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mirror of https://codeberg.org/Freeyourgadget/Gadgetbridge synced 2024-12-01 06:22:55 +01:00

Bangle.js: WIP adding summary data

Calculate distances from lat/long coordinates.
This commit is contained in:
Ganblejs 2023-11-03 00:45:25 +01:00 committed by José Rebelo
parent b4879a92d9
commit 70b9911153

View File

@ -19,6 +19,8 @@
along with this program. If not, see <https://www.gnu.org/licenses/>. */
package nodomain.freeyourgadget.gadgetbridge.service.devices.banglejs;
import static java.lang.Math.cos;
import static java.lang.Math.sqrt;
import static nodomain.freeyourgadget.gadgetbridge.activities.devicesettings.DeviceSettingsPreferenceConst.PREF_ALLOW_HIGH_MTU;
import static nodomain.freeyourgadget.gadgetbridge.activities.devicesettings.DeviceSettingsPreferenceConst.PREF_BANGLEJS_TEXT_BITMAP;
import static nodomain.freeyourgadget.gadgetbridge.activities.devicesettings.DeviceSettingsPreferenceConst.PREF_BANGLEJS_TEXT_BITMAP_SIZE;
@ -70,7 +72,6 @@ import org.xml.sax.InputSource;
import java.io.BufferedReader;
import java.io.BufferedWriter;
import java.io.File;
import java.io.FileNotFoundException;
import java.io.FileReader;
import java.io.FileWriter;
import java.io.IOException;
@ -113,7 +114,6 @@ import nodomain.freeyourgadget.gadgetbridge.deviceevents.GBDeviceEventMusicContr
import nodomain.freeyourgadget.gadgetbridge.deviceevents.GBDeviceEventNotificationControl;
import nodomain.freeyourgadget.gadgetbridge.deviceevents.GBDeviceEventUpdatePreferences;
import nodomain.freeyourgadget.gadgetbridge.deviceevents.GBDeviceEventVersionInfo;
import nodomain.freeyourgadget.gadgetbridge.devices.DeviceCoordinator;
import nodomain.freeyourgadget.gadgetbridge.devices.banglejs.BangleJSConstants;
import nodomain.freeyourgadget.gadgetbridge.devices.banglejs.BangleJSSampleProvider;
import nodomain.freeyourgadget.gadgetbridge.entities.BangleJSActivitySample;
@ -798,6 +798,32 @@ public class BangleJSDeviceSupport extends AbstractBTLEDeviceSupport {
LOG.info("storedLogObject:\n" + storedLogObject);
// Calculate and store analytical data (distance, speed, cadence, etc.)
JSONObject analyticalDataObject = new JSONObject();
JSONArray valueArray2 = new JSONArray();
JSONArray calculatedArray = new JSONArray();
if (storedLogObject.has("Latitude")) {
valueArray = storedLogObject.getJSONArray("Latitude");
valueArray2 = storedLogObject.getJSONArray("Longitude");
for (int i = 0; i < valueArray.length(); i++) {
if (i==0) {
calculatedArray.put("0");
} else {
String distance = distanceFromCoordinatePairs(
(String) valueArray.get(i-1),
(String) valueArray2.get(i-1),
(String) valueArray.get(i),
(String) valueArray2.get(i)
);
calculatedArray.put(distance);
}
}
valueArray = new JSONArray();
valueArray2 = new JSONArray();
calculatedArray = new JSONArray();
}
BaseActivitySummary summary = null;
Date startTime = new Date(Long.parseLong(storedLogArray2[1][0])*1000L);
@ -811,6 +837,86 @@ public class BangleJSDeviceSupport extends AbstractBTLEDeviceSupport {
JSONObject summaryData = new JSONObject();
summaryData = addSummaryData(summaryData,"test",3,"mm");
// private JSONObject createActivitySummaryGroups(){
// final Map<String, List<String>> groupDefinitions = new HashMap<String, List<String>>() {{
// put("Strokes", Arrays.asList(
// "averageStrokeDistance", "averageStrokesPerSecond", "strokes"
// ));
// put("Swimming", Arrays.asList(
// "swolfIndex", "swimStyle"
// ));
// put("Elevation", Arrays.asList(
// "ascentMeters", "descentMeters", "maxAltitude", "minAltitude", "averageAltitude",
// "baseAltitude", "ascentSeconds", "descentSeconds", "flatSeconds", "ascentDistance",
// "descentDistance", "flatDistance", "elevationGain", "elevationLoss"
// ));
summaryData = addSummaryData(summaryData,"ascentMeters",3,"mm");
summaryData = addSummaryData(summaryData,"descentMeters",3,"mm");
summaryData = addSummaryData(summaryData,"maxAltitude",3,"mm");
summaryData = addSummaryData(summaryData,"minAltitude",3,"mm");
summaryData = addSummaryData(summaryData,"averageAltitude",3,"mm");
summaryData = addSummaryData(summaryData,"baseAltitude",3,"mm");
summaryData = addSummaryData(summaryData,"ascentSeconds",3,"mm");
summaryData = addSummaryData(summaryData,"descentSeconds",3,"mm");
