public static void updateSensorLocation(String sensor_location) { Sensor sensor = currentSensor(); if (sensor == null) { Log.e("SENSOR MODEL:", "updateSensorLocation called but sensor is null"); return; } sensor.sensor_location = sensor_location; sensor.save(); } }
public static void updateSensorLocation(String sensor_location) { Sensor sensor = currentSensor(); if (sensor == null) { Log.e("SENSOR MODEL:", "updateSensorLocation called but sensor is null"); return; } sensor.sensor_location = sensor_location; sensor.save(); }
public static void stopSensor() { Sensor sensor = currentSensor(); if(sensor == null) { return; } sensor.stopped_at = new Date().getTime(); Log.i("SENSOR", "Sensor stopped at " + sensor.stopped_at); sensor.save(); SensorSendQueue.addToQueue(sensor); }
public static void updateSensorLocation(String sensor_location) { Sensor sensor = currentSensor(); if (sensor == null) { Log.e("SENSOR MODEL:", "updateSensorLocation called but sensor is null"); return; } sensor.sensor_location = sensor_location; sensor.save(); }
public static Sensor create(long started_at) { Sensor sensor = new Sensor(); sensor.started_at = started_at; sensor.uuid = UUID.randomUUID().toString(); sensor.save(); SensorSendQueue.addToQueue(sensor); Log.d("SENSOR MODEL:", sensor.toString()); return sensor; }
public static Sensor create(long started_at) { Sensor sensor = new Sensor(); sensor.started_at = started_at; sensor.uuid = UUID.randomUUID().toString(); sensor.save(); SensorSendQueue.addToQueue(sensor); Log.d("SENSOR MODEL:", sensor.toString()); return sensor; }
public static Sensor create(long started_at) { Sensor sensor = new Sensor(); sensor.started_at = started_at; sensor.uuid = UUID.randomUUID().toString(); sensor.save(); SensorSendQueue.addToQueue(sensor); Log.d("SENSOR MODEL:", sensor.toString()); return sensor; }
private Sensor createMockSensor() { Sensor mockSensor = new Sensor(); mockSensor.started_at = System.currentTimeMillis() - (1000 * 60 * 20); mockSensor.uuid = UUID.randomUUID().toString(); mockSensor.save(); return mockSensor; }
private Sensor createMockSensor() { Sensor mockSensor = new Sensor(); mockSensor.started_at = System.currentTimeMillis() - (1000 * 60 * 20); mockSensor.uuid = UUID.randomUUID().toString(); mockSensor.save(); return mockSensor; }
public static Sensor create(long started_at, String uuid) {//KS Sensor sensor = new Sensor(); sensor.started_at = started_at; sensor.uuid = uuid; sensor.save(); SensorSendQueue.addToQueue(sensor); Log.d("SENSOR MODEL:", sensor.toString()); return sensor; }
public static Sensor create(long started_at, String uuid) {//KS Sensor sensor = new Sensor(); sensor.started_at = started_at; sensor.uuid = uuid; sensor.save(); SensorSendQueue.addToQueue(sensor); Log.d("SENSOR MODEL:", sensor.toString()); return sensor; }
private void setSerialDataToTransmitterRawData(int raw_data, int filtered_data, int sensor_battery_leve, Long CaptureTime) { final TransmitterData transmitterData = TransmitterData.create(raw_data, filtered_data, sensor_battery_leve, CaptureTime); if (transmitterData != null) { final Sensor sensor = Sensor.currentSensor(); if (sensor != null) { BgReading bgReading = BgReading.create(transmitterData.raw_data, filtered_data, null, CaptureTime); //sensor.latest_battery_level = (sensor.latest_battery_level!=0)?Math.min(sensor.latest_battery_level, transmitterData.sensor_battery_level):transmitterData.sensor_battery_level; sensor.latest_battery_level = transmitterData.sensor_battery_level; // don't lock it only going downwards sensor.save(); } else { Log.d(TAG, "No Active Sensor, Data only stored in Transmitter Data"); } } }
