public void invalidate() { this.slope_confidence = 0; this.sensor_confidence = 0; this.slope = 0; this.intercept = 0; save(); //KS PluggableCalibration.invalidateAllCaches(); }
public void invalidate() { this.slope_confidence = 0; this.sensor_confidence = 0; this.slope = 0; this.intercept = 0; save(); PluggableCalibration.invalidateAllCaches(); }
public void invalidate() { this.slope_confidence = 0; this.sensor_confidence = 0; this.slope = 0; this.intercept = 0; save(); PluggableCalibration.invalidateAllCaches(); }
public void onClick(View v) { if(futureReadings != null && futureReadings.size() > 0) { for (BgReading bgReading : futureReadings) { bgReading.calculated_value = 0; bgReading.raw_data = 0; bgReading.timestamp = 0; bgReading.save(); } } if(futureCalibrations != null && futureCalibrations.size() > 0) { for (Calibration calibration : futureCalibrations) { calibration.slope_confidence = 0; calibration.sensor_confidence = 0; calibration.timestamp = 0; calibration.save(); } } } });
public void onClick(View v) { if (futureReadings != null && futureReadings.size() > 0) { for (BgReading bgReading : futureReadings) { bgReading.calculated_value = 0; bgReading.raw_data = 0; bgReading.timestamp = 0; bgReading.save(); } } if (futureCalibrations != null && futureCalibrations.size() > 0) { for (Calibration calibration : futureCalibrations) { calibration.slope_confidence = 0; calibration.sensor_confidence = 0; calibration.timestamp = 0; calibration.save(); } } } });
public void onClick(View v) { if (futureReadings != null && futureReadings.size() > 0) { for (BgReading bgReading : futureReadings) { bgReading.calculated_value = 0; bgReading.raw_data = 0; bgReading.timestamp = 0; bgReading.save(); } } if (futureCalibrations != null && futureCalibrations.size() > 0) { for (Calibration calibration : futureCalibrations) { calibration.slope_confidence = 0; calibration.sensor_confidence = 0; calibration.timestamp = 0; calibration.save(); } } } });
public void onClick(View v) { if(futureReadings != null && futureReadings.size() > 0) { for (BgReading bgReading : futureReadings) { bgReading.calculated_value = 0; bgReading.raw_data = 0; bgReading.timestamp = 0; bgReading.save(); } } if(futureCalibrations != null && futureCalibrations.size() > 0) { for (Calibration calibration : futureCalibrations) { calibration.slope_confidence = 0; calibration.sensor_confidence = 0; calibration.timestamp = 0; calibration.save(); } } } });
public void rawValueOverride(double rawValue, Context context) { estimate_raw_at_time_of_calibration = rawValue; save(); calculate_w_l_s(); CalibrationSendQueue.addToQueue(this, context); }
public void rawValueOverride(double rawValue, Context context) { estimate_raw_at_time_of_calibration = rawValue; save(); calculate_w_l_s(); CalibrationSendQueue.addToQueue(this, context); }
public void rawValueOverride(double rawValue, Context context) { estimate_raw_at_time_of_calibration = rawValue; save(); calculate_w_l_s(); CalibrationSendQueue.addToQueue(this, context); }
public static void clear_all_existing_calibrations() { CalibrationRequest.clearAll(); List<Calibration> pastCalibrations = Calibration.allForSensor(); if (pastCalibrations != null) { for (Calibration calibration : pastCalibrations) { calibration.slope_confidence = 0; calibration.sensor_confidence = 0; calibration.save(); //KS newFingerStickData(); } } }
public static void clear_all_existing_calibrations() { CalibrationRequest.clearAll(); List<Calibration> pastCalibrations = Calibration.allForSensor(); if (pastCalibrations != null) { for (Calibration calibration : pastCalibrations) { calibration.slope_confidence = 0; calibration.sensor_confidence = 0; calibration.save(); newFingerStickData(); } } }
public static void clear_all_existing_calibrations() { CalibrationRequest.clearAll(); List<Calibration> pastCalibrations = Calibration.allForSensor(); if (pastCalibrations != null) { for (Calibration calibration : pastCalibrations) { calibration.slope_confidence = 0; calibration.sensor_confidence = 0; calibration.save(); newFingerStickData(); } } }
Log.d(TAG, "saving new calibration record. sensor uuid =" + jsonCalibration.sensor_uuid + " calibration uuid = " + jsonCalibration.uuid); jsonCalibration.sensor = sensor; jsonCalibration.save(); } else { Log.d(TAG, "updating existing calibration record: " + jsonCalibration.uuid); existingCalibration.second_scale = jsonCalibration.second_scale; existingCalibration.save();
Log.d(TAG, "saving new calibration record. sensor uuid =" + jsonCalibration.sensor_uuid + " calibration uuid = " + jsonCalibration.uuid); jsonCalibration.sensor = sensor; jsonCalibration.save(); } else { Log.d(TAG, "updating existing calibration record: " + jsonCalibration.uuid); existingCalibration.second_scale = jsonCalibration.second_scale; existingCalibration.save();
Log.d(TAG, "saving new calibration record. sensor uuid =" + jsonCalibration.sensor_uuid + " calibration uuid = " + jsonCalibration.uuid); jsonCalibration.sensor = sensor; jsonCalibration.save(); } else { Log.d(TAG, "updating existing calibration record: " + jsonCalibration.uuid); existingCalibration.second_scale = jsonCalibration.second_scale; existingCalibration.save();
last_calibration.sensor_confidence = 0; last_calibration.slope_confidence = 0; last_calibration.save(); CalibrationSendQueue.addToQueue(last_calibration, getApplicationContext());
last_calibration.sensor_confidence = 0; last_calibration.slope_confidence = 0; last_calibration.save(); CalibrationSendQueue.addToQueue(last_calibration, getApplicationContext());
calibration.second_intercept = secondCalRecord.getIntercept(); calibration.save(); CalibrationSendQueue.addToQueue(calibration, context); Calibration.requestCalibrationIfRangeTooNarrow();
calibration.second_intercept = secondCalRecord.getIntercept(); calibration.save(); CalibrationSendQueue.addToQueue(calibration, context); Calibration.requestCalibrationIfRangeTooNarrow();