summaryData = addSummaryData(summaryData,"flatSeconds",3,"mm");
summaryData = addSummaryData(summaryData,"ascentDistance",3,"mm");
summaryData = addSummaryData(summaryData,"descentDistance",3,"mm");
summaryData = addSummaryData(summaryData,"flatDistance",3,"mm");
summaryData = addSummaryData(summaryData,"elevationGain",3,"mm");
summaryData = addSummaryData(summaryData,"elevationLoss",3,"mm");
// put("Speed", Arrays.asList(
// "averageSpeed", "maxSpeed", "minSpeed", "averageKMPaceSeconds", "minPace",
// "maxPace", "averageSpeed2", "averageCadence", "maxCadence", "minCadence"
// ));
//summaryData = addSummaryData(summaryData,"averageSpeed",3,"mm");
summaryData = addSummaryData(summaryData,"maxSpeed",3,"mm");
summaryData = addSummaryData(summaryData,"minSpeed",3,"mm");
summaryData = addSummaryData(summaryData,"averageKMPaceSeconds",3,"mm");
summaryData = addSummaryData(summaryData,"minPace",3,"mm");
summaryData = addSummaryData(summaryData,"maxPace",3,"mm");
summaryData = addSummaryData(summaryData,"averageSpeed2",3,"mm");
summaryData = addSummaryData(summaryData,"averageCadence",3,"mm");
summaryData = addSummaryData(summaryData,"maxCadence",3,"mm");
summaryData = addSummaryData(summaryData,"minCadence",3,"mm");
// put("Activity", Arrays.asList(
// "distanceMeters", "steps", "activeSeconds", "caloriesBurnt", "totalStride",
// "averageHR", "maxHR", "minHR", "averageStride", "maxStride", "minStride"
// ));
summaryData = addSummaryData(summaryData,"distanceMeters",3,"m");
summaryData = addSummaryData(summaryData,"steps",3,"mm");
summaryData = addSummaryData(summaryData,"activeSeconds",3,"mm");
summaryData = addSummaryData(summaryData,"caloriesBurnt",3,"mm");
summaryData = addSummaryData(summaryData,"totalStride",3,"mm");
summaryData = addSummaryData(summaryData,"averageHR",3,"mm");
summaryData = addSummaryData(summaryData,"maxHR",3,"mm");
summaryData = addSummaryData(summaryData,"minHR",3,"mm");
summaryData = addSummaryData(summaryData,"averageStride",3,"mm");
summaryData = addSummaryData(summaryData,"maxStride",3,"mm");
summaryData = addSummaryData(summaryData,"minStride",3,"mm");
// put("HeartRateZones", Arrays.asList(
// "hrZoneNa", "hrZoneWarmUp", "hrZoneFatBurn", "hrZoneAerobic", "hrZoneAnaerobic",
// "hrZoneExtreme"
// ));
summaryData = addSummaryData(summaryData,"hrZoneNa",3,"mm");
summaryData = addSummaryData(summaryData,"hrZoneWarmUp",3,"mm");
summaryData = addSummaryData(summaryData,"hrZoneFatBurn",3,"mm");
summaryData = addSummaryData(summaryData,"hrZoneAerobic",3,"mm");
summaryData = addSummaryData(summaryData,"hrZoneAnaerobic",3,"mm");
summaryData = addSummaryData(summaryData,"hrZoneExtreme",3,"mm");
// put("TrainingEffect", Arrays.asList(
// "aerobicTrainingEffect", "anaerobicTrainingEffect", "currentWorkoutLoad",
// "maximumOxygenUptake"
// ));
// put("Laps", Arrays.asList(
// "averageLapPace", "laps"
// ));
summaryData = addSummaryData(summaryData,"averageLapPace",3,"mm");
summaryData = addSummaryData(summaryData,"laps",3,"mm");
// }};
summary.setSummaryData(summaryData.toString());
ActivityTrack track = new ActivityTrack(); // detailsParser.parse(buffer.toByteArray());
@ -2122,4 +2228,26 @@ public class BangleJSDeviceSupport extends AbstractBTLEDeviceSupport {
}
return summaryData;
}
public String distanceFromCoordinatePairs(String latA, String lonA, String latB, String lonB) {
// https://en.wikipedia.org/wiki/Geographic_coordinate_system#Length_of_a_degree
//phi = latitude
//lambda = longitude
//length of 1 degree lat:
//111132.92 - 559.82*cos(2*phi) + 1.175*cos(4*phi) - 0.0023*cos(6*phi)
//length of 1 degree lon:
//111412.84*cos(phi) - 93.5*cos(3*phi) + 0.118*cos(5*phi)
double latADouble = Double.parseDouble(latA);
double latBDouble = Double.parseDouble(latB);
double lonADouble = Double.parseDouble(lonA);
double lonBDouble = Double.parseDouble(lonB);
double lengthPerDegreeLat = 111132.92 - 559.82*cos(2*latADouble) + 1.175*cos(4*latADouble) - 0.0023*cos(6*latADouble);
double lengthPerDegreeLon = 111412.84*cos(latADouble) - 93.5*cos(3*latADouble) + 0.118*cos(5*latADouble);
double latDist = (latBDouble-latADouble)*lengthPerDegreeLat;
double lonDist = (lonBDouble-lonADouble)*lengthPerDegreeLon;
return String.valueOf(sqrt(latDist*latDist+lonDist*lonDist));
}
}