public static void createUpdate(long started_at, long stopped_at, int latest_battery_level, String uuid) { Sensor sensor = getByTimestamp(started_at); if (sensor != null) { Log.d("SENSOR", "updating an existing sensor"); } else { Log.d("SENSOR", "creating a new sensor"); sensor = new Sensor(); } sensor.started_at = started_at; sensor.stopped_at = stopped_at; sensor.latest_battery_level = latest_battery_level; sensor.uuid = uuid; sensor.save(); }
public static void createUpdate(long started_at, long stopped_at, int latest_battery_level, String uuid) { Sensor sensor = getByTimestamp(started_at); if (sensor != null) { Log.d("SENSOR", "updatinga an existing sensor"); } else { Log.d("SENSOR", "creating a new sensor"); sensor = new Sensor(); } sensor.started_at = started_at; sensor.stopped_at = stopped_at; sensor.latest_battery_level = latest_battery_level; sensor.uuid = uuid; sensor.save(); }
public static void createUpdate(long started_at, long stopped_at, int latest_battery_level, String sensor_location, String uuid) {//KS Sensor sensor = currentSensor(); if (sensor != null) { Log.d("SENSOR", "updating an existing sensor"); } else { Log.d("SENSOR", "creating a new sensor"); sensor = new Sensor(); } sensor.started_at = started_at; sensor.stopped_at = stopped_at; sensor.latest_battery_level = latest_battery_level; sensor.sensor_location = sensor_location; sensor.uuid = uuid; sensor.save(); }
public static void createUpdate(long started_at, long stopped_at, int latest_battery_level, String uuid) { Sensor sensor = getByTimestamp(started_at); if (sensor != null) { Log.d("SENSOR", "updatinga an existing sensor"); } else { Log.d("SENSOR", "creating a new sensor"); sensor = new Sensor(); } sensor.started_at = started_at; sensor.stopped_at = stopped_at; sensor.latest_battery_level = latest_battery_level; sensor.uuid = uuid; sensor.save(); }
private void setSerialDataToTransmitterRawData(int raw_data, int filtered_data, int sensor_battery_leve, Long CaptureTime) { final TransmitterData transmitterData = TransmitterData.create(raw_data, filtered_data, sensor_battery_leve, CaptureTime); if (transmitterData != null) { final Sensor sensor = Sensor.currentSensor(); if (sensor != null) { BgReading bgReading = BgReading.create(transmitterData.raw_data, filtered_data, null, CaptureTime); //sensor.latest_battery_level = (sensor.latest_battery_level!=0)?Math.min(sensor.latest_battery_level, transmitterData.sensor_battery_level):transmitterData.sensor_battery_level; sensor.latest_battery_level = transmitterData.sensor_battery_level; // don't lock it only going downwards sensor.save(); } else { Log.d(TAG, "No Active Sensor, Data only stored in Transmitter Data"); } } }
public static Sensor create(long started_at, String uuid) {//KS try { Sensor sensor = new Sensor(); sensor.started_at = started_at; sensor.uuid = uuid; sensor.save(); SensorSendQueue.addToQueue(sensor); Log.d("SENSOR MODEL:", sensor.toString()); return sensor; } catch (Exception e) { Log.d("SENSOR create new error ", uuid); return null; } }
public synchronized static void stopSensor() { final Sensor sensor = currentSensor(); if (sensor == null) { return; } sensor.stopped_at = JoH.tsl(); UserError.Log.ueh("SENSOR", "Sensor stopped at " + JoH.dateTimeText(sensor.stopped_at)); sensor.save(); if (currentSensor() != null) { UserError.Log.wtf(TAG, "Failed to update sensor stop in database"); } SensorSendQueue.addToQueue(sensor); JoH.clearCache(); }
public synchronized static void stopSensor() { final Sensor sensor = currentSensor(); if (sensor == null) { return; } sensor.stopped_at = JoH.tsl(); UserError.Log.ueh("SENSOR", "Sensor stopped at " + JoH.dateTimeText(sensor.stopped_at)); sensor.save(); if (currentSensor() != null) { UserError.Log.wtf(TAG, "Failed to update sensor stop in database"); } SensorSendQueue.addToQueue(sensor); JoH.clearCache(); }