
tabs.add(tab2, text="Scatter", compound=tk.LEFT)
#label frame
label_frame = tk.LabelFrame(frame2, text="Result", width=100, height=100)
label_frame.place(x=580, y=40)
tk.Label(label_frame, text="Buy: ", bd=3).grid(row=0, column=0)
tk.Label(label_frame, text="Sell: ", bd=3).grid(row=1, column=0)
#buy and sell labels
buy_value = tk.Label(label_frame, text="1", bd=3)
buy_value.grid(row=0, column=1)
sell_value = tk.Label(label_frame, text="0", bd=3)
sell_value.grid(row=1, column=1)
#radiobutton
method = tk.StringVar()
tk.Radiobutton(frame2, text="m1: ", value="m1", variable=method).place(x=580, y=150)
tk.Radiobutton(frame2, text="m2: ", value="m2", variable=method).place(x=580, y=180)
#button
def moving_average(a, n=50):
ret = np.cumsum(a, dtype=float)
ret[n:] = ret[n:] - ret[:-n]
return ret[n-1:]/n
def update():
global data_close_array, ax1, ax2, ax3, ax4
spread = 0.002
buy_value.config(text=str((data_close_array[-1]-spread).round(5)))
sell_value.config(text=str((data_close_array[-1]+spread).round(5)))
window.after(300, update)
data_close_array = np.append(data_close_array, future_array.pop(0))
if method.get() == "m1":
if item == "EUR/USD":
# line
ax1.set_xlim(0,len(data_close_array) + 10)
line1.set_ydata(data_close_array)
line1.set_xdata(range(len(data_close_array)))
# scatter
ax2.set_xlim(0,len(data_close_array) + 10)
ax2.scatter(range(len(data_close_array)), data_close_array, s = 1, alpha = 0.5, color = "blue")
# moving average
n = 50
mid_rolling = moving_average(data_close_array,n)
ax1.plot(range(n-1,len(data_close_array)),mid_rolling,linestyle = "--", color = "red")
ax2.plot(range(n-1,len(data_close_array)),mid_rolling,linestyle = "--", color = "red")
canvas1.draw()
canvas2.draw()
elif item == "EUR/GBR":
# line
ax3.set_xlim(0,len(data_close_array) + 10)
line3.set_ydata(data_close_array)
line3.set_xdata(range(len(data_close_array)))
# scatter
ax4.set_xlim(0,len(data_close_array) + 10)
ax4.scatter(range(len(data_close_array)), data_close_array, s = 1, alpha = 0.5, color = "blue")
# moving average
n = 50
mid_rolling = moving_average(data_close_array,n)
ax3.plot(range(n-1,len(data_close_array)),mid_rolling,linestyle = "--", color = "red")
ax4.plot(range(n-1,len(data_close_array)),mid_rolling,linestyle = "--", color = "red")
canvas3.draw()
canvas4.draw()
elif method.get() == "m2":
if item == "EUR/USD":
# line
ax1.set_xlim(0,len(data_close_array) + 10)
line1.set_ydata(data_close_array)
line1.set_xdata(range(len(data_close_array)))
# scatter
ax2.set_xlim(0,len(data_close_array) + 10)
ax2.scatter(range(len(data_close_array)), data_close_array, s = 1, alpha = 0.5, color = "blue")
# moving average
n = 200
long_rolling = moving_average(data_close_array,n)
ax1.plot(range(n-1,len(data_close_array)),long_rolling,linestyle = "--", color = "green")
ax2.plot(range(n-1,len(data_close_array)),long_rolling,linestyle = "--", color = "green")
canvas1.draw()
canvas2.draw()
elif item == "EUR/GBR":
# line
ax3.set_xlim(0,len(data_close_array) + 10)
line3.set_ydata(data_close_array)
line3.set_xdata(range(len(data_close_array)))
# scatter
ax4.set_xlim(0,len(data_close_array) + 10)
ax4.scatter(range(len(data_close_array)), data_close_array, s = 1, alpha = 0.5, color = "blue")
# moving average
n = 200
long_rolling = moving_average(data_close_array,n)
ax3.plot(range(n-1,len(data_close_array)),long_rolling,linestyle = "--", color = "green")
ax4.plot(range(n-1,len(data_close_array)),long_rolling,linestyle = "--", color = "green")
canvas3.draw()
canvas4.draw()
else:
if item == "EUR/USD":
# line
ax1.set_xlim(0,len(data_close_array) + 10)
line1.set_ydata(data_close_array)
line1.set_xdata(range(len(data_close_array)))
# scatter
ax2.set_xlim(0,len(data_close_array) + 10)
ax2.scatter(range(len(data_close_array)), data_close_array, s = 1, alpha = 0.5, color = "blue")
canvas1.draw()
canvas2.draw()
elif item == "EUR/GBR":
# line
ax3.set_xlim(0,len(data_close_array) + 10)
line3.set_ydata(data_close_array)
line3.set_xdata(range(len(data_close_array)))
# scatter
ax4.set_xlim(0,len(data_close_array) + 10)
ax4.scatter(range(len(data_close_array)), data_close_array, s = 1, alpha = 0.5, color = "blue")
canvas3.draw()
canvas4.draw()
def startTrading():
window.after(0, update)
start_trading_btn = tk.Button(frame2, text="Start Trading", command=startTrading)
start_trading_btn.place(x=580, y= 285)
start_trading_btn.config(state="disabled")
window.mainloop()