Java Code Examples for com.eveningoutpost.dexdrip.ImportedLibraries.dexcom.records.CalSubrecord#getCalBGL()

The following examples show how to use com.eveningoutpost.dexdrip.ImportedLibraries.dexcom.records.CalSubrecord#getCalBGL() . You can vote up the ones you like or vote down the ones you don't like, and go to the original project or source file by following the links above each example. You may check out the related API usage on the sidebar.
Example 1
Source File: Calibration.java    From xDrip with GNU General Public License v3.0 4 votes vote down vote up
public static void create(CalRecord[] calRecords, Context context, boolean override, long addativeOffset) {
        //TODO: Change calibration.last and other queries to order calibrations by timestamp rather than ID
        Log.i("CALIBRATION-CHECK-IN: ", "Creating Calibration Record");
        Sensor sensor = Sensor.currentSensor();
        CalRecord firstCalRecord = calRecords[0];
        CalRecord secondCalRecord = calRecords[0];
//        CalRecord secondCalRecord = calRecords[calRecords.length - 1];
        //TODO: Figgure out how the ratio between the two is determined
        double calSlope = ((secondCalRecord.getScale() / secondCalRecord.getSlope()) + (3 * firstCalRecord.getScale() / firstCalRecord.getSlope())) * 250;

        double calIntercept = (((secondCalRecord.getScale() * secondCalRecord.getIntercept()) / secondCalRecord.getSlope()) + ((3 * firstCalRecord.getScale() * firstCalRecord.getIntercept()) / firstCalRecord.getSlope())) / -4;
        if (sensor != null) {
            for (int i = 0; i < firstCalRecord.getCalSubrecords().length - 1; i++) {
                if (((firstCalRecord.getCalSubrecords()[i] != null && Calibration.is_new(firstCalRecord.getCalSubrecords()[i], addativeOffset))) || (i == 0 && override)) {
                    CalSubrecord calSubrecord = firstCalRecord.getCalSubrecords()[i];

                    Calibration calibration = new Calibration();
                    calibration.bg = calSubrecord.getCalBGL();
                    calibration.timestamp = calSubrecord.getDateEntered().getTime() + addativeOffset;
                    calibration.raw_timestamp = calibration.timestamp;
                    if (calibration.timestamp > new Date().getTime()) {
                        Log.d(TAG, "ERROR - Calibration timestamp is from the future, wont save!");
                        return;
                    }
                    calibration.raw_value = calSubrecord.getCalRaw() / 1000;
                    calibration.slope = calSlope;
                    calibration.intercept = calIntercept;

                    calibration.sensor_confidence = ((-0.0018 * calibration.bg * calibration.bg) + (0.6657 * calibration.bg) + 36.7505) / 100;
                    if (calibration.sensor_confidence <= 0) {
                        calibration.sensor_confidence = 0;
                    }
                    calibration.slope_confidence = 0.8; //TODO: query backwards to find this value near the timestamp
                    calibration.estimate_raw_at_time_of_calibration = calSubrecord.getCalRaw() / 1000;
                    calibration.sensor = sensor;
                    calibration.sensor_age_at_time_of_estimation = calibration.timestamp - sensor.started_at;
                    calibration.uuid = UUID.randomUUID().toString();
                    calibration.sensor_uuid = sensor.uuid;
                    calibration.check_in = true;

                    calibration.first_decay = firstCalRecord.getDecay();
                    calibration.second_decay = secondCalRecord.getDecay();
                    calibration.first_slope = firstCalRecord.getSlope();
                    calibration.second_slope = secondCalRecord.getSlope();
                    calibration.first_scale = firstCalRecord.getScale();
                    calibration.second_scale = secondCalRecord.getScale();
                    calibration.first_intercept = firstCalRecord.getIntercept();
                    calibration.second_intercept = secondCalRecord.getIntercept();

                    calibration.save();
                    CalibrationSendQueue.addToQueue(calibration, context);
                    Calibration.requestCalibrationIfRangeTooNarrow();
                    //KS newFingerStickData();
                }
            }
            if (firstCalRecord.getCalSubrecords()[0] != null && firstCalRecord.getCalSubrecords()[2] == null) {
                if (Calibration.latest(2).size() == 1) {
                    Calibration.create(calRecords, context, true, 0);
                }
            }
            context.startService(new Intent(context, Notifications.class));
        }
    }
 
