def __init__(self, parent=None):
super(MainWindow, self).__init__(parent)
PyQt4.uic.loadUi('forms/main_window.ui', self)
# Scene working rectangle.
self.scene_rect = QRectF(
-config.scene_width / 2, -config.scene_height / 2,
config.scene_width, config.scene_height)
self.scene = QGraphicsScene()
self.graphicsView = GraphicsView()
self.setCentralWidget(self.graphicsView)
self.graphicsView.setScene(self.scene)
self.scene.setSceneRect(self.scene_rect)
# Disable spatial indexing since all objects will be moving.
self.scene.setItemIndexMethod(QGraphicsScene.NoIndex)
self.scene_rect_item = self.scene.addRect(self.scene.sceneRect())
self.name_it = itertools.count(0)
self.routers = []
self.visible_routers = 0
# Symmetrical matrix of links between routers.
self.links = [
[None for c in xrange(config.max_routers_num)]
for r in xrange(config.max_routers_num)]
# List of all links.
self.links_list = []
# Routers
self._dt = 1 / 20.0
self._refresh_timer_id = self.startTimer(int(1000 * self._dt))
link_update_rate = 5 # times per second
self._update_link_timer_id = \
self.startTimer(int(1000 / link_update_rate))
transmitting_image_refresh_rate = 5 # times per second
self._update_transmitting_image_timer_id = \
self.startTimer(int(1000 / transmitting_image_refresh_rate))
statistics_refresh_rate = 1 # times per second
self._statistics_timer_id = \
self.startTimer(int(1000 / statistics_refresh_rate))
self.generate_routers()
# Statistics widget.
self.statistics = StatisticsWidget(self)
# TODO: Better if it will be statically floatable.
self.addDockWidget(Qt.RightDockWidgetArea, self.statistics)
# Main panel.
# TODO: Rename to `control_panel'.
self.panel = MainDockableWidget(self)
self.addDockWidget(Qt.RightDockWidgetArea, self.panel)
self.panel.nRoutersSlider.valueChanged.connect(
self.on_routers_num_changed)
self.panel.shakeRoutersButton.clicked.connect(
self.shake_routers)
self.panel.stopRoutersButton.clicked.connect(
self.stop_routers)
self.panel.renderNodesRangeCheckBox.stateChanged.connect(
self.on_display_router_connection_range_changed)
self.panel.connectionDistSlider.valueChanged.connect(
self.on_display_router_connection_range_changed)
self.panel.disconnectionDistSlider.valueChanged.connect(
self.on_display_router_connection_range_changed)
# Transmission widget.
self.transmission = TransmissionWidget()
self.addDockWidget(Qt.RightDockWidgetArea, self.transmission)
self.transmission.restartTransmissionButton.clicked.connect(
self.on_restart_transmission)
self.transmission.load_image("images/forest.jpg")
self.transmission.openImageButton.clicked.connect(self.on_new_image)
self._transmitted_parts = 0
self._topology_change_times = collections.deque(
maxlen=config.num_of_topology_changes_in_stat)
self._invalid_routes_stat = collections.deque(
maxlen=config.num_of_invalid_routes_in_stat)
self._not_optimal_routes_stat = collections.deque(
maxlen=config.num_of_not_optimal_routes_in_stat)
# TODO: Tabs order.
self.tabifyDockWidget(self.transmission, self.panel)
# If working thread will be able to acquire the lock, then it should
# terminate himself.
self._exit_lock = threading.RLock()
self._exit_lock.acquire()
self._working_thread = threading.Thread(target=self._work)
self._working_thread.start()
class MainWindow(QMainWindow):
def __init__(self, parent=None):
super(MainWindow, self).__init__(parent)
PyQt4.uic.loadUi('forms/main_window.ui', self)
# Scene working rectangle.
self.scene_rect = QRectF(
-config.scene_width / 2, -config.scene_height / 2,
config.scene_width, config.scene_height)
self.scene = QGraphicsScene()
self.graphicsView = GraphicsView()
self.setCentralWidget(self.graphicsView)
self.graphicsView.setScene(self.scene)
self.scene.setSceneRect(self.scene_rect)
# Disable spatial indexing since all objects will be moving.
self.scene.setItemIndexMethod(QGraphicsScene.NoIndex)
self.scene_rect_item = self.scene.addRect(self.scene.sceneRect())
self.name_it = itertools.count(0)
self.routers = []
