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detectUSB_console.py
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detectUSB_console.py
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import time
from threading import *
import wx
# Button definitions
ID_START = wx.NewId()
ID_STOP = wx.NewId()
# Define notification event for thread completion
EVT_RESULT_ID = wx.NewId()
def EVT_RESULT(win, func):
"""Define Result Event."""
win.Connect(-1, -1, EVT_RESULT_ID, func)
class ResultEvent(wx.PyEvent):
"""Simple event to carry arbitrary result data."""
def __init__(self, data):
"""Init Result Event."""
wx.PyEvent.__init__(self)
self.SetEventType(EVT_RESULT_ID)
self.data = data
# Thread class that executes processing
class WorkerThread(Thread):
"""Worker Thread Class."""
def __init__(self, notify_window):
"""Init Worker Thread Class."""
Thread.__init__(self)
self._notify_window = notify_window
self._want_abort = 0
# This starts the thread running on creation, but you could
# also make the GUI thread responsible for calling this
self.start()
def run(self):
"""Run Worker Thread."""
# This is the code executing in the new thread. Simulation of
# a long process (well, 10s here) as a simple loop - you will
# need to structure your processing so that you periodically
# peek at the abort variable
for i in range(10):
time.sleep(.1)
if self._want_abort:
# Use a result of None to acknowledge the abort (of
# course you can use whatever you'd like or even
# a separate event type)
wx.PostEvent(self._notify_window, ResultEvent(None))
return
# Here's where the result would be returned (this is an
# example fixed result of the number 10, but it could be
# any Python object)
wx.PostEvent(self._notify_window, ResultEvent(10))
def abort(self):
"""abort worker thread."""
# Method for use by main thread to signal an abort
self._want_abort = 1
# GUI Frame class that spins off the worker thread
class MainFrame(wx.Frame):
"""Class MainFrame."""
def __init__(self, parent, id):
"""Create the MainFrame."""
wx.Frame.__init__(self, parent, id, 'Thread Test')
# Dumb sample frame with two buttons
wx.Button(self, ID_START, 'Start', pos=(0,0))
wx.Button(self, ID_STOP, 'Stop', pos=(0,50))
self.status = wx.StaticText(self, -1, '', pos=(0,100))
self.Bind(wx.EVT_BUTTON, self.OnStart, id=ID_START)
self.Bind(wx.EVT_BUTTON, self.OnStop, id=ID_STOP)
# Set up event handler for any worker thread results
EVT_RESULT(self,self.OnResult)
# And indicate we don't have a worker thread yet
self.worker = None
self.OnStart(None)
#self.status.SetLabel('Starting computation')
#self.worker = WorkerThread(self)
def OnStart(self, event):
"""Start Computation."""
# Trigger the worker thread unless it's already busy
if not self.worker:
self.status.SetLabel('Starting computation')
self.worker = WorkerThread(self)
def OnStop(self, event):
"""Stop Computation."""
# Flag the worker thread to stop if running
if self.worker:
self.status.SetLabel('Trying to abort computation')
self.worker.abort()
def OnResult(self, event):
"""Show Result status."""
if event.data is None:
# Thread aborted (using our convention of None return)
self.status.SetLabel('Computation aborted')
else:
# Process results here
self.status.SetLabel('Computation Result: %s' % event.data)
# In either event, the worker is done
self.worker = None
class MainApp(wx.App):
"""Class Main App."""
def OnInit(self):
"""Init Main App."""
self.frame = MainFrame(None, -1)
self.frame.Show(True)
self.SetTopWindow(self.frame)
return True
if __name__ == '__main__':
app = MainApp(0)
app.MainLoop()