I'm trying to do a fairly common thing in my PySide GUI application: I want to delegate some CPU-Intensive task to a background thread so that my GUI stays responsive and could even display a progress indicator as the computation goes.
Here is what I'm doing (I'm using PySide 1.1.1 on Python 2.7, Linux x86_64):
import sys import time from PySide.QtGui import QMainWindow, QPushButton, QApplication, QWidget from PySide.QtCore import QThread, QObject, Signal, Slot class Worker(QObject): done_signal = Signal() def __init__(self, parent = None): QObject.__init__(self, parent) @Slot() def do_stuff(self): print "[thread %x] computation started" % self.thread().currentThreadId() for i in range(30): # time.sleep(0.2) x = 1000000 y = 100**x print "[thread %x] computation ended" % self.thread().currentThreadId() self.done_signal.emit() class Example(QWidget): def __init__(self): super(Example, self).__init__() self.initUI() self.work_thread = QThread() self.worker = Worker() self.worker.moveToThread(self.work_thread) self.work_thread.started.connect(self.worker.do_stuff) self.worker.done_signal.connect(self.work_done) def initUI(self): self.btn = QPushButton('Do stuff', self) self.btn.resize(self.btn.sizeHint()) self.btn.move(50, 50) self.btn.clicked.connect(self.execute_thread) self.setGeometry(300, 300, 250, 150) self.setWindowTitle('Test') self.show() def execute_thread(self): self.btn.setEnabled(False) self.btn.setText('Waiting...') self.work_thread.start() print "[main %x] started" % (self.thread().currentThreadId()) def work_done(self): self.btn.setText('Do stuff') self.btn.setEnabled(True) self.work_thread.exit() print "[main %x] ended" % (self.thread().currentThreadId()) def main(): app = QApplication(sys.argv) ex = Example() sys.exit(app.exec_()) if __name__ == '__main__': main()
The application displays a single window with a button. When the button is pressed, I expect it to disable itself while the computation is performed. Then, the button should be re-enabled.
What happens, instead, is that when I press the button the whole window freezes while the computation goes and then, when it's finished, I regain control of the application. The button never appears to be disabled.
A funny thing I noticed is that if I replace the CPU intensive computation in
do_stuff() with a simple time.sleep() the program behaves as expected.
I don't exactly know what's going on, but it appears that the second thread's priority is so high that it's actually preventing the GUI thread from ever being scheduled. If the second thread goes in BLOCKED state (as it happens with a
sleep()), the GUI has actually the chance to run and updates the interface as expected. I tried to change the worker thread priority, but it looks like it can't be done on Linux.
Also, I try to print the thread IDs, but I'm not sure if I'm doing it correctly. If I am, the thread affinity seems to be correct.
I also tried the program with PyQt and the behavior is exactly the same, hence the tags and title. If I can make it run with PyQt4 instead of PySide I could switch my whole application to PyQt4