Example 2
Source File: Calibration.java    From xDrip with GNU General Public License v3.0 4 votes vote down vote up
public static void create(CalRecord[] calRecords, Context context, boolean override, long addativeOffset) {
        //TODO: Change calibration.last and other queries to order calibrations by timestamp rather than ID
        Log.i("CALIBRATION-CHECK-IN: ", "Creating Calibration Record");
        Sensor sensor = Sensor.currentSensor();
        CalRecord firstCalRecord = calRecords[0];
        CalRecord secondCalRecord = calRecords[0];
//        CalRecord secondCalRecord = calRecords[calRecords.length - 1];
        //TODO: Figgure out how the ratio between the two is determined
        double calSlope = ((secondCalRecord.getScale() / secondCalRecord.getSlope()) + (3 * firstCalRecord.getScale() / firstCalRecord.getSlope())) * 250;

        double calIntercept = (((secondCalRecord.getScale() * secondCalRecord.getIntercept()) / secondCalRecord.getSlope()) + ((3 * firstCalRecord.getScale() * firstCalRecord.getIntercept()) / firstCalRecord.getSlope())) / -4;
        if (sensor != null) {
            for (int i = 0; i < firstCalRecord.getCalSubrecords().length - 1; i++) {
                if (((firstCalRecord.getCalSubrecords()[i] != null && Calibration.is_new(firstCalRecord.getCalSubrecords()[i], addativeOffset))) || (i == 0 && override)) {
                    CalSubrecord calSubrecord = firstCalRecord.getCalSubrecords()[i];

                    Calibration calibration = new Calibration();
                    calibration.bg = calSubrecord.getCalBGL();
                    calibration.timestamp = calSubrecord.getDateEntered().getTime() + addativeOffset;
                    calibration.raw_timestamp = calibration.timestamp;
                    if (calibration.timestamp > new Date().getTime()) {
                        Log.d(TAG, "ERROR - Calibration timestamp is from the future, wont save!");
                        return;
                    }
                    calibration.raw_value = calSubrecord.getCalRaw() / 1000;
                    calibration.slope = calSlope;
                    calibration.intercept = calIntercept;

                    calibration.sensor_confidence = ((-0.0018 * calibration.bg * calibration.bg) + (0.6657 * calibration.bg) + 36.7505) / 100;
                    if (calibration.sensor_confidence <= 0) {
                        calibration.sensor_confidence = 0;
                    }
                    calibration.slope_confidence = 0.8; //TODO: query backwards to find this value near the timestamp
                    calibration.estimate_raw_at_time_of_calibration = calSubrecord.getCalRaw() / 1000;
                    calibration.sensor = sensor;
                    calibration.sensor_age_at_time_of_estimation = calibration.timestamp - sensor.started_at;
                    calibration.uuid = UUID.randomUUID().toString();
                    calibration.sensor_uuid = sensor.uuid;
                    calibration.check_in = true;

                    calibration.first_decay = firstCalRecord.getDecay();
                    calibration.second_decay = secondCalRecord.getDecay();
                    calibration.first_slope = firstCalRecord.getSlope();
                    calibration.second_slope = secondCalRecord.getSlope();
                    calibration.first_scale = firstCalRecord.getScale();
                    calibration.second_scale = secondCalRecord.getScale();
                    calibration.first_intercept = firstCalRecord.getIntercept();
                    calibration.second_intercept = secondCalRecord.getIntercept();

                    calibration.save();
                    CalibrationSendQueue.addToQueue(calibration, context);
                    Calibration.requestCalibrationIfRangeTooNarrow();
                    newFingerStickData();
                }
            }
            if (firstCalRecord.getCalSubrecords()[0] != null && firstCalRecord.getCalSubrecords()[2] == null) {
                if (Calibration.latest(2).size() == 1) {
                    Calibration.create(calRecords, context, true, 0);
                }
            }
            Notifications.start();
        }
    }
 
