def startOsc(): """start up the communication between service and main app""" osc.init() oscid = osc.listen(ipAddr='127.0.0.1', port=IPCServicePort) osc.bind(oscid, device_callback, '/device') osc.bind(oscid, stop_callback, '/stop') return oscid
def build(self): self.service = None self.start_service() global RootApp RootApp = self # NavigationDrawer self.navigationdrawer = NavDrawer() # SidePanel side_panel = SidePanel() self.navigationdrawer.add_widget(side_panel) # MainPanel self.main_panel = MainPanel() # color picker self.color_selector = ColorSelector() # size selector self.size_selector = SizeSelector() self.navigationdrawer.anim_type = 'slide_above_simple' self.navigationdrawer.add_widget(self.main_panel) osc.init() oscid = osc.listen(port=3002) osc.bind(oscid, self.reCallback, '/date') Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0) return self.navigationdrawer
def build(self): # the root is created in pictures.kv self.root self.osc_id = osc.listen(ipAddr='0.0.0.0', port=activity_port) if platform == 'android': from android import AndroidService service = AndroidService('Mentor Service', 'running') service.start('service started') self.service = service # get any files into images directory curdir = dirname(__file__) list = glob(join(curdir, 'images', '*')) Logger.debug("{}".format(list)) shuffle(list) Logger.debug("{}".format(list)) for filename in list: try: # load the image picture = Picture(source=filename, id=filename, rotation=randint(-30, 30)) # add to the main field self.root.add_widget(picture) except Exception as e: Logger.exception('Pictures: Unable to load <%s>' % filename) osc.init() self.last_name = "" osc.sendMsg('/say', ["La ap di Michele e' pronta", ], port=service_port) return self.root
def build(self): if platform == 'android': self.start_service() from jnius import autoclass self.Locale = autoclass('java.util.Locale') self.PythonActivity = autoclass('org.renpy.android.PythonActivity') self.TextToSpeech = autoclass('android.speech.tts.TextToSpeech') self.tts = self.TextToSpeech(self.PythonActivity.mActivity, None) self.locales = { 'CANADA':self.Locale.CANADA, 'FRANCE':self.Locale.FRANCE, 'GERMANY':self.Locale.GERMANY, 'ITALY':self.Locale.ITALY, 'JAPAN':self.Locale.JAPAN, 'KOREA':self.Locale.KOREA, 'CHINA':self.Locale.SIMPLIFIED_CHINESE, 'UK':self.Locale.UK, 'US':self.Locale.US } osc.init() oscid = osc.listen(ipAddr='127.0.0.1', port=activityport) osc.bind(oscid, self.some_api_callback, '/some_api') Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0) self.service_enabled = False self.toggle_service() self.load_settings() self.chosen_locale = self.config.get('example','optionsexample') self.tts_enabled = bool(int(self.config.get('example','boolexample'))) return
def build(self): """config = ConfigParser() config.read('conf.ini') self.config = Settings() # s.add_json_panel('My custom panel', config, 'settings_custom.json')""" self.icon = 'images/ic_launcher.png' self.osc_activities = [] self.speechs = [] self.osc_id = osc.listen(ipAddr='0.0.0.0', port=activity_port) self.count_requests = 0 self.timer_value = "40.10.10.1" if platform == 'android': from android import AndroidService service = AndroidService('Mentor Service', 'running') service.start('service started') self.service = service self.folder_music = "/storage/emulated/legacy/Music/PerAttivita" elif platform == 'win': self.folder_music = "C:\\Mao\\Progetti\\Musica\\MusicaSuNexus\\PerAttivita" else: self.folder_music = ".