self.visible_routers = 0
# Symmetrical matrix of links between routers.
self.links = [
[None for c in xrange(config.max_routers_num)]
for r in xrange(config.max_routers_num)]
# List of all links.
self.links_list = []
# Routers
self._dt = 1 / 20.0
self._refresh_timer_id = self.startTimer(int(1000 * self._dt))
link_update_rate = 5 # times per second
self._update_link_timer_id = \
self.startTimer(int(1000 / link_update_rate))
transmitting_image_refresh_rate = 5 # times per second
self._update_transmitting_image_timer_id = \
self.startTimer(int(1000 / transmitting_image_refresh_rate))
statistics_refresh_rate = 1 # times per second
self._statistics_timer_id = \
self.startTimer(int(1000 / statistics_refresh_rate))
self.generate_routers()
# Statistics widget.
self.statistics = StatisticsWidget(self)
# TODO: Better if it will be statically floatable.
self.addDockWidget(Qt.RightDockWidgetArea, self.statistics)
# Main panel.
# TODO: Rename to `control_panel'.
self.panel = MainDockableWidget(self)
self.addDockWidget(Qt.RightDockWidgetArea, self.panel)
self.panel.nRoutersSlider.valueChanged.connect(
self.on_routers_num_changed)
self.panel.shakeRoutersButton.clicked.connect(
self.shake_routers)
self.panel.stopRoutersButton.clicked.connect(
self.stop_routers)
self.panel.renderNodesRangeCheckBox.stateChanged.connect(
self.on_display_router_connection_range_changed)
self.panel.connectionDistSlider.valueChanged.connect(
self.on_display_router_connection_range_changed)
self.panel.disconnectionDistSlider.valueChanged.connect(
self.on_display_router_connection_range_changed)
# Transmission widget.
self.transmission = TransmissionWidget()
self.addDockWidget(Qt.RightDockWidgetArea, self.transmission)
self.transmission.restartTransmissionButton.clicked.connect(
self.on_restart_transmission)
self.transmission.load_image("images/forest.jpg")
self.transmission.openImageButton.clicked.connect(self.on_new_image)
self._transmitted_parts = 0
self._topology_change_times = collections.deque(
maxlen=config.num_of_topology_changes_in_stat)
self._invalid_routes_stat = collections.deque(
maxlen=config.num_of_invalid_routes_in_stat)
self._not_optimal_routes_stat = collections.deque(
maxlen=config.num_of_not_optimal_routes_in_stat)
# TODO: Tabs order.
self.tabifyDockWidget(self.transmission, self.panel)
# If working thread will be able to acquire the lock, then it should
# terminate himself.
self._exit_lock = threading.RLock()
self._exit_lock.acquire()
self._working_thread = threading.Thread(target=self._work)
self._working_thread.start()
def __del__(self):
#super(MainWindow, self).__del__()
print self, "__del__" # DEBUG
for l in self.links_list:
# l.enabled = False
assert l is not None
l.terminate()
for r in self.routers:
# TODO
r._stop_networking()
#import sliding_window
#print sliding_window.worker._frame_transmitters
def closeEvent(self, event):
# TODO: It is possible to hit close button twice. Must do
# deinitialization on destroy event.
# Release exit lock and wait until working thread will not terminate.
self._exit_lock.release()
self._working_thread.join()
super(MainWindow, self).closeEvent(event)
def timerEvent(self, event):
if event.timerId() == self._refresh_timer_id:
for router in self.routers[:self.visible_routers]:
router.advance(self._dt)
elif event.timerId() == self._update_link_timer_id:
self._first_update_link_timer_id = \
not hasattr(self, "_first_update_link_timer_id")
# Disconnect routers that are far away each other.
for r1_idx in xrange(self.visible_routers):
for r2_idx in xrange(r1_idx + 1, self.visible_routers):
r1 = self.routers[r1_idx]
r2 = self.routers[r2_idx]
link = self.links[r1_idx][r2_idx]
if link.enabled and \
r1.distance(r2) >= config.disconnection_distance:
link.enabled = False
# TODO: Misses case when number of routers changed
# dynamically.
if not self._first_update_link_timer_id:
self._topology_change_times.append(time.time())
# Connect close routers.
for r1_idx in xrange(self.visible_routers):
for r2_idx in xrange(r1_idx + 1, self.visible_routers):
r1 = self.routers[r1_idx]
r2 = self.routers[r2_idx]
link = self.links[r1_idx][r2_idx]
if not link.enabled and \
r1.distance(r2) <= config.connection_distance:
link.enabled = True
if not self._first_update_link_timer_id:
self._topology_change_times.append(time.time())
self._first_update_link_timer_id = False
elif event.timerId() == self._update_transmitting_image_timer_id:
self._update_transmitting_image()
elif event.timerId() == self._statistics_timer_id:
self._update_statistics()
def _update_statistics(self):