Example 3
Source File: Calibration.java    From xDrip-plus with GNU General Public License v3.0 4 votes vote down vote up
public static void create(CalRecord[] calRecords, Context context, boolean override, long addativeOffset) {
        //TODO: Change calibration.last and other queries to order calibrations by timestamp rather than ID
        Log.i("CALIBRATION-CHECK-IN: ", "Creating Calibration Record");
        Sensor sensor = Sensor.currentSensor();
        CalRecord firstCalRecord = calRecords[0];
        CalRecord secondCalRecord = calRecords[0];
//        CalRecord secondCalRecord = calRecords[calRecords.length - 1];
        //TODO: Figgure out how the ratio between the two is determined
        double calSlope = ((secondCalRecord.getScale() / secondCalRecord.getSlope()) + (3 * firstCalRecord.getScale() / firstCalRecord.getSlope())) * 250;

        double calIntercept = (((secondCalRecord.getScale() * secondCalRecord.getIntercept()) / secondCalRecord.getSlope()) + ((3 * firstCalRecord.getScale() * firstCalRecord.getIntercept()) / firstCalRecord.getSlope())) / -4;
        if (sensor != null) {
            for (int i = 0; i < firstCalRecord.getCalSubrecords().length - 1; i++) {
                if (((firstCalRecord.getCalSubrecords()[i] != null && Calibration.is_new(firstCalRecord.getCalSubrecords()[i], addativeOffset))) || (i == 0 && override)) {
                    CalSubrecord calSubrecord = firstCalRecord.getCalSubrecords()[i];

                    Calibration calibration = new Calibration();
                    calibration.bg = calSubrecord.getCalBGL();
                    calibration.timestamp = calSubrecord.getDateEntered().getTime() + addativeOffset;
                    calibration.raw_timestamp = calibration.timestamp;
                    if (calibration.timestamp > new Date().getTime()) {
                        Log.d(TAG, "ERROR - Calibration timestamp is from the future, wont save!");
                        return;
                    }
                    calibration.raw_value = calSubrecord.getCalRaw() / 1000;
                    calibration.slope = calSlope;
                    calibration.intercept = calIntercept;

                    calibration.sensor_confidence = ((-0.0018 * calibration.bg * calibration.bg) + (0.6657 * calibration.bg) + 36.7505) / 100;
                    if (calibration.sensor_confidence <= 0) {
                        calibration.sensor_confidence = 0;
                    }
                    calibration.slope_confidence = 0.8; //TODO: query backwards to find this value near the timestamp
                    calibration.estimate_raw_at_time_of_calibration = calSubrecord.getCalRaw() / 1000;
                    calibration.sensor = sensor;
                    calibration.sensor_age_at_time_of_estimation = calibration.timestamp - sensor.started_at;
                    calibration.uuid = UUID.randomUUID().toString();
                    calibration.sensor_uuid = sensor.uuid;
                    calibration.check_in = true;

                    calibration.first_decay = firstCalRecord.getDecay();
                    calibration.second_decay = secondCalRecord.getDecay();
                    calibration.first_slope = firstCalRecord.getSlope();
                    calibration.second_slope = secondCalRecord.getSlope();
                    calibration.first_scale = firstCalRecord.getScale();
                    calibration.second_scale = secondCalRecord.getScale();
                    calibration.first_intercept = firstCalRecord.getIntercept();
                    calibration.second_intercept = secondCalRecord.getIntercept();

                    calibration.save();
                    CalibrationSendQueue.addToQueue(calibration, context);
                    Calibration.requestCalibrationIfRangeTooNarrow();
                    //KS newFingerStickData();
                }
            }
            if (firstCalRecord.getCalSubrecords()[0] != null && firstCalRecord.getCalSubrecords()[2] == null) {
                if (Calibration.latest(2).size() == 1) {
                    Calibration.create(calRecords, context, true, 0);
                }
            }
            context.startService(new Intent(context, Notifications.class));
        }
    }
 