\\music" Logger.info("Folder music: {}".format(self.folder_music)) self.sequences = mentor_lib.Sequences() self.sequences.load_sequences() self.root = MentorWidget() text_input = TextInput(text=self.timer_value, font_size=40, multiline=False) #, size_hint=(None, None)) # font_size=20, text_input.foreground_color = [1, 1, 1, 1] text_input.background_color = [0, 0, 0, 0] text_input.shorten_from = 'center' #text_input.center_x = True #text_input.center_y = True text_input.bind(text=self.on_text_input_text) self.root.ids.grid_main.add_widget(text_input) btn = Button(text="Custom Timer") #, size_hint_y=None, height=40) #btn.height = text_input.content_height btn.bind(on_press=partial(self.start_sequence, "timer")) self.root.ids.grid_main.add_widget(btn) for title in self.sequences.titles: btn = Button(text=title)#, size_hint_y=None, height=40) btn.bind(on_press=partial(self.start_sequence, title)) self.root.ids.grid_main.add_widget(btn) #if len(self.sequences.titles)%2: # btn = Button(text="_ _", id='pippo') #, size_hint_y=None, height=40) # self.root.ids.grid_main.add_widget(btn) #self.start_sequence_ok = False #self.sequence_buttons = [] #for i in self.sequences.titles: #self.sequence_buttons.append(Button(text=str(i))) #self.sequence_buttons[-1].bind(on_press=self.start_sequence(str(i))) #self.sequence_buttons[-1].bind(on_release=self.start_sequence(str(i))) #btn.bind(state=self.start_sequence(str(i))) #btn.bind(on_release=self.root.start_sequence(btn.text)) #self.root.ids.grid_main.add_widget(self.sequence_buttons[-1]) #self.root.ids.grid_main.add_widget(Button(text=str(i), on_press=self.start_sequence(str(i)))) #self.start_sequence_ok = True osc.init() osc.bind(self.osc_id, self.msg_from_server, '/msg') osc.bind(self.osc_id, self.root.write_cockpit, '/osd') Clock.schedule_interval(self.timed_ops, .1) return self.root
def __init__(self): osc.init() self.last_update = 0 self.oscid = osc.listen(ipAddr='localhost', port=SERVICE_PORT) osc.bind(self.oscid, self.pocket_connect, '/pocket/connect') osc.bind(self.oscid, self.pocket_list, '/pocket/list') osc.bind(self.oscid, self.pocket_mark_read, '/pocket/mark_read')
def _test_2_test_service_control(self): # Run main _proc = subprocess.Popen(args = ["python", os.path.normpath(Test_Script_Dir + "/../main.py")], stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE) # Connect to it and sent message osc.init() self.oscid = osc.listen(ipAddr='0.0.0.0', port=3002) osc.bind(self.oscid, self._status_result, '/status') self.test_2_result = None sleep(1) osc.sendMsg(oscAddress ='/status', ipAddr="0.0.0.0", dataArray=[""], port=3000) while self.test_2_result is None: osc.readQueue(self.oscid) sleep(.1) if self.test_2_result is True: self.assertTrue(True) else: self.assertTrue(False, "Test failed, service returned:" + str(self.test_2_result)) osc.sendMsg(oscAddress ='/stop', ipAddr="0.0.0.0", dataArray=[], port=3000) osc.dontListen(self.oscid)
def build(self): if platform == 'android': from android import AndroidService service = AndroidService('irc1\'s service', 'running') service.start('service started') self.service = service osc.init() oscid = osc.listen(ipAddr='127.0.0.1', port=activityport) osc.bind(oscid, self.main_api_callback, '/api/main') Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0.1) self.icon = 'data/icon.png' self.servers = DictStore('servers.db') self.msg_animation = Animation(opacity=1, transition='out_cubic') self.screenmain = ScreenMain() self.running = {} self.boxes = {} for name in sorted(dict(self.servers.find()).keys()): data = self.servers.get(name) box = ServerBox(name=name) self.boxes[name] = box self.screenmain.ids.servers.add_widget(box) manager = ScreenManager(transition=SlideTransition(duration=0.2)) manager.add_widget(self.screenmain) return manager
def __init__(self): osc.init() self.oscid = osc.listen(ipAddr='127.0.0.1', port=SERVICE_PORT) osc.bind(self.oscid, self.handle_incoming_message, API_OFFSET) osc.bind(self.oscid, self.handle_request_for_pending_alerts, API_OFFSET + "pending-alerts") osc.bind(self.oscid, self.handle_classify_alert, API_OFFSET + "classify-alert")
