class BrickletAmbientLight: _QUOTIENT = 10.0 def __init__(self, uid, connection, logging_daemon, queue, value=0.0, trigger_difference=0.1): self.bricklet = AmbientLight(uid, connection) self._value = value self._value_old = value self.trigger_difference = trigger_difference self._rising = False self._falling = False self.uid = uid self._logging_daemon = logging_daemon self._queue = queue self._logging_daemon.info('Tinkerforge ... AmbientLight-Bricklet UID "%s" initialisiert' % uid) def set_callback(self, timeframe=5000): self.bricklet.set_illuminance_callback_period(timeframe) self.bricklet.register_callback(self.bricklet.CALLBACK_ILLUMINANCE, self._changed) self._logging_daemon.debug('Tinkerforge ... AmbientLight-Bricklet UID "%s" Callback gesetzt' % self.uid) def read(self): return self.bricklet.get_illuminance() / self._QUOTIENT def read_rising(self): return self._rising def read_falling(self): return self._falling def _changed(self, tmp_value): tmp_value = (tmp_value / self._QUOTIENT) if abs(self._value - tmp_value) >= self.trigger_difference: if tmp_value > self._value_old: self._rising = True self._falling = False elif tmp_value < self._value_old: self._rising = False self._falling = True self._logging_daemon.debug( 'Tinkerforge ... AmbientLight-Bricklet UID "%s" , Neu = %f , Alt = %f , rising = %s , falling = %s' % ( self.uid, tmp_value, self._value_old, self._rising, self._falling)) self._value_old = tmp_value self._value = tmp_value tmp_json = json.dumps(["send_changed_data", self.uid, "sensor", "ambient_light", self._value]) for consumer in self._queue: consumer(tmp_json) self._logging_daemon.info( 'Tinkerforge ... AmbientLight-Bricklet UID "%s" , neuer Wert %f -> SocketServer Warteschlange ' % ( self.uid, self._value)) ambient_light = property(read) rising = property(read_rising) falling = property(read_falling)
class WeatherStation(QApplication): HOST = "localhost" PORT = 4223 ipcon = None lcd = None al = None hum = None baro = None projects = [] active_project = None error_msg = None def __init__(self, args): super(QApplication, self).__init__(args) self.error_msg = QErrorMessage() self.ipcon = IPConnection() signal.signal(signal.SIGINT, self.exit_demo) signal.signal(signal.SIGTERM, self.exit_demo) timer = QTimer(self) timer.setSingleShot(True) timer.timeout.connect(self.connect) timer.start(1) def exit_demo(self, signl=None, frme=None): try: self.ipcon.disconnect() self.timer.stop() self.tabs.destroy() except: pass sys.exit() def open_gui(self): self.main = MainWindow(self) self.main.setFixedSize(730, 430) self.main.setWindowIcon(QIcon(os.path.join(ProgramPath.program_path(), "demo-icon.png"))) self.tabs = QTabWidget() widget = QWidget() layout = QVBoxLayout() layout.addWidget(self.tabs) widget.setLayout(layout) self.main.setCentralWidget(widget) self.projects.append(ProjectEnvDisplay(self.tabs, self)) self.projects.append(ProjectStatistics(self.tabs, self)) self.projects.append(ProjectXively(self.tabs, self)) self.tabs.addTab(self.projects[0], "Display Environment Measurements") self.tabs.addTab(self.projects[1], "Show Statistics with Button Control") self.tabs.addTab(self.projects[2], "Connect to Xively") self.active_project = self.projects[0] self.tabs.currentChanged.connect(self.tabChangedSlot) self.main.setWindowTitle("Starter Kit: Weather Station Demo " + config.DEMO_VERSION) self.main.show() def connect(self): try: self.ipcon.connect(WeatherStation.HOST, WeatherStation.PORT) except Error as e: self.error_msg.showMessage('Connection Error: ' + str(e.description) + "\nBrickd installed and running?") return except socket.error as e: self.error_msg.showMessage('Socket error: ' + str(e) + "\nBrickd installed and running?") return self.ipcon.register_callback(IPConnection.CALLBACK_ENUMERATE, self.cb_enumerate) self.ipcon.register_callback(IPConnection.CALLBACK_CONNECTED, self.cb_connected) try: self.ipcon.enumerate() except Error as e: self.error_msg.showMessage('Enumerate Error: ' + str(e.description)) return self.open_gui() def tabChangedSlot(self, tabIndex): if self.lcd is not None: self.lcd.clear_display() self.active_project = self.projects[tabIndex] def cb_illuminance(self, illuminance): for p in self.projects: p.update_illuminance(illuminance) def cb_humidity(self, humidity): for p in self.projects: p.update_humidity(humidity) def cb_air_pressure(self, air_pressure): for p in self.projects: p.update_air_pressure(air_pressure) try: temperature = self.baro.get_chip_temperature() except Error as e: print('Could not get temperature: ' + str(e.description)) return for p in self.projects: p.update_temperature(temperature) def configure_custom_chars(self): c = [[0x00 for x in range(8)] for y in range(8)] c[0] = [0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xff] c[1] = [0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xff, 0xff] c[2] = [0x00, 0x00, 0x00, 0x00, 0x00, 0xff, 0xff, 0xff] c[3] = [0x00, 0x00, 0x00, 0x00, 0xff, 0xff, 0xff, 0xff] c[4] = [0x00, 0x00, 0x00, 0xff, 0xff, 0xff, 0xff, 0xff] c[5] = [0x00, 0x00, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff] c[6] = [0x00, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff] c[7] = [0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff] for i in range(len(c)): self.lcd.set_custom_character(i, c[i]); def cb_button_pressed(self, button): for p in self.projects: p.button_pressed(button) def cb_enumerate(self, uid, connected_uid, position, hardware_version, firmware_version, device_identifier, enumeration_type): if enumeration_type == IPConnection.ENUMERATION_TYPE_CONNECTED or \ enumeration_type == IPConnection.ENUMERATION_TYPE_AVAILABLE: if device_identifier == LCD20x4.DEVICE_IDENTIFIER: try: self.lcd = LCD20x4(uid, self.ipcon) self.lcd.clear_display() self.lcd.backlight_on() self.lcd.register_callback(self.lcd.CALLBACK_BUTTON_PRESSED, self.cb_button_pressed) self.configure_custom_chars() except Error as e: self.error_msg.showMessage('LCD 20x4 init failed: ' + str(e.description)) self.lcd = None elif device_identifier == AmbientLight.DEVICE_IDENTIFIER: try: self.al = AmbientLight(uid, self.ipcon) self.al.set_illuminance_callback_period(1000) self.al.register_callback(self.al.CALLBACK_ILLUMINANCE, self.cb_illuminance) except Error as e: self.error_msg.showMessage('Ambient Light init failed: ' + str(e.description)) self.al = None elif device_identifier == Humidity.DEVICE_IDENTIFIER: try: self.hum = Humidity(uid, self.ipcon) self.hum.set_humidity_callback_period(1000) self.hum.register_callback(self.hum.CALLBACK_HUMIDITY, self.cb_humidity) except Error as e: self.error_msg.showMessage('Humidity init failed: ' + str(e.description)) self.hum = None elif device_identifier == Barometer.DEVICE_IDENTIFIER: try: self.baro = Barometer(uid, self.ipcon) self.baro.set_air_pressure_callback_period(1000) self.baro.register_callback(self.baro.CALLBACK_AIR_PRESSURE, self.cb_air_pressure) except Error as e: self.error_msg.showMessage('Barometer init failed: ' + str(e.description)) self.baro = None def cb_connected(self, connected_reason): if connected_reason == IPConnection.CONNECT_REASON_AUTO_RECONNECT: while True: try: self.ipcon.enumerate() break except Error as e: self.error_msg.showMessage('Enumerate Error: ' + str(e.description)) time.sleep(1)