Example 4
Source File: Calibration.java    From xDrip-plus with GNU General Public License v3.0 4 votes vote down vote up
public static void create(CalRecord[] calRecords, Context context, boolean override, long addativeOffset) {
        //TODO: Change calibration.last and other queries to order calibrations by timestamp rather than ID
        Log.i("CALIBRATION-CHECK-IN: ", "Creating Calibration Record");
        Sensor sensor = Sensor.currentSensor();
        CalRecord firstCalRecord = calRecords[0];
        CalRecord secondCalRecord = calRecords[0];
//        CalRecord secondCalRecord = calRecords[calRecords.length - 1];
        //TODO: Figgure out how the ratio between the two is determined
        double calSlope = ((secondCalRecord.getScale() / secondCalRecord.getSlope()) + (3 * firstCalRecord.getScale() / firstCalRecord.getSlope())) * 250;

        double calIntercept = (((secondCalRecord.getScale() * secondCalRecord.getIntercept()) / secondCalRecord.getSlope()) + ((3 * firstCalRecord.getScale() * firstCalRecord.getIntercept()) / firstCalRecord.getSlope())) / -4;
        if (sensor != null) {
            for (int i = 0; i < firstCalRecord.getCalSubrecords().length - 1; i++) {
                if (((firstCalRecord.getCalSubrecords()[i] != null && Calibration.is_new(firstCalRecord.getCalSubrecords()[i], addativeOffset))) || (i == 0 && override)) {
                    CalSubrecord calSubrecord = firstCalRecord.getCalSubrecords()[i];

                    Calibration calibration = new Calibration();
                    calibration.bg = calSubrecord.getCalBGL();
                    calibration.timestamp = calSubrecord.getDateEntered().getTime() + addativeOffset;
                    calibration.raw_timestamp = calibration.timestamp;
                    if (calibration.timestamp > new Date().getTime()) {
                        Log.d(TAG, "ERROR - Calibration timestamp is from the future, wont save!");
                        return;
                    }
                    calibration.raw_value = calSubrecord.getCalRaw() / 1000;
                    calibration.slope = calSlope;
                    calibration.intercept = calIntercept;

                    calibration.sensor_confidence = ((-0.0018 * calibration.bg * calibration.bg) + (0.6657 * calibration.bg) + 36.7505) / 100;
                    if (calibration.sensor_confidence <= 0) {
                        calibration.sensor_confidence = 0;
                    }
                    calibration.slope_confidence = 0.8; //TODO: query backwards to find this value near the timestamp
                    calibration.estimate_raw_at_time_of_calibration = calSubrecord.getCalRaw() / 1000;
                    calibration.sensor = sensor;
                    calibration.sensor_age_at_time_of_estimation = calibration.timestamp - sensor.started_at;
                    calibration.uuid = UUID.randomUUID().toString();
                    calibration.sensor_uuid = sensor.uuid;
                    calibration.check_in = true;

                    calibration.first_decay = firstCalRecord.getDecay();
                    calibration.second_decay = secondCalRecord.getDecay();
                    calibration.first_slope = firstCalRecord.getSlope();
                    calibration.second_slope = secondCalRecord.getSlope();
                    calibration.first_scale = firstCalRecord.getScale();
                    calibration.second_scale = secondCalRecord.getScale();
                    calibration.first_intercept = firstCalRecord.getIntercept();
                    calibration.second_intercept = secondCalRecord.getIntercept();

                    calibration.save();
                    CalibrationSendQueue.addToQueue(calibration, context);
                    Calibration.requestCalibrationIfRangeTooNarrow();
                    newFingerStickData();
                }
            }
            if (firstCalRecord.getCalSubrecords()[0] != null && firstCalRecord.getCalSubrecords()[2] == null) {
                if (Calibration.latest(2).size() == 1) {
                    Calibration.create(calRecords, context, true, 0);
                }
            }
            Notifications.start();
        }
    }
 
