def run(self): start_method = None print "Start: ", self.start_simulation_method if self.start_simulation_method is not None: start_method = getattr(self, "start_now") if conf.config.getboolean("Visualiser", "have_board") and self.port != None: self.visulaiser_listener = VisulaiserListener( self.dao.machineTimeStep, self.dao.time_scale_factor) self.visulaiser_listener.set_port(self.port) else: logger.warn("you are running the visualiser without a board." " Aspects of the visualiser may not work") self.visulaiser_main = VisualiserMain(self.dao, self, start_method) self.visulaiser_listener.set_visualiser(self.visulaiser_main) logger.info("[visualiser] Starting") if self.visulaiser_listener is not None: self.visulaiser_listener.start() gtk.threads_enter() self.visulaiser_main.main() gtk.threads_leave() logger.debug("[visualiser] Exiting")
def run(self): start_method = None print "Start: ", self.start_simulation_method if self.start_simulation_method is not None: start_method = getattr(self, "start_now") if conf.config.getboolean("Visualiser", "have_board") and self.port != None: self.visulaiser_listener = VisulaiserListener(self.dao.machineTimeStep, self.dao.time_scale_factor) self.visulaiser_listener.set_port(self.port) else: logger.warn("you are running the visualiser without a board." " Aspects of the visualiser may not work") self.visulaiser_main = VisualiserMain(self.dao, self, start_method) self.visulaiser_listener.set_visualiser(self.visulaiser_main) logger.info("[visualiser] Starting") if self.visulaiser_listener is not None: self.visulaiser_listener.start() gtk.threads_enter() self.visulaiser_main.main() gtk.threads_leave() logger.debug("[visualiser] Exiting")
class Visualiser(threading.Thread): #sets up listeners def __init__(self, dao, timeout=0.0, start_simulation_method=None): gtk.threads_init() self.visulaiser_main = None self.visulaiser_listener = None threading.Thread.__init__(self) self.bufsize = 65536 self.done = False self.dao = dao self.port = None self.start_simulation_method = start_simulation_method self.finish_event = threading.Event() if timeout > 0: thread.start_new_thread(_timeout, (self, timeout)) def start_now(self): self.start_simulation_method() self.finish_event.set() def wait_for_finish(self): self.finish_event.wait() def set_timeout(self, timeout): print("Timeout set to %f" % timeout) if timeout > 0: thread.start_new_thread(_timeout, (self, timeout)) def set_bufsize(self, bufsize): self.bufsize = bufsize def stop(self): logger.info("[visualiser] Stopping") self.done = True if (conf.config.getboolean("Visualiser", "have_board") and self.visulaiser_listener != None): self.visulaiser_listener.stop() #runs the visulaiser tools def run(self): start_method = None print "Start: ", self.start_simulation_method if self.start_simulation_method is not None: start_method = getattr(self, "start_now") if conf.config.getboolean("Visualiser", "have_board") and self.port != None: self.visulaiser_listener = VisulaiserListener( self.dao.machineTimeStep, self.dao.time_scale_factor) self.visulaiser_listener.set_port(self.port) else: logger.warn("you are running the visualiser without a board." " Aspects of the visualiser may not work") self.visulaiser_main = VisualiserMain(self.dao, self, start_method) self.visulaiser_listener.set_visualiser(self.visulaiser_main) logger.info("[visualiser] Starting") if self.visulaiser_listener is not None: self.visulaiser_listener.start() gtk.threads_enter() self.visulaiser_main.main() gtk.threads_leave() logger.debug("[visualiser] Exiting") def set_port(self, port): self.port = port
class Visualiser(threading.Thread): #sets up listeners def __init__(self, dao, timeout=0.0, start_simulation_method = None): gtk.threads_init() self.visulaiser_main = None self.visulaiser_listener = None threading.Thread.__init__(self) self.bufsize = 65536 self.done = False self.dao = dao self.port = None self.start_simulation_method = start_simulation_method self.finish_event = threading.Event() if timeout > 0: thread.start_new_thread(_timeout, (self, timeout)) def start_now(self): self.start_simulation_method() self.finish_event.set() def wait_for_finish(self): self.finish_event.wait() def set_timeout(self, timeout): print("Timeout set to %f" % timeout) if timeout > 0: thread.start_new_thread(_timeout, (self, timeout)) def set_bufsize(self, bufsize): self.bufsize = bufsize; def stop(self): logger.info("[visualiser] Stopping") self.done = True if (conf.config.getboolean("Visualiser", "have_board") and self.visulaiser_listener != None): self.visulaiser_listener.stop() #runs the visulaiser tools def run(self): start_method = None print "Start: ", self.start_simulation_method if self.start_simulation_method is not None: start_method = getattr(self, "start_now") if conf.config.getboolean("Visualiser", "have_board") and self.port != None: self.visulaiser_listener = VisulaiserListener(self.dao.machineTimeStep, self.dao.time_scale_factor) self.visulaiser_listener.set_port(self.port) else: logger.warn("you are running the visualiser without a board." " Aspects of the visualiser may not work") self.visulaiser_main = VisualiserMain(self.dao, self, start_method) self.visulaiser_listener.set_visualiser(self.visulaiser_main) logger.info("[visualiser] Starting") if self.visulaiser_listener is not None: self.visulaiser_listener.start() gtk.threads_enter() self.visulaiser_main.main() gtk.threads_leave() logger.debug("[visualiser] Exiting") def set_port(self, port): self.port = port