Java Code Examples for com.eveningoutpost.dexdrip.ImportedLibraries.dexcom.records.CalSubrecord#getCalBGL()
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com.eveningoutpost.dexdrip.ImportedLibraries.dexcom.records.CalSubrecord#getCalBGL() .
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Example 1
Source File: Calibration.java From xDrip with GNU General Public License v3.0 | 4 votes |
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 |
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 |
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 |
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 |
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 |
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); } }