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I have a controller class which controls a robot (attached over serial interface). This controller is attached to a view. In addition to that I have a thread derived from QThread which periodically reads out the status of the robot.

Reading out the status must not colide with robot commands which get tiggered from the userinterface. Therefore I locked every robot acces with a mutex using QMutexLocker but this causes my userinterface to freeze if such a mutex block gets executed.

class RobotControl(QObject):
    def __init__(self, view):
        super(RobotControl, self).__init__()
        self.view = view
        self.updatethread = UpdatePositionAndStatus(self.robot)
        self.mutex = QMutex()
        self.connect(self.updatethread, SIGNAL("updateStatus( QString ) "), self.print_error)

def init_robot(self):
    Initializes the serial interface to the robot interface and checks if
    there is really a robot interface available.
    with QMutexLocker(self.mutex):
        # Open interface
            index = self.view.robotcontrolui.get_selected_interface_index()
            interface = self.interfaces.item(index).text()
            self.robot = RobotController(interface)
        except DeviceError:
            self.view.error_dlg(self.tr("Couldn't open interface {0}!".format(interface)))
            self.robot = None

        # Check if there is really a robot interface on the selected serial
        # interface with trying to read status byte
        except DeviceError:
            # In case of failure release interface
            self.view.error_dlg(self.tr("Couldn't initialize robot interface!"))


class UpdatePositionAndStatus(QThread):
    def __init__(self, robot, parent=None):
        QThread.__init__(self, parent) 
        self.robot = robot
        self.mutex = QMutex()
    def run(self):
        This function continously reads out the position and the status to for 
        updating it on the userinterface.
            while True:
                if self.robot is not None:
                    # Do robot communication under a lock
                    (_, rel_pos) = self.robot.read_position()
                    status = self.robot.status()

                    # Display position and status on userinterface
                    self.view.robotcontrolui.update_position_and_status(rel_pos, status)

                # Wait 1 seccond for next update
        except DeviceError:
            # Release lock on robot
            self.emit(SIGNAL("updateStatus( QString )"), self.tr("Error while updating current position and status!"))

After triggering the init method the userinterface freezes and the program crashes: Why is this so? How can I avoid that?

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1 Answer 1

It's hard to tell because your code sample is incomplete, but I see two fundamental problems with this code:

  1. You are locking two different QMutex objects. In order for mutual exclusion to work properly, both threads must be locking the same mutex object.

  2. You appear to be directly interacting with the GUI from the update thread at this line:

    self.view.robotcontrolui.update_position_and_status(rel_pos, status)

    Performing GUI operations may only be done from the GUI thread in Qt. It's a fair bet that this is causing your crash. See: http://qt-project.org/doc/qt-4.8/threads.html

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@1: Thanks for that hint. Now changed to one mutex, but doesn't solve the problem either. @2: RobotControl is held in the main QApplication so it's inside the GUI thread. Showing the error dialogs inside the exception works which invokes the gui too. I'm aware of this problem - that's the reason why the update thread doesn't invoke the gui directly rather than sending a slot. I'm trying to make an working minimum example tomorrow. –  Razer Aug 4 '12 at 22:41
It doesn't matter that RobotControl was defined from within the main thread; the call to update_position_and_status comes from within UpdatePositionAndStatus.run, which is running in a separate thread. The only way this could be acceptable is if update_position_and_status does not directly interact with the GUI, but instead safely passes a message to the GUI thread telling it how to update. –  Luke Aug 4 '12 at 22:46
Instead of calling that method directly, emit another signal that your main thread is connected to and will call the method. Good answer Luke. –  jdi Aug 5 '12 at 6:25
Oh, I was misunderstandin you. It's right update_position_and_status() must be called within a signal. Nevertheless I reduces my issue by removing the aditional thread. Only the init_robot() has now the mutex. I set a breakboint and directly after the with QMutexLocker() statement the userinterface starts to freeze. –  Razer Aug 5 '12 at 9:48
It sounds like you are getting a deadlock from locking that mutex too many times. Since you took the thread out (which is good--they're probably unnecessary unless you expect to block a long time waiting for a serial response), there should no longer be any need for mutexes; just take them out. –  Luke Aug 5 '12 at 14:48

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