# -*- coding: utf-8 -*- HOST = "localhost" PORT = 4223 UID = "XYZ" # Change to your UID from tinkerforge.ip_connection import IPConnection from tinkerforge.bricklet_ambient_light import AmbientLight # Callback function for illuminance callback (parameter has unit Lux/10) def cb_illuminance(illuminance): print('Illuminance: ' + str(illuminance/10.0) + ' Lux') if __name__ == "__main__": ipcon = IPConnection() # Create IP connection al = AmbientLight(UID, ipcon) # Create device object ipcon.connect(HOST, PORT) # Connect to brickd # Don't use device before ipcon is connected # Set Period for illuminance callback to 1s (1000ms) # Note: The illuminance callback is only called every second if the # illuminance has changed since the last call! al.set_illuminance_callback_period(1000) # Register illuminance callback to function cb_illuminance al.register_callback(al.CALLBACK_ILLUMINANCE, cb_illuminance) raw_input('Press key to exit\n') # Use input() in Python 3 ipcon.disconnect()
class BrickletAmbientLight: _QUOTIENT = 10.0 def __init__(self, uid, connection, logging_daemon, queue, value=0.0, trigger_difference=0.1): self.bricklet = AmbientLight(uid, connection) self._value = value self._value_old = value self.trigger_difference = trigger_difference self._rising = False self._falling = False self.uid = uid self._logging_daemon = logging_daemon self._queue = queue self._logging_daemon.info( 'Tinkerforge ... AmbientLight-Bricklet UID "%s" initialisiert' % uid) def set_callback(self, timeframe=5000): self.bricklet.set_illuminance_callback_period(timeframe) self.bricklet.register_callback(self.bricklet.CALLBACK_ILLUMINANCE, self._changed) self._logging_daemon.debug( 'Tinkerforge ... AmbientLight-Bricklet UID "%s" Callback gesetzt' % self.uid) def read(self): return self.bricklet.get_illuminance() / self._QUOTIENT def read_rising(self): return self._rising def read_falling(self): return self._falling def _changed(self, tmp_value): tmp_value = (tmp_value / self._QUOTIENT) if abs(self._value - tmp_value) >= self.trigger_difference: if tmp_value > self._value_old: self._rising = True self._falling = False elif tmp_value < self._value_old: self._rising = False self._falling = True self._logging_daemon.debug( 'Tinkerforge ... AmbientLight-Bricklet UID "%s" , Neu = %f , Alt = %f , rising = %s , falling = %s' % (self.uid, tmp_value, self._value_old, self._rising, self._falling)) self._value_old = tmp_value self._value = tmp_value tmp_json = json.dumps([ "send_changed_data", self.uid, "sensor", "ambient_light", self._value ]) for consumer in self._queue: consumer(tmp_json) self._logging_daemon.info( 'Tinkerforge ... AmbientLight-Bricklet UID "%s" , neuer Wert %f -> SocketServer Warteschlange ' % (self.uid, self._value)) ambient_light = property(read) rising = property(read_rising) falling = property(read_falling)