Example 5
Source File: Calibration.java    From xDrip-Experimental with GNU General Public License v3.0 4 votes vote down vote up
public static void create(CalRecord[] calRecords, Context context, boolean override, long addativeOffset) {
        //TODO: Change calibration.last and other queries to order calibrations by timestamp rather than ID
        Log.i("CALIBRATION-CHECK-IN: ", "Creating Calibration Record");
        Sensor sensor = Sensor.currentSensor();
        CalRecord firstCalRecord = calRecords[0];
        CalRecord secondCalRecord = calRecords[0];
//        CalRecord secondCalRecord = calRecords[calRecords.length - 1];
        //TODO: Figgure out how the ratio between the two is determined
        double calSlope = ((secondCalRecord.getScale() / secondCalRecord.getSlope()) + (3 * firstCalRecord.getScale() / firstCalRecord.getSlope())) * 250;

        double calIntercept = (((secondCalRecord.getScale() * secondCalRecord.getIntercept()) / secondCalRecord.getSlope()) + ((3 * firstCalRecord.getScale() * firstCalRecord.getIntercept()) / firstCalRecord.getSlope())) / -4;
        if (sensor != null) {
            for(int i = 0; i < firstCalRecord.getCalSubrecords().length - 1; i++) {
                if (((firstCalRecord.getCalSubrecords()[i] != null && Calibration.is_new(firstCalRecord.getCalSubrecords()[i], addativeOffset))) || (i == 0 && override)) {
                    CalSubrecord calSubrecord = firstCalRecord.getCalSubrecords()[i];

                    Calibration calibration = new Calibration();
                    calibration.bg = calSubrecord.getCalBGL();
                    calibration.timestamp = calSubrecord.getDateEntered().getTime() + addativeOffset;
                    calibration.raw_timestamp = calibration.timestamp;
                    if (calibration.timestamp > new Date().getTime()) {
                        Log.d(TAG, "ERROR - Calibration timestamp is from the future, wont save!");
                        return;
                    }
                    calibration.raw_value = calSubrecord.getCalRaw() / 1000;
                    calibration.slope = calSlope;
                    calibration.intercept = calIntercept;

                    calibration.sensor_confidence = ((-0.0018 * calibration.bg * calibration.bg) + (0.6657 * calibration.bg) + 36.7505) / 100;
                    if (calibration.sensor_confidence <= 0) {
                        calibration.sensor_confidence = 0;
                    }
                    calibration.slope_confidence = 0.8; //TODO: query backwards to find this value near the timestamp
                    calibration.estimate_raw_at_time_of_calibration = calSubrecord.getCalRaw() / 1000;
                    calibration.sensor = sensor;
                    calibration.sensor_age_at_time_of_estimation = calibration.timestamp - sensor.started_at;
                    calibration.uuid = UUID.randomUUID().toString();
                    calibration.sensor_uuid = sensor.uuid;
                    calibration.check_in = true;

                    calibration.first_decay = firstCalRecord.getDecay();
                    calibration.second_decay = secondCalRecord.getDecay();
                    calibration.first_slope = firstCalRecord.getSlope();
                    calibration.second_slope = secondCalRecord.getSlope();
                    calibration.first_scale = firstCalRecord.getScale();
                    calibration.second_scale = secondCalRecord.getScale();
                    calibration.first_intercept = firstCalRecord.getIntercept();
                    calibration.second_intercept = secondCalRecord.getIntercept();

                    calibration.save();
                    CalibrationSendQueue.addToQueue(calibration, context);
                    Calibration.requestCalibrationIfRangeTooNarrow();
                }
            }
            if(firstCalRecord.getCalSubrecords()[0] != null && firstCalRecord.getCalSubrecords()[2] == null) {
                if(Calibration.latest(2).size() == 1) {
                    Calibration.create(calRecords, context, true, 0);
                }
            }
            context.startService(new Intent(context, Notifications.class));
        }
    }
 
