How to connect a progress bar to a function?

Question

I\'m trying to connect a progress bar to a function for my project.

This is what I have so far but im pretty sure it does nothing:

def main():
    p         


        

Answer 1

To understand the 'freezing' you need to understand mainloop(). Calling this method starts the tkinter event loop. The main thread is responsible for this loop. Therefore, when your work intensive function runs in the main thread, it is also interfering with the mainloop. To prevent this you can use a secondary Thread to run your function. It's recommended that secondary threads are not given access to tkinter objects. Allen B.Taylor, author of mtTkinter, states:

The problems stem from the fact that the _tkinter module attempts to gain control of the main thread via a polling technique when processing calls from other threads. If it succeeds, all is well. If it fails (i.e., after a timeout), the application receives an exception with the message: "RuntimeError: main thread is not in main loop".

You can have the secondary thread put information into a Queue. Then have a function that checks the Queue every x milliseconds, within the mainloop, via the after() method.

First, decide what you want the value of the Progressbar's maximum option to be.
This is the Progressbar's maximum indicator value (how many units are required to fill the Progressbar). For example, you could set maximum=4 and then put the appropriate indicator value into the Queue after each of your four functions. The main thread can then retrieve these values (from the Queue) to set the progress via a tkinter.IntVar(). (Note that if you use progbar.step(), the Progressbar resets to 0 (empty) at the end, instead of reaching 4 (completely filled).)

Here's a quick look at how you can use a tkinter.IntVar() with a Progressbar:

int_var = tkinter.IntVar()
pb_instance = ttk.Progressbar(root, maximum=4)
pb_instance['variable'] = int_var
pb_instance.pack()
# completely fill the Progressbar
int_var.set(4)
# get the progress value
x = int_var.get()

Here's an example based on your own (renamed the "main" function "arbitrary"):

import time
import threading

try: import tkinter
except ImportError:
    import Tkinter as tkinter
    import ttk
    import Queue as queue
else:
    from tkinter import ttk
    import queue

class GUI_Core(object):

    def __init__(self):
        self.root = tkinter.Tk()

        self.int_var = tkinter.IntVar()
        progbar = ttk.Progressbar(self.root, maximum=4)
        # associate self.int_var with the progress value
        progbar['variable'] = self.int_var
        progbar.pack()

        self.label = ttk.Label(self.root, text='0/4')
        self.label.pack()

        self.b_start = ttk.Button(self.root, text='Start')
        self.b_start['command'] = self.start_thread
        self.b_start.pack()

    def start_thread(self):
        self.b_start['state'] = 'disable'
        self.int_var.set(0) # empty the Progressbar
        self.label['text'] = '0/4'
        # create then start a secondary thread to run arbitrary()
        self.secondary_thread = threading.Thread(target=arbitrary)
        self.secondary_thread.start()
        # check the Queue in 50ms
        self.root.after(50, self.check_que)

    def check_que(self):
        while True:
            try: x = que.get_nowait()
            except queue.Empty:
                self.root.after(25, self.check_que)
                break
            else: # continue from the try suite
                self.label['text'] = '{}/4'.format(x)
                self.int_var.set(x)
                if x == 4:
                    self.b_start['state'] = 'normal'
                    break


def func_a():
    time.sleep(1) # simulate some work

def func_b():
    time.sleep(0.3)

def func_c():
    time.sleep(0.9)

def func_d():
    time.sleep(0.6)

def arbitrary():
    func_a()
    que.put(1)
    func_b()
    que.put(2)
    func_c()
    que.put(3)
    func_d()
    que.put(4)

que = queue.Queue()
gui = GUI_Core() # see GUI_Core's __init__ method
gui.root.mainloop()

If all you want is something that indicates to the user that there is activity
you can set the Progressbar's mode option to 'indeterminate'.
The indicator bounces back and forth in this mode (the speed relates to the maximum option).

Then you can call the Progressbar's start() method directly before starting the secondary thread;
and then call stop() after secondary_thread.is_alive() returns False.

Here's an example:

import time
import threading

try: import tkinter
except ImportError:
    import Tkinter as tkinter
    import ttk
else: from tkinter import ttk

class GUI_Core(object):

    def __init__(self):
        self.root = tkinter.Tk()

        self.progbar = ttk.Progressbar(self.root)
        self.progbar.config(maximum=4, mode='indeterminate')
        self.progbar.pack()

        self.b_start = ttk.Button(self.root, text='Start')
        self.b_start['command'] = self.start_thread
        self.b_start.pack()

    def start_thread(self):
        self.b_start['state'] = 'disable'
        self.progbar.start()
        self.secondary_thread = threading.Thread(target=arbitrary)
        self.secondary_thread.start()
        self.root.after(50, self.check_thread)

    def check_thread(self):
        if self.secondary_thread.is_alive():
            self.root.after(50, self.check_thread)
        else:
            self.progbar.stop()
            self.b_start['state'] = 'normal'


def func_a():
    time.sleep(1) # simulate some work

def func_b():
    time.sleep(0.3)

def func_c():
    time.sleep(0.9)

def func_d():
    time.sleep(0.6)

def arbitrary():
    func_a()
    func_b()
    func_c()
    func_d()

gui = GUI_Core()
gui.root.mainloop()

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