My little brother is just getting into programming, and for his Science Fair project, he's doing a simulation of a flock of birds in the sky. He's gotten most of his code written, and it works nicely, but the birds need to move every moment.

Tkinter, however, hogs the time for its own event loop, and so his code won't run. Doing root.mainloop() runs, runs, and keeps running, and the only thing it runs is the event handlers.

Is there a way to have his code run alongside the mainloop (without multithreading, it's confusing and this should be kept simple), and if so, what is it?

Right now, he came up with an ugly hack, tying his move() function to <b1-motion>, so that as long as he holds the button down and wiggles the mouse, it works. But there's got to be a better way.

5 Answers 5


Use the after method on the Tk object:

from tkinter import *

root = Tk()

def task():
    root.after(2000, task)  # reschedule event in 2 seconds

root.after(2000, task)

Here's the declaration and documentation for the after method:

def after(self, ms, func=None, *args):
    """Call function once after given time.

    MS specifies the time in milliseconds. FUNC gives the
    function which shall be called. Additional parameters
    are given as parameters to the function call.  Return
    identifier to cancel scheduling with after_cancel."""
  • 39
    if you specify the timeout to be 0, task will put itself back on the event loop immediately after finishing. this will not block other events, while still running your code as often as possible.
    – Nathan
    Sep 9, 2009 at 3:27
  • 1
    After pulling my hair out for hours trying to get opencv and tkinter to work together properly and cleanly close when the [X] button was clicked, this along with win32gui.FindWindow(None, 'window title') did the trick! I'm such a noob ;-)
    – JxAxMxIxN
    Oct 16, 2016 at 14:48
  • 2
    This is not the best option; although it works in this case, it is not good for most scripts (it only runs every 2 seconds), and setting the timeout to be 0, per the suggestion posted by @Nathan because it only runs when tkinter is not busy (which could cause problems in some complex programs). Best to stick with the threading module.
    – Anonymous
    Apr 26, 2019 at 21:14
  • Wow, I have spent hours now debugging why my gui kept freezing. I feel stupid, thanks a million! Aug 22, 2020 at 5:41
  • 1
    If your task() is CPU intensive, threading solutions (e.g. posted by Kevin and Bjorn) might be needed. I originally use after() for my opencv task because it seems simple, resulting in a painfully slow GUI --- just resizing the window took about 2-3 seconds.
    – weeix
    Sep 26, 2021 at 14:17

The solution posted by Bjorn results in a "RuntimeError: Calling Tcl from different appartment" message on my computer (RedHat Enterprise 5, python 2.6.1). Bjorn might not have gotten this message, since, according to one place I checked, mishandling threading with Tkinter is unpredictable and platform-dependent.

The problem seems to be that app.start() counts as a reference to Tk, since app contains Tk elements. I fixed this by replacing app.start() with a self.start() inside __init__. I also made it so that all Tk references are either inside the function that calls mainloop() or are inside functions that are called by the function that calls mainloop() (this is apparently critical to avoid the "different apartment" error).

Finally, I added a protocol handler with a callback, since without this the program exits with an error when the Tk window is closed by the user.

The revised code is as follows:

# Run tkinter code in another thread

import tkinter as tk
import threading

class App(threading.Thread):

    def __init__(self):

    def callback(self):

    def run(self):
        self.root = tk.Tk()
        self.root.protocol("WM_DELETE_WINDOW", self.callback)

        label = tk.Label(self.root, text="Hello World")


app = App()
print('Now we can continue running code while mainloop runs!')

for i in range(100000):
  • 6
    typically you would pass arguments to __init__(..), store them in self and use them in run(..) Oct 2, 2015 at 16:35
  • 2
    The root doesn't show up at all, giving the warning: ` WARNING: NSWindow drag regions should only be invalidated on the Main Thread! This will throw an exception in the future ` Aug 11, 2019 at 12:09
  • This is a life saver. Code outside the GUI should be checking for tkinter thread to be alive if you wan't to be able to exit the python script once exiting the gui. Something like while app.is_alive(): etc
    – m3nda
    Dec 23, 2019 at 12:59
  • How would you implement to be able to update the label text when ever it is needed from within the for loop or from the rest of the script?
    – FotisK
    Dec 11, 2020 at 20:09
  • i was trying to make this work with a window defined outside the thread code so it could be accessed by the other code.
    – John Sohn
    Sep 12, 2021 at 20:55

When writing your own loop, as in the simulation (I assume), you need to call the update function which does what the mainloop does: updates the window with your changes, but you do it in your loop.

def task():
   # do something

while 1:
  • 12
    You have to be very careful with this kind of programming. If any events cause task to be called you'll end up with nested event loops, and that's bad. Unless you fully understand how event loops work you should avoid calling update at all costs. Feb 1, 2011 at 23:30
  • I used this technique once - works OK but depending on how you do it, you might have some staggering in the UI.
    – jldupont
    Aug 12, 2011 at 11:42
  • @Bryan Oakley Is update a loop then? And how would that be problematic?
    – Green05
    Aug 7, 2020 at 7:37

Another option is to let tkinter execute on a separate thread. One way of doing it is like this:

import Tkinter
import threading

class MyTkApp(threading.Thread):
    def __init__(self):
        self.s = Tkinter.StringVar()
        l = Tkinter.Label(self.root,textvariable=self.s)

    def run(self):

app = MyTkApp()

# Now the app should be running and the value shown on the label
# can be changed by changing the member variable s.
# Like this:
# app.s.set('Bar')

Be careful though, multithreaded programming is hard and it is really easy to shoot your self in the foot. For example you have to be careful when you change member variables of the sample class above so you don't interrupt with the event loop of Tkinter.