class WeatherStation: HOST = "localhost" PORT = 4223 ipcon = None lcd = None al = None hum = None baro = None def __init__(self): self.xively = Xively() self.ipcon = IPConnection() while True: try: self.ipcon.connect(WeatherStation.HOST, WeatherStation.PORT) break except Error as e: log.error('Connection Error: ' + str(e.description)) time.sleep(1) except socket.error as e: log.error('Socket error: ' + str(e)) time.sleep(1) self.ipcon.register_callback(IPConnection.CALLBACK_ENUMERATE, self.cb_enumerate) self.ipcon.register_callback(IPConnection.CALLBACK_CONNECTED, self.cb_connected) while True: try: self.ipcon.enumerate() break except Error as e: log.error('Enumerate Error: ' + str(e.description)) time.sleep(1) def cb_illuminance(self, illuminance): if self.lcd is not None: text = 'Illuminanc %6.2f lx' % (illuminance/10.0) self.lcd.write_line(0, 0, text) self.xively.put('AmbientLight', illuminance/10.0) log.info('Write to line 0: ' + text) def cb_humidity(self, humidity): if self.lcd is not None: text = 'Humidity %6.2f %%' % (humidity/10.0) self.lcd.write_line(1, 0, text) self.xively.put('Humidity', humidity/10.0) log.info('Write to line 1: ' + text) def cb_air_pressure(self, air_pressure): if self.lcd is not None: text = 'Air Press %7.2f mb' % (air_pressure/1000.0) self.lcd.write_line(2, 0, text) self.xively.put('AirPressure', air_pressure/1000.0) log.info('Write to line 2: ' + text) temperature = self.baro.get_chip_temperature()/100.0 # \xDF == ° on LCD 20x4 charset text = 'Temperature %5.2f \xDFC' % temperature self.lcd.write_line(3, 0, text) self.xively.put('Temperature', temperature) log.info('Write to line 3: ' + text.replace('\xDF', '°')) def cb_enumerate(self, uid, connected_uid, position, hardware_version, firmware_version, device_identifier, enumeration_type): if enumeration_type == IPConnection.ENUMERATION_TYPE_CONNECTED or \ enumeration_type == IPConnection.ENUMERATION_TYPE_AVAILABLE: if device_identifier == LCD20x4.DEVICE_IDENTIFIER: try: self.lcd = LCD20x4(uid, self.ipcon) self.lcd.clear_display() self.lcd.backlight_on() log.info('LCD20x4 initialized') except Error as e: log.error('LCD20x4 init failed: ' + str(e.description)) self.lcd = None elif device_identifier == AmbientLight.DEVICE_IDENTIFIER: try: self.al = AmbientLight(uid, self.ipcon) self.al.set_illuminance_callback_period(1000) self.al.register_callback(self.al.CALLBACK_ILLUMINANCE, self.cb_illuminance) log.info('AmbientLight initialized') except Error as e: log.error('AmbientLight init failed: ' + str(e.description)) self.al = None elif device_identifier == Humidity.DEVICE_IDENTIFIER: try: self.hum = Humidity(uid, self.ipcon) self.hum.set_humidity_callback_period(1000) self.hum.register_callback(self.hum.CALLBACK_HUMIDITY, self.cb_humidity) log.info('Humidity initialized') except Error as e: log.error('Humidity init failed: ' + str(e.description)) self.hum = None elif device_identifier == Barometer.DEVICE_IDENTIFIER: try: self.baro = Barometer(uid, self.ipcon) self.baro.set_air_pressure_callback_period(1000) self.baro.register_callback(self.baro.CALLBACK_AIR_PRESSURE, self.cb_air_pressure) log.info('Barometer initialized') except Error as e: log.error('Barometer init failed: ' + str(e.description)) self.baro = None def cb_connected(self, connected_reason): if connected_reason == IPConnection.CONNECT_REASON_AUTO_RECONNECT: log.info('Auto Reconnect') while True: try: self.ipcon.enumerate() break except Error as e: log.error('Enumerate Error: ' + str(e.description)) time.sleep(1)
HOST = "localhost" PORT = 4223 UID = "XYZ" # Change to your UID from tinkerforge.ip_connection import IPConnection from tinkerforge.bricklet_ambient_light import AmbientLight # Callback for illuminance greater than 200 Lux def cb_reached(illuminance): print('We have ' + str(illuminance/10.0) + ' Lux.') print('Too bright, close the curtains!') if __name__ == "__main__": ipcon = IPConnection() # Create IP connection al = AmbientLight(UID, ipcon) # Create device object ipcon.connect(HOST, PORT) # Connect to brickd # Don't use device before ipcon is connected # Get threshold callbacks with a debounce time of 10 seconds (10000ms) al.set_debounce_period(10000) # Register threshold reached callback to function cb_reached al.register_callback(al.CALLBACK_ILLUMINANCE_REACHED, cb_reached) # Configure threshold for "greater than 200 Lux" (unit is Lux/10) al.set_illuminance_callback_threshold('>', 200*10, 0) raw_input('Press key to exit\n') # Use input() in Python 3 ipcon.disconnect()
