Update location provider
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vshcherb
parent
44d26dd308
commit
9ffedce020
2 changed files with 74 additions and 15 deletions
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@ -423,12 +423,12 @@ public class MapUtils {
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public static QuadPoint getProjectionPoint31(int px, int py, int st31x, int st31y,int end31x, int end31y) {
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double mDist = squareRootDist31(end31x, end31y, st31x,
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st31y);
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int prx = end31x;
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int pry = end31y;
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double projection = calculateProjection31TileMetric(st31x, st31y, end31x,
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end31y, px, py);
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double mDist = squareRootDist31(end31x, end31y, st31x,
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st31y);
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int pry = end31y;
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int prx = end31x;
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if (projection < 0) {
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prx = st31x;
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pry = st31y;
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@ -12,6 +12,7 @@ import net.osmand.access.NavigationInfo;
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import net.osmand.binary.BinaryMapDataObject;
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import net.osmand.binary.RouteDataObject;
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import net.osmand.data.LatLon;
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import net.osmand.data.QuadPoint;
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import net.osmand.plus.OsmandSettings.OsmandPreference;
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import net.osmand.plus.routing.RoutingHelper;
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import net.osmand.util.MapUtils;
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@ -97,32 +98,90 @@ public class OsmAndLocationProvider implements SensorEventListener {
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private OsmandPreference<Boolean> USE_MAGNETIC_FIELD_SENSOR_COMPASS;
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private OsmandPreference<Boolean> USE_FILTER_FOR_COMPASS;
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private static double squareDist(int x1, int y1, int x2, int y2) {
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// translate into meters
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double dy = MapUtils.convert31YToMeters(y1, y2);
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double dx = MapUtils. convert31XToMeters(x1, x2);
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return dx * dx + dy * dy;
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}
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private class SimulationSegment {
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public class SimulationSegment {
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private List<BinaryMapDataObject> simulateRoads = new ArrayList<BinaryMapDataObject>();
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private float currentSimulationLength = 0;
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private long simulationStarted = 0;
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private float simulationSpeedMS = 0;
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private int currentRoad;
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private int currentSegment;
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private double currentProjection;
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private net.osmand.Location startLocation;
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private List<BinaryMapDataObject> roads;
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public void startSimulation(List<BinaryMapDataObject> roads,
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Location currentLocation) {
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simulationStarted = currentLocation.getTime();
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simulationSpeedMS = currentLocation.getSpeed();
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double orthDistance = 10000;
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int currentRoad = 0;
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int currentSegment = 0;
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net.osmand.Location currentLocation) {
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roads = roads;
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startLocation = new net.osmand.Location(currentLocation);
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long ms = System.currentTimeMillis();
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if(ms - startLocation.getTime() > 5000 ||
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ms < startLocation.getTime()) {
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startLocation.setTime(ms);
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}
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currentRoad = -1;
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int px = MapUtils.get31TileNumberX(currentLocation.getLongitude());
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int py = MapUtils.get31TileNumberY(currentLocation.getLatitude());
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double dist = 1000;
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for(int i = 0; i < roads.size(); i++) {
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BinaryMapDataObject road = roads.get(i);
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for(int j = 1; j < road.getPointsLength(); j++) {
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QuadPoint proj = MapUtils.getProjectionPoint31(px, py, road.getPoint31XTile(j-1), road.getPoint31YTile(j-1),
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road.getPoint31XTile(j), road.getPoint31YTile(j));
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double dd = squareDist((int)proj.x, (int)proj.y, px, py);
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if (dd < dist) {
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dist = dd;
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currentRoad = i;
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currentSegment = j;
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currentProjection = MapUtils.calculateProjection31TileMetric(road.getPoint31XTile(j-1), road.getPoint31YTile(j-1),
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road.getPoint31XTile(j), road.getPoint31YTile(j), px, py);
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}
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}
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}
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}
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private void proceedMeters() {
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/*for(int i = 0; i < roads.size(); i++) {
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BinaryMapDataObject road = roads.get(i);
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for(int j = 1; j < road.getPointsLength(); j++) {
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QuadPoint proj = MapUtils.getProjectionPoint31(px, py, road.getPoint31XTile(j-1), road.getPoint31YTile(j-1),
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road.getPoint31XTile(j), road.getPoint31YTile(j));
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double dd = squareDist((int)proj.x, (int)proj.y, px, py);
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if (dd < dist) {
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dist = dd;
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currentRoad = i;
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currentSegment = j;
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currentProjection = MapUtils.calculateProjection31TileMetric(road.getPoint31XTile(j-1), road.getPoint31YTile(j-1),
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road.getPoint31XTile(j), road.getPoint31YTile(j), px, py);
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}
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}
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}*/
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}
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/**
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* @return null if it is not available of far from boundaries
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*/
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public Location getSimulatedLocation() {
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if(!isSimulatedDataAvailable()) {
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return null;
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}
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Location loc = new Location("OsmAnd");
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loc.setSpeed(startLocation.getSpeed());
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loc.setAltitude(startLocation.getAltitude());
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loc.setTime(System.currentTimeMillis());
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float meters = (System.currentTimeMillis() - startLocation.getTime()) / startLocation.getSpeed();
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return loc;
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}
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public boolean isSimulatedDataAvailable() {
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return simulationStarted > 0 && simulationSpeedMS > 0;
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return startLocation != null && startLocation.getSpeed() > 0 && currentRoad >= 0;
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}
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}
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