# Update topology changes frequency.
if self._topology_change_times:
average_time = (time.time() - self._topology_change_times[0]) / \
len(self._topology_change_times)
self.statistics.timeBetweenChangesLabel.setText(
unicode(self.tr("{0:.2f} s")).format(1.0 / average_time))
# Obtain network topology.
g = networkx.Graph()
g.add_nodes_from(xrange(self.visible_routers))
for r_name, r in enumerate(self.routers[:self.visible_routers]):
for adj_r_name in r.link_manager.connected_routers():
g.add_edge(r_name, adj_r_name)
# DEBUG
if False:
import matplotlib.pyplot as plt
plt.clf()
networkx.draw(g)
plt.savefig("network.png")
valid_routes = 0 # valid and optimal
invalid_routes = 0
not_optimal_routes = 0
for color in xrange(self.visible_routers):
# Build RIP network topology for paths to router `color'.
r_g = networkx.DiGraph()
r_g.add_nodes_from(xrange(self.visible_routers))
for r_name, r in enumerate(self.routers[:self.visible_routers]):
r_next = \
r.rip_service.dynamic_routing_table().next_router(color)
if r_next is not None and r_next != r_name:
r_g.add_edge(r_next, r_name)
# DEBUG
if False:
import matplotlib.pyplot as plt
plt.clf()
networkx.draw(r_g)
plt.savefig("rip_{0}.png".format(color))
cur_valid_routes = 0
cur_invalid_routes = 0
cur_not_optimal_routes = 0
#counted = set() # count by routers from which RIP shows direction.
# Detect not updated disconnected links.
invalid_edges = set(r_g.edges()) - set(g.edges()) - \
set([(e[1], e[0]) for e in g.edges()])
#print "invalid_edges:", invalid_edges
for e in invalid_edges:
#cur_invalid_routes += 1
#assert e[1] not in counted
#counted.add(e[1])
r_g.remove_edge(*e)
paths = single_source_dijkstra_path_length(g, color)
rip_paths = single_source_dijkstra_path_length(r_g, color)
accessible_routers = set(paths.keys())
# DEBUG
#print accessible_routers
#print paths
#print rip_paths
# Not accessible by RIP but accessible by Dijkstra --- router has
# invalid route.
#print "cur_invalid_routes 0: ", cur_invalid_routes
cur_invalid_routes += \
len(accessible_routers - set(rip_paths.keys()))
#print "cur_invalid_routes 1: ", cur_invalid_routes
# Compare path lengths in accessible routes, if RIP path is longer
# then route is not optimal.
for r_name, length in rip_paths.iteritems():
assert r_name in paths
if length > paths[r_name]:
cur_not_optimal_routes += 1
else:
cur_valid_routes += 1
# If not accessible router has link --- invalid route.
for r_name in set(g.nodes()) - accessible_routers:
#print "r_g[r_name] =",r_g[r_name] # DEBUG
if len(r_g[r_name]) > 0:
cur_invalid_routes += 1
else:
cur_valid_routes += 1
# DEBUG
#print cur_valid_routes, cur_not_optimal_routes, cur_invalid_routes
assert cur_valid_routes + cur_not_optimal_routes + \
cur_invalid_routes == self.visible_routers
valid_routes += cur_valid_routes
not_optimal_routes += cur_not_optimal_routes
invalid_routes += cur_invalid_routes
assert valid_routes + not_optimal_routes + invalid_routes == \
self.visible_routers**2
self._invalid_routes_stat.append(invalid_routes)
self._not_optimal_routes_stat.append(not_optimal_routes)
self.statistics.incorrectRoutesRatioLabel.setText(
str(self.tr("{0:.2f} %")).format(
100.0 * invalid_routes / self.visible_routers**2))
self.statistics.notoptimalRoutesRatioLabel.setText(
str(self.tr("{0:.2f} %")).format(
100.0 * not_optimal_routes / self.visible_routers**2))
if self._invalid_routes_stat:
avg = sum(self._invalid_routes_stat) / \
len(self._invalid_routes_stat)
self.statistics.avgIncorrectRoutesRatioLabel.setText(
str(self.tr("{0:.2f} %")).format(
100.0 * avg / self.visible_routers**2))
if self._not_optimal_routes_stat:
avg = sum(self._not_optimal_routes_stat) / \
len(self._not_optimal_routes_stat)
self.statistics.avgNotoptimalRoutesRatioLabel.setText(
str(self.tr("{0:.2f} %")).format(
100.0 * avg / self.visible_routers**2))
def _update_transmitting_image(self):