class WeatherStation: HOST = "localhost" PORT = 4223 ipcon = None lcd = None al = None hum = None baro = None def __init__(self): self.ipcon = IPConnection() while True: try: self.ipcon.connect(WeatherStation.HOST, WeatherStation.PORT) break except Error as e: log.error('Connection Error: ' + str(e.description)) time.sleep(1) except socket.error as e: log.error('Socket error: ' + str(e)) time.sleep(1) self.ipcon.register_callback(IPConnection.CALLBACK_ENUMERATE, self.cb_enumerate) self.ipcon.register_callback(IPConnection.CALLBACK_CONNECTED, self.cb_connected) while True: try: self.ipcon.enumerate() break except Error as e: log.error('Enumerate Error: ' + str(e.description)) time.sleep(1) def cb_illuminance(self, illuminance): if self.lcd is not None: text = 'Illuminanc %6.2f lx' % (illuminance / 10.0) self.lcd.write_line(0, 0, text) log.info('Write to line 0: ' + text) def cb_humidity(self, humidity): if self.lcd is not None: text = 'Humidity %6.2f %%' % (humidity / 10.0) self.lcd.write_line(1, 0, text) log.info('Write to line 1: ' + text) def cb_air_pressure(self, air_pressure): if self.lcd is not None: text = 'Air Press %7.2f mb' % (air_pressure / 1000.0) self.lcd.write_line(2, 0, text) log.info('Write to line 2: ' + text) try: temperature = self.baro.get_chip_temperature() except Error as e: log.error('Could not get temperature: ' + str(e.description)) return # \xDF == ° on LCD 20x4 charset text = 'Temperature %5.2f \xDFC' % (temperature / 100.0) self.lcd.write_line(3, 0, text) log.info('Write to line 3: ' + text.replace('\xDF', '°')) def cb_enumerate(self, uid, connected_uid, position, hardware_version, firmware_version, device_identifier, enumeration_type): if enumeration_type == IPConnection.ENUMERATION_TYPE_CONNECTED or \ enumeration_type == IPConnection.ENUMERATION_TYPE_AVAILABLE: if device_identifier == LCD20x4.DEVICE_IDENTIFIER: try: self.lcd = LCD20x4(uid, self.ipcon) self.lcd.clear_display() self.lcd.backlight_on() log.info('LCD 20x4 initialized') except Error as e: log.error('LCD 20x4 init failed: ' + str(e.description)) self.lcd = None elif device_identifier == AmbientLight.DEVICE_IDENTIFIER: try: self.al = AmbientLight(uid, self.ipcon) self.al.set_illuminance_callback_period(1000) self.al.register_callback(self.al.CALLBACK_ILLUMINANCE, self.cb_illuminance) log.info('Ambient Light initialized') except Error as e: log.error('Ambient Light init failed: ' + str(e.description)) self.al = None elif device_identifier == Humidity.DEVICE_IDENTIFIER: try: self.hum = Humidity(uid, self.ipcon) self.hum.set_humidity_callback_period(1000) self.hum.register_callback(self.hum.CALLBACK_HUMIDITY, self.cb_humidity) log.info('Humidity initialized') except Error as e: log.error('Humidity init failed: ' + str(e.description)) self.hum = None elif device_identifier == Barometer.DEVICE_IDENTIFIER: try: self.baro = Barometer(uid, self.ipcon) self.baro.set_air_pressure_callback_period(1000) self.baro.register_callback( self.baro.CALLBACK_AIR_PRESSURE, self.cb_air_pressure) log.info('Barometer initialized') except Error as e: log.error('Barometer init failed: ' + str(e.description)) self.baro = None def cb_connected(self, connected_reason): if connected_reason == IPConnection.CONNECT_REASON_AUTO_RECONNECT: log.info('Auto Reconnect') while True: try: self.ipcon.enumerate() break except Error as e: log.error('Enumerate Error: ' + str(e.description)) time.sleep(1)