def __init__(self, **kwargs): super(UpdateClient, self).__init__(**kwargs) osc.init() oscid = osc.listen('127.0.0.1', CLIENT_PORT) osc.bind(oscid, self.recv_osc, SERVICE_PATH) Clock.schedule_interval(lambda _: osc.readQueue(oscid), 0) self.current_version = str(get_current_version())
def build(self): self.service = None self.start_service() osc.init() oscid = osc.listen(ipAddr='127.0.0.1', port=3002) osc.bind(oscid, self.temp_data, '/sensordata') osc.bind(oscid, self.notification_data, '/notification') Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0.7) return presentation
def init_osc(self): from kivy.lib import osc osc.init() self.oscid = osc.listen(ipAddr='127.0.0.1', port=self.receive_port) osc.bind(self.oscid, self.receive_osc_message, b'/stdout') osc.bind(self.oscid, self.receive_osc_message, b'/stderr') osc.bind(self.oscid, self.receive_osc_message, b'/interpreter') osc.bind(self.oscid, self.receive_osc_message, b'/pong')
def __init__(self, **kwargs): super(BestVibratorAppServiceController, self).__init__(**kwargs) self.SERVICE_ACTIVE=False if platform=="android": from android import AndroidService self.service=AndroidService("Best Vibrator Service", "running") self.service.start("Best Vibrator Service started") self.SERVICE_ACTIVE=True osc.init()
def init_osc(self): """Initialisation of the OSC communication. Bindings are donne for some kings of messages. """ osc.init() oscid = osc.listen(ipAddr='127.0.0.1', port=kivytrek_port) osc.bind(oscid, self.gps_pos_callback, '/gps_pos') osc.bind(oscid, self.gps_daemon_recording_callback, '/gpx_status') Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0.3)
def build(self): self.service = None self.start_service() osc.init() oscid = osc.listen(port=3002) osc.bind(oscid, self.display_message, '/message') osc.bind(oscid, self.date, '/date') Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0) self.root = Builder.load_string(kv) return self.root
def __init__(self, queue): self.queue = queue self.stopped = False self.thread = threading.Thread(name='query', target=self.run) osc.init() self.oscid = osc.listen(ipAddr='127.0.0.1', port=3334) osc.bind(self.oscid, self.handle_message, '/android_park') self.thread.start() self.pending = {} self.next_id = 0
def build(self): self.start_service() osc.init() oscid = osc.listen(ipAddr='127.0.0.1', port=activityport) # activity port osc.bind(oscid, self.api_callback, '/some_api') Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0.3) return ServiceInterface()
def get_curency(self,req,data): currency=json.loads(data.decode("utf-8")) if isinstance(data,dict) else data self.load_currency(currency) if self.started==True: return self.started=True self.service = None self.start_service() osc.init() oscid = osc.listen(port=self.port)#3002 osc.bind(oscid, self.get_currency_from_service, '/currency') Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0)
def boot(self, configurestation=False): print "background boot station" #### osc IPC #### osc.init() self.oscid = osc.listen(ipAddr='0.0.0.0', port=3000) osc.bind(self.oscid, self.rpcin, '/rpc') #force trip for mobile station in background self.trip = self.ismobile() try: self.starttransport() except: print "start transport failed" notok = True while notok: try: if configurestation: self.configurestation() try: self.sensorssetup() except: print "sensorssetup failed" if self.trip: self.gps.start() self.startmqtt() notok = False except: print "Error booting station" time.sleep(5) osc.readQueue(self.oscid) if self.rpcin_message == "stop": print "received stop message from rpc" self.on_stop() print "send stopped message to rpc" self.rpcout("stopped") raise SystemExit(0) #time.sleep(60) # wait for kill from father if self.transport_name == "bluetooth": self.bluetooth.close() self.transport = self.bluetooth.connect() try: self.sensorssetup() except: print "sensorssetup failed" print "background end boot"
