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A long running shell script produces stdout and stderr, which I would like to show on a textctrl in a GUI. This is possible using threading and separating the GUI thread from the shell script's thread. However when I implement multiprocessing, I hit a roadblock. Here's my -stripped down- code:

#!/usr/bin/env python

import wx
import sys, subprocess
from multiprocessing import Process, Queue
from Queue import Empty

class MyFrame(wx.Frame):
    def __init__(self, *args, **kwds):
        wx.Frame.__init__(self, *args, **kwds)

        self.button = wx.Button(self, -1 , "Run")
        self.output = wx.TextCtrl(self, -1, '', style=wx.TE_MULTILINE|\
                                                      wx.TE_READONLY|wx.HSCROLL)

        self.Bind(wx.EVT_BUTTON, self.OnButton, self.button)

        sizer = wx.BoxSizer(wx.VERTICAL)
        sizer.Add(self.output, -1, wx.EXPAND, 0)
        sizer.Add(self.button)
        self.SetSizerAndFit(sizer)
        self.Centre()

    def OnButton(self, event):
        numtasks = 4 # total number of tasks to run
        numprocs = 2 # number of processors = number of parallel tasks
        work_queue = Queue()
        for i in xrange(numtasks):
             work_queue.put(i)
        processes = [Process(target=self.doWork, args=(work_queue, ))
                     for i in range(numprocs)]
        for p in processes:
            p.daemon = True
            p.start()

    def doWork(self, work_queue):
        while True:
            try:
                x = work_queue.get(block=False)
                self.runScript(x)
            except Empty:
                print "Queue Empty"
                break

    def runScript(self, taskno):
        print '## Now Running: ', taskno
        command = ['./script.sh']  
        proc = subprocess.Popen(command, shell=True, 
                                         stdout=subprocess.PIPE, 
                                         stderr=subprocess.STDOUT)
        while True:
            stdout = proc.stdout.readline()
            if not stdout:
                break
            #sys.stdout.flush() #no need for flush, apparently it is embedded in the multiprocessing module
            self.output.AppendText(stdout.rstrip()) #this is the part that doesn't work.

if __name__ == "__main__":
    app = wx.App(0)
    frame = MyFrame(None, title="shell2textctrl", size=(500,500))
    frame.Show(True)
    app.MainLoop()

I've tried many solutions upon others' suggestions. Among these are: using wx.CallAfter or wx.lib.delayedresult to make the GUI responsive; several threading recipes (eg. wxApplication Development Cookbook, threadpool, others...) and have the multiprocess() run from a separate thread; redefining sys.stdout.write to write to the textctrl; and whatnot. None of them were successfull. Can anyone please provide a solution together with working code? You can use this script written somewhere here by I forgot who:

#!/bin/tcsh -f
@ i = 1
while ($i <= 20)
 echo $i
 @ i += 1
 sleep 0.2
end
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2 Answers

I don't know if this will help you or not, but I have an example of something like this using subprocess here:

http://www.blog.pythonlibrary.org/2010/06/05/python-running-ping-traceroute-and-more/

See the pingIP and tracertIP methods. If your shell script is written in Python, you can probably add some kind of generator to it like the ones I am using in that article to post back to the GUI. You probably already read the LongRunningProcess wiki article, but I took that and made my own tutorial here:

http://www.blog.pythonlibrary.org/2010/05/22/wxpython-and-threads/

share|improve this answer
    
Indeed, I did look at the LongRunningProcess article, AND your tutorial (very useful!). I can get my code to work with threading, however, not with multiprocessing. It's silly because multiprocessing is based on threading. Then again my understanding of how these two modules work is severely limited. Unfortunately, I really need to use multiprocessing. –  Ilker S Apr 30 '11 at 4:14
    
Okay. I haven't used multiprocessing yet, so I can't comment on that at the moment. If I find some time, I'll dig into that though. –  Mike Driscoll Apr 30 '11 at 14:01
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up vote 0 down vote accepted