class WeatherStation: HOST = "localhost" PORT = 4223 ipcon = None lcd = None lcd_clear = False al = None hum = None baro = None def __init__(self): self.ipcon = IPConnection() while True: try: self.ipcon.connect(WeatherStation.HOST, WeatherStation.PORT) break except Error as e: log.error('Connection Error: ' + str(e.description)) timer.sleep(1) except socket.error as e: log.error('Socket error: ' + str(e)) timer.sleep(1) self.ipcon.register_callback(IPConnection.CALLBACK_ENUMERATE, self.cb_enumerate) self.ipcon.register_callback(IPConnection.CALLBACK_CONNECTED, self.cb_connected) while True: try: self.ipcon.enumerate() break except Error as e: log.error('Enumerate Error: ' + str(e.description)) timer.sleep(1) def start(self): t = 10 extended_timer = 10 try: while True: if self.lcd: self.write_date(0, 0) self.write_time(1, 0) t = t + 1 if t >= extended_timer: if self.baro: self.write_temperatur(2, 0) if self.hum: self.write_humidity(3, 0) t = 0 timer.sleep(1) except KeyboardInterrupt: if weather_station.ipcon != None: weather_station.ipcon.disconnect() return def init_lcd(self, uid): try: self.lcd = LCD20x4(uid, self.ipcon) self.lcd.clear_display() self.lcd.backlight_on() log.info('LCD 20x4 initialized') except Error as e: log.error('LCD 20x4 init failed: ' + str(e.description)) self.lcd = None def init_ambientlight(self, uid): try: self.al = AmbientLight(uid, self.ipcon) self.al.set_illuminance_callback_period(1000) self.al.register_callback(self.al.CALLBACK_ILLUMINANCE, self.cb_illuminance) except Error as e: log.error('Ambient Light init failed: ' + str(e.description)) self.al = None def init_barometer(self, uid): try: self.baro = Barometer(uid, self.ipcon) except Error as e: log.error('Barometer init failed: ' + str(e.description)) self.baro = None def init_humidity(self, uid): try: self.hum = Humidity(uid, self.ipcon) except Error as e: log.error('Humidity init failed: ' + str(e.description)) self.hum = None def write_time(self, line, start_position): lt = localtime() hour, minute, second = lt[3:6] self.lcd.write_line(line, start_position, "Time: %02i:%02i:%02i" % (hour, minute, second)) def write_date(self, line, start_position): lt = localtime() year, month, day = lt[0:3] self.lcd.write_line(line, start_position, "Date: %02i.%02i.%04i" % (day, month, year)) def write_temperatur(self, line, start_position): try: temperature = self.baro.get_chip_temperature() text = 'Temp: %5.2f \xDFC' % (temperature / 100.0) self.lcd.write_line(line, start_position, text) except Error as e: log.error('Could not get temperature: ' + str(e.description)) return def write_humidity(self, line, start_position): try: h = self.hum.get_humidity() text = 'Humidity: %6.2f %%' % (h / 10.0) self.lcd.write_line(line, start_position, text) except Error as e: log.error('Could not get temperature: ' + str(e.description)) return def cb_illuminance(self, illuminance): if self.lcd is not None: i = illuminance / 10.0 if i < 0.5 and self.lcd.is_backlight_on(): self.lcd.backlight_off() elif i >= 0.5 and not self.lcd.is_backlight_on(): self.lcd.backlight_on() def cb_enumerate(self, uid, connected_uid, position, hardware_version, firmware_version, device_identifier, enumeration_type): if