def serve(self): self.state = 'open' osc.init() self.oscid = osc.listen(ipAddr=self.net.server_host, port=self.net.server_port) osc.bind(self.oscid, self.osc_handle_ping, '/ping') osc.bind(self.oscid, self.osc_handle_join, '/join') osc.bind(self.oscid, self.osc_handle_leave, '/leave') osc.bind(self.oscid, self.osc_handle_start, '/start') osc.bind(self.oscid, self.osc_handle_pos, '/pos') while True: self.loop() sleep(.05)
def __init__(self, **kwargs): super(BoxLayout, self).__init__( **kwargs) self.scroller = self.children[-1] self.grid = GridLayout(cols=1, spacing=1, size_hint_y=None) self.scroller.add_widget(self.grid) self.grid.bind(minimum_height=self.grid.setter('height')) osc.init() oscid = osc.listen(ipAddr='127.0.0.1', port=3002) osc.bind(oscid, self.add_more, '/some_api') Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0.3)
def main(): oscid = osc.listen(ipAddr=hostname, port=serviceport) osc.init() osc.bind(oscid, update_notification, '/update') br = BroadcastReceiver(intent_callback,["GET_CONTENT",]) # no prefix ACTION_ required br.start() while True: osc.readQueue(oscid) time.sleep( .1 )
def _main(): osc.init() start_time = int(time.time()) oscid = osc.listen(ipAddr='0.0.0.0', port=MAIN_PROG_RCV) osc.bind(oscid, play, '/play') osc.bind(oscid, pause, '/pause') osc.bind(oscid, stop, '/stop') osc.bind(oscid, volume, '/volume') osc.bind(oscid, kill, '/kill') while True: osc.readQueue(oscid) osc.sendMsg('/ping', [start_time], port=MAIN_PROG_PORT) sleep(.1)
def _init_services(self): osc.init() self.osc_id = osc.listen(ipAddr='0.0.0.0', port=activity_port) osc.bind(self.osc_id, self._msg_from_server, '/msg') osc.bind(self.osc_id, self._sequence_loaded, '/sld') osc.bind(self.osc_id, self._write_cockpit, '/osd') osc.bind(self.osc_id, self._write_timer, '/tmr') #osc.bind(self.osc_id, self.root.write_cockpit, '/osd') if is_android: from android import AndroidService service = AndroidService('Mentor Service', 'running') service.start('service started') self.service = service Clock.schedule_interval(self.timed_ops, 1.0)
def build(self): self.title = "GoshenApp" #from kivy.core.window import Window #Window.size = (450, 600) #self.service = None self.start_service() osc.init() oscid = osc.listen(port=3002) osc.bind(oscid, self.display_message, '/message') Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0) self.theme_cls.theme_style = 'Dark' self.theme_cls.primary_palette = 'Indigo' self.nav_drawer = Drawer() return GbeeRoot()
def __init__(self, **kwargs): self.port = kwargs.get('port') _reader_should_run = None _reader_thread = None self._rx_queue = Queue.Queue() osc.init() oscid = osc.listen(ipAddr='0.0.0.0', port=CLIENT_API_PORT) osc.bind(oscid, self.on_rx, RX_API) osc.bind(oscid, self.on_command, CMD_API) self._oscid = oscid service = AndroidService('RC comms service', 'running') service.start('service started') self._service = service
def boot(self,configurestation=False): print "background boot station" #### osc IPC #### osc.init() self.oscid = osc.listen(ipAddr='0.0.0.0', port=3000) osc.bind(self.oscid, self.rpcin, '/rpc') try: self.starttransport() except: print "start transport failed" notok=True while notok: try: if configurestation: self.configurestation() try: self.sensorssetup() except: print "sensorssetup failed" if self.trip: self.gps.start() self.startmqtt() notok=False except: print "Error booting station" time.sleep(5) osc.readQueue(self.oscid) if self.rpcin_message == "stop": print "received stop message from rpc" self.on_stop() print "send stopped message to rpc" self.rpcout("stopped") raise SystemExit(0) #time.sleep(60) # wait for kill from father if self.transport_name == "bluetooth": self.bluetooth.close() self.transport=self.bluetooth.connect() try: self.sensorssetup() except: print "sensorssetup failed" print "background end boot"