Example 6
Source File: Calibration.java    From xDrip with GNU General Public License v3.0 4 votes vote down vote up
public static void create(CalRecord[] calRecords, Context context, boolean override, long addativeOffset) {
        //TODO: Change calibration.last and other queries to order calibrations by timestamp rather than ID
        Log.w("CALIBRATION-CHECK-IN: ", "Creating Calibration Record");
        Sensor sensor = Sensor.currentSensor();
        CalRecord firstCalRecord = calRecords[0];
        CalRecord secondCalRecord = calRecords[0];
//        CalRecord secondCalRecord = calRecords[calRecords.length - 1];
        //TODO: Figgure out how the ratio between the two is determined
        double calSlope = ((secondCalRecord.getScale() / secondCalRecord.getSlope()) + (3 * firstCalRecord.getScale() / firstCalRecord.getSlope())) * 250;

        double calIntercept = (((secondCalRecord.getScale() * secondCalRecord.getIntercept()) / secondCalRecord.getSlope()) + ((3 * firstCalRecord.getScale() * firstCalRecord.getIntercept()) / firstCalRecord.getSlope())) / -4;
        if (sensor != null) {
            for(int i = 0; i < firstCalRecord.getCalSubrecords().length - 1; i++) {
                if (((firstCalRecord.getCalSubrecords()[i] != null && Calibration.is_new(firstCalRecord.getCalSubrecords()[i], addativeOffset))) || (i == 0 && override)) {
                    CalSubrecord calSubrecord = firstCalRecord.getCalSubrecords()[i];

                    Calibration calibration = new Calibration();
                    calibration.bg = calSubrecord.getCalBGL();
                    calibration.timestamp = calSubrecord.getDateEntered().getTime() + addativeOffset;
                    if (calibration.timestamp > new Date().getTime()) {
                        Log.e(TAG, "ERROR - Calibration timestamp is from the future, wont save!");
                        return;
                    }
                    calibration.raw_value = calSubrecord.getCalRaw() / 1000;
                    calibration.slope = calSlope;
                    calibration.intercept = calIntercept;

                    calibration.sensor_confidence = ((-0.0018 * calibration.bg * calibration.bg) + (0.6657 * calibration.bg) + 36.7505) / 100;
                    if (calibration.sensor_confidence <= 0) {
                        calibration.sensor_confidence = 0;
                    }
                    calibration.slope_confidence = 0.8; //TODO: query backwards to find this value near the timestamp
                    calibration.estimate_raw_at_time_of_calibration = calSubrecord.getCalRaw() / 1000;
                    calibration.sensor = sensor;
                    calibration.sensor_age_at_time_of_estimation = calibration.timestamp - sensor.started_at;
                    calibration.uuid = UUID.randomUUID().toString();
                    calibration.sensor_uuid = sensor.uuid;
                    calibration.check_in = true;

                    calibration.first_decay = firstCalRecord.getDecay();
                    calibration.second_decay = secondCalRecord.getDecay();
                    calibration.first_slope = firstCalRecord.getSlope();
                    calibration.second_slope = secondCalRecord.getSlope();
                    calibration.first_scale = firstCalRecord.getScale();
                    calibration.second_scale = secondCalRecord.getScale();
                    calibration.first_intercept = firstCalRecord.getIntercept();
                    calibration.second_intercept = secondCalRecord.getIntercept();

                    calibration.save();
                    CalibrationSendQueue.addToQueue(calibration, context);
                    Calibration.requestCalibrationIfRangeTooNarrow();
                }
            }
            if(firstCalRecord.getCalSubrecords()[0] != null && firstCalRecord.getCalSubrecords()[2] == null) {
                if(Calibration.latest(2).size() == 1) {
                    Calibration.create(calRecords, context, true, 0);
                }
            }
            Notifications.notificationSetter(context);
        }
    }