def inputhook_qt5(): """PyOS_InputHook python hook for Qt5. Process pending Qt events and if there's no pending keyboard input, spend a short slice of time (50ms) running the Qt event loop. As a Python ctypes callback can't raise an exception, we catch the KeyboardInterrupt and temporarily deactivate the hook, which will let a *second* CTRL+C be processed normally and go back to a clean prompt line. """ try: allow_CTRL_C() app = QtCore.QCoreApplication.instance() if not app: # shouldn't happen, but safer if it happens anyway... return 0 app.processEvents(QtCore.QEventLoop.AllEvents, 300) if not stdin_ready(): # Generally a program would run QCoreApplication::exec() # from main() to enter and process the Qt event loop until # quit() or exit() is called and the program terminates. # # For our input hook integration, we need to repeatedly # enter and process the Qt event loop for only a short # amount of time (say 50ms) to ensure that Python stays # responsive to other user inputs. # # A naive approach would be to repeatedly call # QCoreApplication::exec(), using a timer to quit after a # short amount of time. Unfortunately, QCoreApplication # emits an aboutToQuit signal before stopping, which has # the undesirable effect of closing all modal windows. # # To work around this problem, we instead create a # QEventLoop and call QEventLoop::exec(). Other than # setting some state variables which do not seem to be # used anywhere, the only thing QCoreApplication adds is # the aboutToQuit signal which is precisely what we are # trying to avoid. timer = QtCore.QTimer() event_loop = QtCore.QEventLoop() timer.timeout.connect(event_loop.quit) while not stdin_ready(): timer.start(50) event_loop.exec_() timer.stop() except KeyboardInterrupt: global got_kbdint, sigint_timer ignore_CTRL_C() got_kbdint = True mgr.clear_inputhook() # This generates a second SIGINT so the user doesn't have to # press CTRL+C twice to get a clean prompt. # # Since we can't catch the resulting KeyboardInterrupt here # (because this is a ctypes callback), we use a timer to # generate the SIGINT after we leave this callback. # # Unfortunately this doesn't work on Windows (SIGINT kills # Python and CTRL_C_EVENT doesn't work). if(os.name == 'posix'): pid = os.getpid() if(not sigint_timer): sigint_timer = threading.Timer(.01, os.kill, args=[pid, signal.SIGINT]) sigint_timer.start() else: print("\nKeyboardInterrupt - Ctrl-C again for new prompt") except: # NO exceptions are allowed to escape from a ctypes callback ignore_CTRL_C() from traceback import print_exc print_exc() print("Got exception from inputhook_qt5, unregistering.") mgr.clear_inputhook() finally: allow_CTRL_C() return 0
def inputhook_qt5(): """PyOS_InputHook python hook for Qt5. Process pending Qt events and if there's no pending keyboard input, spend a short slice of time (50ms) running the Qt event loop. As a Python ctypes callback can't raise an exception, we catch the KeyboardInterrupt and temporarily deactivate the hook, which will let a *second* CTRL+C be processed normally and go back to a clean prompt line. """ try: allow_CTRL_C() app = QtCore.QCoreApplication.instance() if not app: # shouldn't happen, but safer if it happens anyway... return 0 app.processEvents(QtCore.QEventLoop.AllEvents, 300) if not stdin_ready(): # Generally a program would run QCoreApplication::exec() # from main() to enter and process the Qt event loop until # quit() or exit() is called and the program terminates. # # For our input hook integration, we need to repeatedly # enter and process the Qt event loop for only a short # amount of time (say 50ms) to ensure that Python stays # responsive to other user inputs. # # A naive approach would be to repeatedly call # QCoreApplication::exec(), using a timer to quit after a # short amount of time. Unfortunately, QCoreApplication # emits an aboutToQuit signal before stopping, which has # the undesirable effect of closing all modal windows. # # To work around this problem, we instead create a # QEventLoop and call QEventLoop::exec(). Other than # setting some state variables which do not seem to be # used anywhere, the only thing QCoreApplication adds is # the aboutToQuit signal which is precisely what we are # trying to avoid. timer = QtCore.QTimer() event_loop = QtCore.QEventLoop() timer.timeout.connect(event_loop.quit) while not stdin_ready(): timer.start(50) event_loop.exec_() timer.stop() except KeyboardInterrupt: global got_kbdint, sigint_timer ignore_CTRL_C() got_kbdint = True mgr.clear_inputhook() # This generates a second SIGINT so the user doesn't have to # press CTRL+C twice to get a clean prompt. # # Since we can't catch the resulting KeyboardInterrupt here # (because this is a ctypes callback), we use a timer to # generate the SIGINT after we leave this callback. # # Unfortunately this doesn't work on Windows (SIGINT kills # Python and CTRL_C_EVENT doesn't work). if(os.name == 'posix'): pid = os.getpid() if(not sigint_timer): sigint_timer = threading.Timer(.01, os.kill, args=[pid, signal.SIGINT] ) sigint_timer.start() else: print("\nKeyboardInterrupt - Ctrl-C again for new prompt") except: # NO exceptions are allowed to escape from a ctypes callback ignore_CTRL_C() from traceback import print_exc print_exc() print("Got exception from inputhook_qt5, unregistering.") mgr.clear_inputhook() finally: allow_CTRL_C() return 0