def __init__(self,**kwargs): super(testapp, self).__init__(**kwargs) self.client_id = '001' self.mqtt_topics = [] self.server_ip = '' self.broker_1 = '' self.broker_2 = '' self.send_topic = '' self.ack_topic = '' self.connected = False osc.init() self.oscid = osc.listen(ipAddr='127.0.0.1', port=3000) osc.bind(self.oscid, self.get_serverIP, '/serverIP') osc.bind(self.oscid, self.get_clientID, '/clientID') osc.bind(self.oscid, self.send_command, '/command')
def build(self): self.service = None #self.start_service() global interface osc.init() oscid = osc.listen(port=3002) Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0) if settings.exists("db"): pass else: settings.put("db", created=True) db.create_table(Todo) interface = Interface() return interface
def start_client(self): osc.init() oscid = osc.listen(ipAddr=self.net.client_host, port=self.net.client_port) osc.bind(oscid, self.osc_handle_pong, '/pong') osc.bind(oscid, self.osc_handle_log, '/log') osc.bind(oscid, self.osc_handle_players, '/players') osc.bind(oscid, self.osc_handle_joined, '/joined') osc.bind(oscid, self.osc_handle_left, '/left') osc.bind(oscid, self.osc_handle_draw, '/draw') osc.bind(oscid, self.osc_handle_pos, '/pos') osc.bind(oscid, self.osc_handle_go, '/go') osc.bind(oscid, self.osc_handle_win, '/win') Clock.schedule_interval(lambda dt: osc.readQueue(oscid), 0) Clock.schedule_interval(lambda dt: self.gui.update(), 1 / 60.0) Clock.schedule_interval(lambda dt: self.osc_send_ping(), 0.25)
def build(self): if platform == 'android': from android import AndroidService service = AndroidService('My Activity', 'running') service.start('service started') self.service = service osc.init() osc_id = osc.listen(ipAddr='127.0.0.1', port=activity_port) osc.bind(osc_id, self.my_callback, '/message') # Listen for messages regularly Clock.schedule_interval(lambda *x: osc.readQueue(osc_id), 0) btn = Button(text='Push me to see OSC working') btn.bind(on_release=self.send_msg_to_service) return btn
def _test_3_test_service_job(self): # Run main _proc = subprocess.Popen(args = ["python", os.path.normpath(Test_Script_Dir + "/../main.py")], stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE) # Connect to it and sent message osc.init() self.oscid = osc.listen(ipAddr='0.0.0.0', port=3002) osc.bind(self.oscid, self._status_result, "/status") sleep(1) osc.sendMsg(oscAddress ='/run_job', ipAddr="0.0.0.0", dataArray=["Default", ], port=3000) sleep(10) osc.sendMsg(oscAddress ='/stop', ipAddr="0.0.0.0", dataArray=[], port=3000)
def build(self): #EventLoop.window.bind(on_keyboard=self.hook_keyboard) if platform == 'android': service = AndroidService('Sister Radio', 'running') service.start('service started!') self.service = service self.wakelock.start() osc.init() oscid = osc.listen(ipAddr='127.0.0.1', port=activityport) osc.bind(oscid, self.is_playing, '/is_playing') osc.bind(oscid, self.is_stopped, '/is_stopped') Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0) menu = Menu() return menu
def __init__(self, **kwargs): if platform == 'android': sp = {'service':3000, 'app':3001} serv = 'APPIX_SERVICE' in os.environ self.send_port = sp['service' if serv else 'app'] self.listen_port = sp['service' if not serv else 'app'] print self.listen_port, 'port', serv, 'APPIX_APP' in os.environ super(AppixComm, self).__init__() osc.init() self.keep_listening = False self.oscid = osc.listen(ipAddr='127.0.0.1', port=self.listen_port) osc.bind(self.oscid, self.read_message, '/AppixCom') self.bluetooth_standby_time = 0 self.app = App.get_running_app() self.time_since_app_paused = 0 self.debug = DEBUG self.admin_app = ADMIN_APP