  • 3
    Not sure this can work. Just tried something similar and I get "RuntimeError: main thread is not in main loop".
    – jldupont
    Aug 12, 2011 at 11:56
  • 6
    jldupont: I got "RuntimeError: Calling Tcl from different appartment" (possibly the same error in a different version). The fix was to initialise Tk in run(), not in __init__(). This means that you are initialising Tk in the same thread as you call mainloop() in.
    – mgiuca
    Aug 12, 2012 at 10:02

This is the first working version of what will be a GPS reader and data presenter. tkinter is a very fragile thing with way too few error messages. It does not put stuff up and does not tell why much of the time. Very difficult coming from a good WYSIWYG form developer. Anyway, this runs a small routine 10 times a second and presents the information on a form. Took a while to make it happen. When I tried a timer value of 0, the form never came up. My head now hurts! 10 or more times per second is good enough for me. I hope it helps someone else. Mike Morrow

import tkinter as tk
import time

def GetDateTime():
  # Get current date and time in ISO8601
  # https://en.wikipedia.org/wiki/ISO_8601 
  # https://xkcd.com/1179/
  return (time.strftime("%Y%m%d", time.gmtime()),
          time.strftime("%H%M%S", time.gmtime()),
          time.strftime("%Y%m%d", time.localtime()),
          time.strftime("%H%M%S", time.localtime()))

class Application(tk.Frame):

  def __init__(self, master):

    fontsize = 12
    textwidth = 9

    tk.Frame.__init__(self, master)

    tk.Label(self, font=('Helvetica', fontsize), bg = '#be004e', fg = 'white', width = textwidth,
             text='Local Time').grid(row=0, column=0)
    self.LocalDate = tk.StringVar()
    tk.Label(self, font=('Helvetica', fontsize), bg = '#be004e', fg = 'white', width = textwidth,
             textvariable=self.LocalDate).grid(row=0, column=1)

    tk.Label(self, font=('Helvetica', fontsize), bg = '#be004e', fg = 'white', width = textwidth,
             text='Local Date').grid(row=1, column=0)
    self.LocalTime = tk.StringVar()
    tk.Label(self, font=('Helvetica', fontsize), bg = '#be004e', fg = 'white', width = textwidth,
             textvariable=self.LocalTime).grid(row=1, column=1)

    tk.Label(self, font=('Helvetica', fontsize), bg = '#40CCC0', fg = 'white', width = textwidth,
             text='GMT Time').grid(row=2, column=0)
    self.nowGdate = tk.StringVar()
    tk.Label(self, font=('Helvetica', fontsize), bg = '#40CCC0', fg = 'white', width = textwidth,
             textvariable=self.nowGdate).grid(row=2, column=1)

    tk.Label(self, font=('Helvetica', fontsize), bg = '#40CCC0', fg = 'white', width = textwidth,
             text='GMT Date').grid(row=3, column=0)
    self.nowGtime = tk.StringVar()
    tk.Label(self, font=('Helvetica', fontsize), bg = '#40CCC0', fg = 'white', width = textwidth,
             textvariable=self.nowGtime).grid(row=3, column=1)

    tk.Button(self, text='Exit', width = 10, bg = '#FF8080', command=root.destroy).grid(row=4, columnspan=2)


  def gettime(self):
    gdt, gtm, ldt, ltm = GetDateTime()
    gdt = gdt[0:4] + '/' + gdt[4:6] + '/' + gdt[6:8]
    gtm = gtm[0:2] + ':' + gtm[2:4] + ':' + gtm[4:6] + ' Z'  
    ldt = ldt[0:4] + '/' + ldt[4:6] + '/' + ldt[6:8]
    ltm = ltm[0:2] + ':' + ltm[2:4] + ':' + ltm[4:6]  

    self.after(100, self.gettime)
   #print (ltm)  # Prove it is running this and the external code, too.

root = tk.Tk()
root.wm_title('Temp Converter')
app = Application(master=root)

w = 200 # width for the Tk root
h = 125 # height for the Tk root

# get display screen width and height
ws = root.winfo_screenwidth()  # width of the screen
hs = root.winfo_screenheight() # height of the screen

# calculate x and y coordinates for positioning the Tk root window

#x = (ws/2) - (w/2)
#y = (hs/2) - (h/2)

#right bottom corner (misfires in Win10 putting it too low. OK in Ubuntu)
x = ws - w
y = hs - h - 35  # -35 fixes it, more or less, for Win10

#set the dimensions of the screen and where it is placed
root.geometry('%dx%d+%d+%d' % (w, h, x, y))


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