/**
* Angle between line AB and CD
*
* @param a Point A.
* @param b Point B.
* @param c Point C.
* @param d Point D.
* @return Angle in degrees.
*/
public static double angleOfLines(LatLon a, LatLon b, LatLon c, LatLon d) {
return (Math.abs(
Math.atan2(a.lat() - b.lat(), a.lon() - b.lon())
- Math.atan2(c.lat() - d.lat(), c.lon() - d.lon()))
/ Math.PI
* 180)
% 360;
}
/**
* Determines if the given point {@code ll} is within these bounds.
*
* @param ll The lat/lon to check
* @return {@code true} if {@code ll} is within these bounds, {@code false} otherwise
*/
public boolean contains(LatLon ll) {
if (ll.lat() < minLat || ll.lat() > maxLat) return false;
if (crosses180thMeridian()) {
if (ll.lon() > maxLon && ll.lon() < minLon) return false;
} else {
if (ll.lon() < minLon || ll.lon() > maxLon) return false;
}
return true;
}
public void selectFeatures(int x, int y) {
int pixelDelta = 2;
LatLon clickUL = Main.map.mapView.getLatLon(x - pixelDelta, y - pixelDelta);
LatLon clickLR = Main.map.mapView.getLatLon(x + pixelDelta, y + pixelDelta);
Envelope envelope =
new Envelope(
Math.min(clickUL.lon(), clickLR.lon()),
Math.max(clickUL.lon(), clickLR.lon()),
Math.min(clickUL.lat(), clickLR.lat()),
Math.max(clickUL.lat(), clickLR.lat()));
ReferencedEnvelope mapArea = new ReferencedEnvelope(envelope, crsOSMI);
Intersects filter = ff.intersects(ff.property("msGeometry"), ff.literal(mapArea));
//
// Select features in all layers
//
content.layers().clear();
// Iterate through features and build a list that intersects the above
// envelope
for (int idx = 0; idx < arrFeatures.size(); ++idx) {
OSMIFeatureTracker tracker = arrFeatures.get(idx);
FeatureCollection<SimpleFeatureType, SimpleFeature> features = tracker.getFeatures();
SimpleFeatureSource tempfs = DataUtilities.source(features);
FeatureCollection<SimpleFeatureType, SimpleFeature> selectedFeatures;
try {
selectedFeatures = tempfs.getFeatures(filter);
Set<FeatureId> IDs = new HashSet<>();
try (FeatureIterator<SimpleFeature> iter = selectedFeatures.features()) {
Main.info("Selected features " + selectedFeatures.size());
while (iter.hasNext()) {
SimpleFeature feature = iter.next();
IDs.add(feature.getIdentifier());
}
}
geometryType = selectGeomType.get(idx + layerOffset);
Style style = createDefaultStyle(idx + layerOffset, IDs);
content.addLayer(new FeatureLayer(features, style));
} catch (IOException e) {
Main.error(e);
}
}
bIsChanged = true;
}
@Test
public void b_eastNorth2latlon_test() {
{
EastNorth en = new EastNorth(533111.69, 152227.85);
LatLon ll = Main.getProjection().eastNorth2latlon(en);
if (debug) {
System.out.println(ll);
}
assertTrue("Lausanne", Math.abs(ll.lat() - 46.518) < 0.00001);
assertTrue("Lausanne", Math.abs(ll.lon() - 6.567) < 0.00001);
}
{
EastNorth en = new EastNorth(685544.16, 292782.91);
LatLon ll = Main.getProjection().eastNorth2latlon(en);
if (debug) {
System.out.println(ll);
}
assertTrue("Schafouse", Math.abs(ll.lat() - 47.78) < 0.00001);
assertTrue("Schafouse", Math.abs(ll.lon() - 8.58) < 0.00001);
}
{
EastNorth en = new EastNorth(833068.04, 163265.39);
LatLon ll = Main.getProjection().eastNorth2latlon(en);
if (debug) {
System.out.println(ll);
}
assertTrue("Grinson", Math.abs(ll.lat() - 46.58) < 0.00001);
assertTrue("Grinson", Math.abs(ll.lon() - 10.48) < 0.00001);
}
{
EastNorth en = new EastNorth(600000.0, 200000.0);
LatLon ll = Main.getProjection().eastNorth2latlon(en);
if (debug) {
System.out.println(ll);
}
assertTrue("Berne", Math.abs(ll.lat() - (46.0 + 57.0 / 60 + 3.89813884505 / 3600)) < 0.00001);
assertTrue(
"Berne", Math.abs(ll.lon() - (7.0 + 26.0 / 60 + 19.076595154147 / 3600)) < 0.00001);
}
{
EastNorth en = new EastNorth(700000.0, 100000.0);
LatLon ll = Main.getProjection().eastNorth2latlon(en);
if (debug) {
System.out.println(ll);
}
assertTrue("Ref", Math.abs(ll.lat() - (46.0 + 2.0 / 60 + 38.87 / 3600)) < 0.00001);
assertTrue("Ref", Math.abs(ll.lon() - (8.0 + 43.0 / 60 + 49.79 / 3600)) < 0.00001);
}
}
/**
* Returns the heading, in radians, that you have to use to get from this lat/lon to another.