def start_service(self): if platform == "android": Logger.info("main: Creating Android Service") from android import AndroidService service = AndroidService('Notification Demo', 'running') service.start('service started') self.service = service else: # purely for testing on non-android platforms, # although notification will not work Logger.info("main: Creating Service as Secondary Process") self.pid = Popen([sys.executable, "service/main.py"]) osc.init() oscid = osc.listen(ipAddr=hostname, port=activityport) Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0)
def __init__(self,**kwargs): super(NotificationDemo, self).__init__(**kwargs) self.temp = [0,0,0,0] self.tempchg = None self.humchg = None self.dataRecv = '[0,0,0,0]' self.broker='106.201.235.43' self.service = 3000 osc.init() self.oscid = osc.listen(ipAddr='127.0.0.1', port=3000) osc.bind(self.oscid, self.settings_data, '/settings_data') self.alert_settings = [20,40,20,50] self.notifications_received = ObjectProperty(None) self.notification_title = ObjectProperty(None) self.notification_text = ObjectProperty(None) self.olddat = [0,0,0,0] self.notification_msg = ['No Notification', '', '','down2.png'] self.a = 0
def __init__(self): sleep(1) osc.init() oscid = osc.listen(ipAddr='127.0.0.1', port=3001) try: osc.sendMsg('/some_api', ['Init'], port=3002) self.mplayer = M_Player(self) osc.bind(oscid, self.mplayer.osc_callback, '/some_api') self.queue = '' while True: osc.readQueue(oscid) if self.queue != '': self.mplayer.osc_callback(['','',self.queue]) self.queue = '' sleep(.3) except Exception as e: osc.sendMsg('/some_api', ['Service crash '+str(e)], port=3002)
def __init__(self, **kwargs): super(ZbarQrcodeDetector, self).__init__(**kwargs) self._camera = AndroidCamera( size=self.camera_size, size_hint=(None, None)) self._camera.bind(on_preview_frame=self._detect_qrcode_frame) self.add_widget(self._camera) # create a scanner used for detecting qrcode self._scanner = ImageScanner() self._scanner.setConfig(0, Config.ENABLE, 0) self._scanner.setConfig(Symbol.QRCODE, Config.ENABLE, 1) self._scanner.setConfig(0, Config.X_DENSITY, 3) self._scanner.setConfig(0, Config.Y_DENSITY, 3) osc.init() self._sound = SoundLoader.load('sound.wav')
def init(self, _cfg_file=None): self.ids.destination_host.ids.input_selection.bind(text=self._update_host) self.ids.destination_path.on_status = self.do_on_smbselector_status self.load_settings(_cfg_file) self.service = None osc.init() self.oscid = osc.listen(port=3002) osc.bind(self.oscid, self.progress_callback, "/progress_callback") osc.bind(self.oscid, self.status_callback, "/status_callback") # Check if service is running self.service_running = False osc.sendMsg("/status", [], port=3000) osc.sendMsg("/progress", [], port=3000) sleep(0.3) osc.readQueue(self.oscid) Clock.schedule_interval(self.process_messages, 1)
def build(self): """ Construct the screen manager with the appropriate screens """ Window.clearcolor = (1, 1, 1, 1) self.lines = deque([]) self.screens = {'anontunnels': AnonTunnelScreen(name='anontunnels'), 'settings': SettingsScreen(name='settings')} self.screen_manager = ScreenManager() for screen in self.screens.values(): self.screen_manager.add_widget(screen) osc.init() self.oscid = osc.listen(ipAddr='127.0.0.1', port=9000) osc.bind(self.oscid, self.received_status, '/status') Clock.schedule_interval(lambda *x: osc.readQueue(), 0) return self.screen_manager
def __init__(self, **kargs): super(PedidosWidget, self).__init__(**kargs) Logger.debug('Cagada') self.listapedidos = [] self.modify_pedidos = [] if platform == 'android': from android import AndroidService service = AndroidService('TpvB3 receptor', 'running') service.start('service started') self.service = service else: import os, threading #threading.Thread(target=os.system, args=("python ./service/main.py",)).start() osc.init() oscid = osc.listen(ipAddr='127.0.0.1', port=activityport) osc.bind(oscid, self.mostrar_pedidos, '/sync_pedidos') Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0) self.mostrar_pedidos('ok')