new_positions = []
while True:
data = self.receive_image_router.receive()
if data is None:
break
#print "Receive!!" # DEBUG
#print data # DEBUG
new_positions.append(data)
self._transmitted_parts += 1
if new_positions:
w = self.transmission.transmitted_pixmap.width()
h = self.transmission.transmitted_pixmap.height()
dw = w / config.image_cut_columns
dh = h / config.image_cut_rows
painter = QPainter(self.transmission.transmitted_pixmap)
for x, y in new_positions:
painter.drawImage(x * dw, y * dh,
self.transmission.source_pixmap.toImage(),
x * dw, y * dh, dw, dh)
painter.end()
del painter
self.transmission.transmitted_image_item.setPixmap(
self.transmission.transmitted_pixmap)
self.transmission.successRatioLabel.setText("{0:2.1f} %".format(
100.0 * self._transmitted_parts /
(config.image_cut_columns * config.image_cut_rows)))
def generate_routers(self):
def send_wrapper(name, **kwargs):
return SendImageRouterItem(name, 1, **kwargs)
self._generate_router(router_class=send_wrapper)
self._generate_router(router_class=ReceiveImageRouterItem)
self.send_image_router = self.routers[0]
self.receive_image_router = self.routers[1]
for i in xrange(2, config.max_routers_num):
self._generate_router()
def _generate_router(self, pos=None, router_class=RouterItem):
name = self.name_it.next()
if pos is None:
scene_rect = self.scene.sceneRect()
router_pos = QPointF(
random.uniform(
scene_rect.left(), scene_rect.left() + scene_rect.width()),
random.uniform(
scene_rect.top(), scene_rect.top() + scene_rect.height()))
else:
router_pos = pos
router = router_class(name, enabled=False)
self.scene.addItem(router)
router.setPos(router_pos)
r_idx = len(self.routers)
for r2_idx in xrange(len(self.routers)):
r2 = self.routers[r2_idx]
link = LinkItem(router, r2, enabled=False)
self.scene.addItem(link)
self.links_list.append(link)
self.links[r_idx][r2_idx] = link
self.links[r2_idx][r_idx] = link
self.routers.append(router)
return name
def add_router(self):
if self.visible_routers < config.max_routers_num:
r = self.routers[self.visible_routers]
r.enabled = True
#for r2_idx in xrange(self.visible_routers):
# self.links[self.visible_routers][r2_idx].enabled = True
self.visible_routers += 1
def remove_router(self):
if self.visible_routers > 2: # 2 --- number of predefined routers
r = self.routers[self.visible_routers - 1]
r.enabled = False
for r2_idx in xrange(self.visible_routers - 1):
self.links[self.visible_routers - 1][r2_idx].enabled = False
self.visible_routers -= 1
@pyqtSlot()
def stop_routers(self):
for router in self.routers:
router.velocity = QPointF()
@pyqtSlot()
def shake_routers(self):
for router in self.routers:
router.velocity = random_velocity()
@pyqtSlot(int)
def on_routers_num_changed(self, nRouters):
while nRouters > self.visible_routers:
self.add_router()
while nRouters < self.visible_routers:
self.remove_router()
@pyqtSlot()
def on_restart_transmission(self):
self._transmitted_parts = 0
self.transmission.reload_image()
data = [(x, y) for y in xrange(config.image_cut_rows)
for x in xrange(config.image_cut_columns)]
# TODO: Race condition.
session_key = self.send_image_router.send_data(data)
self.receive_image_router.set_active_session(session_key)
@pyqtSlot()
def on_new_image(self):
self._transmitted_parts = 0
# TODO
self.receive_image_router.set_active_session(-1)
self.send_image_router.stop_data_transfer()
@pyqtSlot(int)
def on_display_router_connection_range_changed(self, value):
self._update_routers()
def _update_routers(self):
for router in self.routers:
router.update()
def _work(self):
# TODO: move to __init__()
logger = logging.getLogger("{0}._work".format(self))
logger.info("Working thread started")
while True:
if self._exit_lock.acquire(False):
# Obtained exit lock. Terminate.
self._exit_lock.release()
logger.info("Exit working thread")
return
time.sleep(config.thread_sleep_time)