I found a solution which implements a modified output Queue on top of Roger Stuckey's Simpler wxPython Multiprocessing Example framework. The code below is even Simpler than his; it could also be cleaned out a little. Hope it helps someone else. I still have a nagging feeling that there should be a more straightforward way of doing this though.

import getopt, math, random, sys, time, types, wx, subprocess

from multiprocessing import Process, Queue, cpu_count, current_process, freeze_support
from Queue import Empty

class MyFrame(wx.Frame):
    def __init__(self, parent, id, title):
        wx.Frame.__init__(self, parent, id, title, wx.Point(700, 500), wx.Size(300, 200))

        self.panel = wx.Panel(self, wx.ID_ANY)

        #widgets
        self.start_bt = wx.Button(self.panel, wx.ID_ANY, "Start")
        self.Bind(wx.EVT_BUTTON, self.OnButton, self.start_bt)

        self.output_tc = wx.TextCtrl(self.panel, wx.ID_ANY, style=wx.TE_MULTILINE|wx.TE_READONLY)

        # sizer
        self.sizer = wx.GridBagSizer(5, 5)
        self.sizer.Add(self.start_bt, (0, 0), flag=wx.ALIGN_CENTER|wx.LEFT|wx.TOP|wx.RIGHT, border=5)
        self.sizer.Add(self.output_tc, (1, 0), flag=wx.EXPAND|wx.LEFT|wx.RIGHT|wx.BOTTOM, border=5)
        self.sizer.AddGrowableCol(0)
        self.sizer.AddGrowableRow(1)
        self.panel.SetSizer(self.sizer)

        # Set some program flags
        self.keepgoing = True
        self.i = 0
        self.j = 0


    def OnButton(self, event):
        self.start_bt.Enable(False)

        self.numtasks = 4
        self.numproc = 2
        #self.numproc = cpu_count()
        self.output_tc.AppendText('Number of processes = %d\n' % self.numproc)

        # Create the queues
        self.taskQueue = Queue()
        self.outputQueue = Queue()

        # Create the task list
        self.Tasks = range(self.numtasks)

        # The worker processes...
        for n in range(self.numproc):
            process = Process(target=self.worker, args=(self.taskQueue, self.outputQueue))
            process.start()

        # Start processing tasks
        self.processTasks(self.update)

        if (self.keepgoing):
            self.start_bt.Enable(True)

    def processTasks(self, resfunc=None):
        self.keepgoing = True

        # Submit first set of tasks
        numprocstart = min(self.numproc, self.numtasks)
        for self.i in range(numprocstart):
            self.taskQueue.put(self.Tasks[self.i])

        self.j = -1 # done queue index
        self.i = numprocstart - 1 # task queue index
        while (self.j < self.i):
            # Get and print results
            self.j += 1
            output = None
            while output != 'STOP!':
                try:
                    output = self.outputQueue.get() 
                    if output != 'STOP!': 
                        resfunc(output)
                except Empty:
                    break

            if ((self.keepgoing) and (self.i + 1 < self.numtasks)):
                # Submit another task
                self.i += 1
                self.taskQueue.put(self.Tasks[self.i])

    def update(self, output):
        self.output_tc.AppendText('%s PID=%d Task=%d : %s\n' % output)
        wx.YieldIfNeeded()

    def worker(self, inputq, outputq):
        while True:
            try:
                tasknum = inputq.get()
                print '## Now Running: ', tasknum #this goes to terminal/console. Add it to outputq if you'd like it on the TextCtrl.
                command = ['./script.sh']
                p = subprocess.Popen(command, shell=True, stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
                while True:
                    r = p.stdout.readline()
                    if not r:
                        outputq.put('STOP!')
                        break
                    outputq.put(( current_process().name, current_process().pid, tasknum, r.rstrip()))
            except Empty:
                break

    # The worker must not require any existing object for execution!
    worker = classmethod(worker)

class MyApp(wx.App):
    def OnInit(self):
        self.frame = MyFrame(None, -1, 'stdout to GUI using multiprocessing')
        self.frame.Show(True)
        self.frame.Center()
        return True

if __name__ == '__main__':
    freeze_support()
    app = MyApp(0)
    app.MainLoop()
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