def run(self): print 'updater run' osc.init() oscid = osc.listen('127.0.0.1', SERVICE_PORT) osc.bind(oscid, self.recv_osc, SERVICE_PATH) print 'listening for OSC' self.current_version = self.downloaded_version = self.get_current_version() while True: if not self.last_check or (self.last_check + self.frequency) < time(): if self.check_for_update(): self.download_update() if self.dlready.is_set(): self.notify_client() self.dlready.clear() osc.readQueue(oscid) sleep(.1)
def __init__(self, **args): global _wna super(WhiteNoiseBackground, self).__init__(**args) self.setup_config() _wna = self self.last_ping = time.time() self.service_start = 0 self.service = None self.start_service() osc.init() oscid = osc.listen(port=SERVICE_SND_PORT) osc.bind(oscid, self.service_ping, '/ping') Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0) Clock.schedule_interval(self.check_for_srvc, 0.5) self.service_warn = False self.init_gui()
def build(self): """ Construct the screen manager with the appropriate screens """ Window.clearcolor = (1, 1, 1, 1) self.lines = deque([]) self.screens = { 'anontunnels': AnonTunnelScreen(name='anontunnels'), 'settings': SettingsScreen(name='settings') } self.screen_manager = ScreenManager() for screen in self.screens.values(): self.screen_manager.add_widget(screen) osc.init() self.oscid = osc.listen(ipAddr='127.0.0.1', port=9000) osc.bind(self.oscid, self.received_status, '/status') Clock.schedule_interval(lambda *x: osc.readQueue(), 0) return self.screen_manager
def run(self): print 'updater run' osc.init() oscid = osc.listen('127.0.0.1', SERVICE_PORT) osc.bind(oscid, self.recv_osc, SERVICE_PATH) print 'listening for OSC' self.current_version = self.downloaded_version = self.get_current_version( ) while True: if not self.last_check or (self.last_check + self.frequency) < time(): if self.check_for_update(): self.download_update() if self.dlready.is_set(): self.notify_client() self.dlready.clear() osc.readQueue(oscid) sleep(.1)
def __init__(self): L.debug("Service is running") # Initialize internal queue self.thread = threading.Thread(name='execution', target=self.async_run) self.internal_queue = Queue() self.thread.start() # Initialize OSC osc.init() self.oscid = osc.listen(ipAddr='127.0.0.1', port=3333) osc.bind(self.oscid, self.handle_message, '/android_park') self.server = ServerInterface() self.pending = {} self.last_time = None self.notified = True self.config = None # set to indicate that a month has been processed by the pattern self.pattern_processed=set() # Initialize timezones self.met = pytz.timezone('Europe/Madrid') self.t1 = datetime.time(hour=0, minute=0, second=0, tzinfo=self.met) # 00:00 self.t2 = datetime.time(hour=15, minute=0, second=0, tzinfo=self.met) # 15:00 self.t3 = datetime.time(hour=17, minute=30, second=0, tzinfo=self.met) # 17:30 self.t4 = datetime.time(hour=23, minute=59, second=59, tzinfo=self.met) # 23:59
def build(self): self.title = "Traffic simulator" # Android self.service = None self.start_service() # osc messages init osc.init() oscid = osc.listen(port=3002) # Send start/stop simulation osc.bind(oscid, self.start_simulation, '/send_start') # Receive hello world osc.bind(oscid, self.output_hello, '/receive_hello') # Retrieve simulation status osc.bind(oscid, self.simulation_status_receive, '/simu-status') # Retrieve server stopped osc.bind(oscid, self.server_stopped, '/server-stop') # Read received messages Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0) # Receive grid status osc.bind(oscid, self.grid_update, '/states') # Send message asking for simulation status osc.sendMsg('/simu-status_ask', [], port=3000) # Grid changes # self._size_handler_trigger = Clock.schedule_once(self._size_handler) # Clock.create_trigger # self.bind(grid=self._size_handler_trigger) # normal variables self.grid_spots = [] if not self.server_running: print("Simulation server not running") self.root.ids.label.text = "Simulation server not running :(\n"