enumeration_type == IPConnection.ENUMERATION_TYPE_CONNECTED or \ enumeration_type == IPConnection.ENUMERATION_TYPE_AVAILABLE: if device_identifier == LCD20x4.DEVICE_IDENTIFIER: self.init_lcd(uid) elif device_identifier == AmbientLight.DEVICE_IDENTIFIER: self.init_ambientlight(uid) elif device_identifier == Humidity.DEVICE_IDENTIFIER: self.init_humidity(uid) elif device_identifier == Barometer.DEVICE_IDENTIFIER: self.init_barometer(uid) def cb_connected(self, connected_reason): if connected_reason == IPConnection.CONNECT_REASON_AUTO_RECONNECT: log.info('Auto Reconnect') while True: try: self.ipcon.enumerate() break except Error as e: log.error('Enumerate Error: ' + str(e.description)) timer.sleep(1)
class ServerRoomMonitoring: HOST = "ServerMonitoring" PORT = 4223 ipcon = None al = None al_v2 = None temp = None def __init__(self): self.xively = Xively() self.ipcon = IPConnection() while True: try: self.ipcon.connect(ServerRoomMonitoring.HOST, ServerRoomMonitoring.PORT) break except Error as e: log.error('Connection Error: ' + str(e.description)) time.sleep(1) except socket.error as e: log.error('Socket error: ' + str(e)) time.sleep(1) self.ipcon.register_callback(IPConnection.CALLBACK_ENUMERATE, self.cb_enumerate) self.ipcon.register_callback(IPConnection.CALLBACK_CONNECTED, self.cb_connected) while True: try: self.ipcon.enumerate() break except Error as e: log.error('Enumerate Error: ' + str(e.description)) time.sleep(1) def cb_illuminance(self, illuminance): self.xively.put('AmbientLight', illuminance/10.0) log.info('Ambient Light ' + str(illuminance/10.0)) def cb_illuminance_v2(self, illuminance): self.xively.put('AmbientLight', illuminance/100.0) log.info('Ambient Light ' + str(illuminance/100.0)) def cb_temperature(self, temperature): self.xively.put('Temperature', temperature/100.0) log.info('Temperature ' + str(temperature/100.0)) def cb_enumerate(self, uid, connected_uid, position, hardware_version, firmware_version, device_identifier, enumeration_type): if enumeration_type == IPConnection.ENUMERATION_TYPE_CONNECTED or \ enumeration_type == IPConnection.ENUMERATION_TYPE_AVAILABLE: if device_identifier == AmbientLight.DEVICE_IDENTIFIER: try: self.al = AmbientLight(uid, self.ipcon) self.al.set_illuminance_callback_period(1000) self.al.register_callback(self.al.CALLBACK_ILLUMINANCE, self.cb_illuminance) log.info('Ambient Light initialized') except Error as e: log.error('Ambient Light init failed: ' + str(e.description)) self.al = None elif device_identifier == AmbientLightV2.DEVICE_IDENTIFIER: try: self.al_v2 = AmbientLightV2(uid, self.ipcon) self.al_v2.set_illuminance_callback_period(1000) self.al_v2.register_callback(self.al_v2.CALLBACK_ILLUMINANCE, self.cb_illuminance_v2) log.info('Ambient Light 2.0 initialized') except Error as e: log.error('Ambient Light 2.0 init failed: ' + str(e.description)) self.al_v2 = None elif device_identifier == Temperature.DEVICE_IDENTIFIER: try: self.temp = Temperature(uid, self.ipcon) self.temp.set_temperature_callback_period(1000) self.temp.register_callback(self.temp.CALLBACK_TEMPERATURE, self.cb_temperature) log.info('Temperature initialized') except Error as e: log.error('Temperature init failed: ' + str(e.description)) self.temp = None def cb_connected(self, connected_reason): if connected_reason == IPConnection.CONNECT_REASON_AUTO_RECONNECT: log.info('Auto Reconnect') while True: try: self.ipcon.enumerate() break except Error as e: log.error('Enumerate Error: ' + str(e.description)) time.sleep(1)