I want to add a control terminal widget to my pure python+tkinter application similar to the python interpreter provided in Blender. It should be running within the same context (process) so the user can add features and control the application that is currently running from the control widget. Ideally I'd like it to also "hijack" stdout and stderr of the current application so it will report any problems or debugging information within the running application.

This is what I have come up with so far. The only problems are that it isn't responding to commands, and the thread doesn't stop when the user closes the window.

import Tkinter as tk
import sys
import code
from threading import *

class Console(tk.Frame):
    def __init__(self,parent=None):
        tk.Frame.__init__(self, parent)
        self.parent = parent
        sys.stdout = self
        sys.stderr = self
        self.createWidgets()
        self.consoleThread = ConsoleThread()
        self.after(100,self.consoleThread.start)

    def write(self,string):
        self.ttyText.insert('end', string)
        self.ttyText.see('end')

    def createWidgets(self):
        self.ttyText = tk.Text(self.parent, wrap='word')
        self.ttyText.grid(row=0,column=0,sticky=tk.N+tk.S+tk.E+tk.W)


class ConsoleThread(Thread):

    def __init__(self):
        Thread.__init__(self)

    def run(self):
        vars = globals().copy()
        vars.update(locals())
        shell = code.InteractiveConsole(vars)
        shell.interact()

if __name__ == '__main__':
    root = tk.Tk()
    root.config(background="red")
    main_window = Console(root)
    main_window.mainloop()
    try:
        if root.winfo_exists():
            root.destroy()
    except:
        pass
  • posible duplicate of stackoverflow.com/questions/21603038/… – markcial Feb 16 '14 at 13:27
  • That issue is similar but this question is how to make an interactive terminal in a tkinter Frame, and to intercept stdout and stderr, mentioning stdin was a typo which I'll fix. – Ralph Ritoch Feb 16 '14 at 13:44
  • 2
    IDLE has something like that called the Python Shell window, and you can read its source code. – martineau Feb 16 '14 at 14:34
  • 1
    I have most of the issue solved now. I had to implement my own stdin which the interpreter reads from, and also process key events and enter events on the text widget which I also made readonly. I still have problems with runaway threads though. I'm pushing quit()'s to the interpreter when the window closes which works sometimes. I also don't know how to close the console window on quit(). The thread also doesn't seem to ever return from shell.interact() which is probably why some threads are running away on me. – Ralph Ritoch Feb 16 '14 at 16:35
  • 1
    this is very interesting, thanks! however the shell doesn't seem to respond to any command.. is that the case for you too? – magicrebirth Aug 20 '15 at 13:28

I have the answer in case anyone still cares! (I have also changed to python 3, hence the import tkinter rather than import Tkinter)

I have changed the approach slightly from the original by using a separate file to run the InteractiveConsole, and then making the main file open this other file (which I have called console.py and is in the same directory) in a subprocess, linking the stdout, stderr, and stdin of this subprocess to the tkinter Text widget programatically.

Here is the code in the for the console file (if this is run normally, it acts like a normal console):

# console.py
import code

if __name__ == '__main__':
    vars = globals().copy()
    vars.update(locals())
    shell = code.InteractiveConsole(vars)
    shell.interact() 

And here is the code for the python interpreter, that runs the console inside the Text widget:

# main.py
import tkinter as tk
import subprocess
import queue
import os
from threading import Thread

class Console(tk.Frame):
    def __init__(self,parent=None):
        tk.Frame.__init__(self, parent)
        self.parent = parent
        self.createWidgets()

        # get the path to the console.py file assuming it is in the same folder
        consolePath = os.path.join(os.path.dirname(__file__),"console.py")
        # open the console.py file (replace the path to python with the correct one for your system)
        # e.g. it might be "C:\\Python35\\python"
        self.p = subprocess.Popen(["python3",consolePath],
                                  stdout=subprocess.PIPE,
                                  stdin=subprocess.PIPE,
                                  stderr=subprocess.PIPE)

        # make queues for keeping stdout and stderr whilst it is transferred between threads
        self.outQueue = queue.Queue()
        self.errQueue = queue.Queue()

        # keep track of where any line that is submitted starts
        self.line_start = 0

        # make the enter key call the self.enter function
        self.ttyText.bind("<Return>",self.enter)

        # a daemon to keep track of the threads so they can stop running
        self.alive = True
        # start the functions that get stdout and stderr in separate threads
        Thread(target=self.readFromProccessOut).start()
        Thread(target=self.readFromProccessErr).start()

        # start the write loop in the main thread
        self.writeLoop()

    def destroy(self):
        "This is the function that is automatically called when the widget is destroyed."
        self.alive=False
        # write exit() to the console in order to stop it running
        self.p.stdin.write("exit()\n".encode())
        self.p.stdin.flush()
        # call the destroy methods to properly destroy widgets
        self.ttyText.destroy()
        tk.Frame.destroy(self)
    def enter(self,e):
        "The <Return> key press handler"
        string = self.ttyText.get(1.0, tk.END)[self.line_start:]
        self.line_start+=len(string)
        self.p.stdin.write(string.encode())
        self.p.stdin.flush()

    def readFromProccessOut(self):
        "To be executed in a separate thread to make read non-blocking"
        while self.alive:
            data = self.p.stdout.raw.read(1024).decode()
            self.outQueue.put(data)

    def readFromProccessErr(self):
        "To be executed in a separate thread to make read non-blocking"
        while self.alive:
            data = self.p.stderr.raw.read(1024).decode()
            self.errQueue.put(data)

    def writeLoop(self):
        "Used to write data from stdout and stderr to the Text widget"
        # if there is anything to write from stdout or stderr, then write it
        if not self.errQueue.empty():
            self.write(self.errQueue.get())
        if not self.outQueue.empty():
            self.write(self.outQueue.get())

        # run this method again after 10ms
        if self.alive:
            self.after(10,self.writeLoop)

    def write(self,string):
        self.ttyText.insert(tk.END, string)
        self.ttyText.see(tk.END)
        self.line_start+=len(string)

    def createWidgets(self):
        self.ttyText = tk.Text(self, wrap=tk.WORD)
        self.ttyText.pack(fill=tk.BOTH,expand=True)


if __name__ == '__main__':
    root = tk.Tk()
    root.config(background="red")
    main_window = Console(root)
    main_window.pack(fill=tk.BOTH,expand=True)
    root.mainloop()

The reason that reading from stdout and stderr is in separate threads is because the read method is blocking, which causes the program to freeze until the console.py subprocess gives more output, unless these are in separate threads. The writeLoop method and the queues are needed to write to the Text widget since tkinter is not thread safe.

This certainly still has problems to be ironed out, such as the fact that any code on the Text widget is editable even once already submitted, but hopefully it answers your question.

EDIT: I've also neatened some of the tkinter such that the Console will behave more like a standard widget.

  • I tested it, it works great! One question I have is, how did you figure out which functions you need to override? Such as for readFromProcessOut, I don't see how it works, where the entry point is. Also I wonder if it is possible to have separate input and output widgets. – Sertalp Bilal Oct 19 '17 at 18:40
  • 1
    @Sertalp Bilal The only methods being overridden are __init__ and destroy. All other methods are called, bound to keys, or started in new threads inside my code. e.g. readFromProcessOut is started in a new thread near the bottom of the __init__ method. Because of the way I did this, it would be entirely possible to have separate input and output widgets - it would require a little bit of code restructuring, but so long as both widgets have a reference to the same subproccess object, it would work (you could make a new question for that, I wouldn't mind answering it) – Oli Oct 20 '17 at 12:24

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