def setupOsc(self): osc.init() oscid = osc.listen(ipAddr='127.0.0.1', port=IPCPort) osc.bind(oscid, self.main.on_update_from_service, '/update') Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0)
def __init__(self): super(OSCClient, self).__init__() osc.init() osc_id = osc.listen(ipAddr='127.0.0.1', port=OSCServer.client_port) osc.bind(osc_id, OSCClient.kivy_client, 'kivy_client') Clock.schedule_interval(lambda *x: osc.readQueue(osc_id), 0)
def stop_notification_service(): if platform == 'android': osc.init() osc.sendMsg('/stop', [], port=3000)
def build(self): if platform == 'android': from android import AndroidService service = AndroidService('my pong service', 'running') service.start('service started') self.service = service osc.init() oscid = osc.listen(ipAddr='127.0.0.1', port=ACTIVITY_PORT) osc.bind(oscid, self.some_api_callback, API_OFFSET) osc.bind(oscid, self.handle_alerts, API_OFFSET + "pending-alerts") Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0) Window.size = 640, 480 self.layout = TabbedPanel() self.layout.do_default_tab = True #self.status_tab = GridLayout() #self.layout.default_tab_content = self.status_tab #self.layout.default_tab_text = "Status" #self.status_tab.add_widget(Button(text="TODO make this page...")) #self.alert_tab = TabbedPanelHeader(text="Alert") self.alert_tab_box = BoxLayout() self.alert_tab_box.orientation = 'vertical' self.alert_tab_box.size_hint = 1, 1 #self.alert_tab.content = self.alert_tab_box self.alert_tab_scroll = ScrollView( size_hint=(1, 1), size=self.alert_tab_box.size, #size=Window.size, scroll_type=['bars', 'content'], do_scroll_y=True, do_scroll_x=False ) self.alert_tab_box.add_widget(self.alert_tab_scroll) self.alert_tab_alert_buttons = ButtonList() self.alert_tab_alert_buttons.bind(minimum_height=self.alert_tab_alert_buttons.setter('height')) self.alert_tab_alert_buttons.cols = 1 self.alert_tab_alert_buttons.size_hint_y = None self.alert_tab_alert_buttons.row_default_height = '30dp' self.alert_tab_alert_buttons.row_force_default = True self.alert_tab_alert_buttons.spacing = 0, 0 self.alert_tab_alert_buttons.padding = 0, 0 self.alert_tab_scroll.add_widget(self.alert_tab_alert_buttons) #self.requests_tab = TabbedPanelHeader(text="Requests") self.layout.default_tab_content = self.alert_tab_box self.layout.default_tab_text = "Alerts" #self.layout.add_widget(self.status_tab) #self.layout.add_widget(self.alert_tab) #self.layout.add_widget(self.requests_tab) self.request_pending_alerts() return self.layout
def __init__(self, rx_port, tx_port): self._rx_port, self._tx_port = rx_port, tx_port osc.init() self.oscid = osc.listen(port=rx_port) Clock.schedule_interval(lambda *x: osc.readQueue(self.oscid), 0)
def __init__(self): """ Create a listener and start managing comms. """ osc.init() self.osc_id = osc.listen(ipAddr='127.0.0.1', port=OSCServer.server_port) osc.bind(self.osc_id, self.kivy_server, 'kivy_server')
my_id.locked = 1 stopAll() sleep(random.uniform(0, 3)) if f9.is_available == 0: f9.is_available = 1 f9.videoPlay() print ('id 9 touched') if int(message[2]) == 0: stopAll() sleep(random.uniform(0, 3)) if my_video.is_available == 0: my_video.is_available = 1 my_video.self_video_play() my_id.locked = 0 print ('Play My video') if __name__ == '__main__': osc.init() oscid = osc.listen(ipAddr='0.0.0.0', port=serviceport) osc.bind(oscid, derrick_osc, '/derrick/osc') Clock.schedule_interval(lambda *x: osc.readQueue(oscid), 0) print (my_id.id_to_set, 'id_to_set') print (croparea_setter(my_id.id_to_set)) if my_video.is_available == 0: my_video.is_available = 1 my_video.self_video_play() DerrickApp().run()