*
* @param other the "destination" position
* @return heading
*/
public double heading(LatLon other) {
double rv;
if (other.lat() == lat()) {
rv = (other.lon() > lon() ? Math.PI / 2 : Math.PI * 3 / 2);
} else {
rv = Math.atan((other.lon() - lon()) / (other.lat() - lat()));
if (rv < 0) {
rv += Math.PI;
}
if (other.lon() < lon()) {
rv += Math.PI;
}
}
return rv;
}
/** output a point */
private void wayPoint(WayPoint pnt, int mode) {
String type;
switch (mode) {
case WAY_POINT:
type = "wpt";
break;
case ROUTE_POINT:
type = "rtept";
break;
case TRACK_POINT:
type = "trkpt";
break;
default:
throw new RuntimeException(tr("Unknown mode {0}.", mode));
}
if (pnt != null) {
LatLon c = pnt.getCoor();
String coordAttr = "lat=\"" + c.lat() + "\" lon=\"" + c.lon() + '\"';
if (pnt.attr.isEmpty()) {
inline(type, coordAttr);
} else {
openAtt(type, coordAttr);
writeAttr(pnt, WPT_KEYS);
closeln(type);
}
}
}
/**
* Creates new bounds around a coordinate pair <code>center</code>. The new bounds shall have an
* extension in latitude direction of <code>latExtent</code>, and in longitude direction of <code>
* lonExtent</code>.
*
* @param center the center coordinate pair. Must not be null.
* @param latExtent the latitude extent. > 0 required.
* @param lonExtent the longitude extent. > 0 required.
* @throws IllegalArgumentException if center is null
* @throws IllegalArgumentException if latExtent <= 0
* @throws IllegalArgumentException if lonExtent <= 0
*/
public Bounds(LatLon center, double latExtent, double lonExtent) {
CheckParameterUtil.ensureParameterNotNull(center, "center");
if (latExtent <= 0.0)
throw new IllegalArgumentException(
MessageFormat.format(
"Parameter ''{0}'' > 0.0 expected, got {1}", "latExtent", latExtent));
if (lonExtent <= 0.0)
throw new IllegalArgumentException(
MessageFormat.format(
"Parameter ''{0}'' > 0.0 expected, got {1}", "lonExtent", lonExtent));
this.minLat = LatLon.roundToOsmPrecision(LatLon.toIntervalLat(center.lat() - latExtent / 2));
this.minLon = LatLon.roundToOsmPrecision(LatLon.toIntervalLon(center.lon() - lonExtent / 2));
this.maxLat = LatLon.roundToOsmPrecision(LatLon.toIntervalLat(center.lat() + latExtent / 2));
this.maxLon = LatLon.roundToOsmPrecision(LatLon.toIntervalLon(center.lon() + lonExtent / 2));
}
private void testProj(Projection p) {
double maxErrLat = 0, maxErrLon = 0;
Bounds b = p.getWorldBoundsLatLon();
text += String.format("*** %s %s\n", p.toString(), p.toCode());
for (int num = 0; num < 1000; ++num) {
double lat = rand.nextDouble() * (b.getMax().lat() - b.getMin().lat()) + b.getMin().lat();
double lon = rand.nextDouble() * (b.getMax().lon() - b.getMin().lon()) + b.getMin().lon();
LatLon ll = new LatLon(lat, lon);
for (int i = 0; i < 10; ++i) {
EastNorth en = p.latlon2eastNorth(ll);
ll = p.eastNorth2latlon(en);
}
maxErrLat = Math.max(maxErrLat, Math.abs(lat - ll.lat()));
maxErrLon = Math.max(maxErrLon, Math.abs(lon - ll.lon()));
}
String mark = "";
if (maxErrLat + maxErrLon > 1e-5) {
mark = "--FAILED-- ";
error = true;
}
text += String.format("%s errorLat: %s errorLon: %s\n", mark, maxErrLat, maxErrLon);
}
/**
* Determines whether a way is oriented clockwise.
*
* <p>Internals: Assuming a closed non-looping way, compute twice the area of the polygon using
* the formula {@code 2 * area = sum (X[n] * Y[n+1] - X[n+1] * Y[n])}. If the area is negative the
* way is ordered in a clockwise direction.
*
* <p>See http://paulbourke.net/geometry/polyarea/
*
* @param w the way to be checked.
* @return true if and only if way is oriented clockwise.
* @throws IllegalArgumentException if way is not closed (see {@link Way#isClosed}).
*/
public static boolean isClockwise(Way w) {
if (!w.isClosed()) {
throw new IllegalArgumentException("Way must be closed to check orientation.");
}
double area2 = 0.;
int nodesCount = w.getNodesCount();
for (int node = 1; node <= /*sic! consider last-first as well*/ nodesCount; node++) {
LatLon coorPrev = w.getNode(node - 1).getCoor();
LatLon coorCurr = w.getNode(node % nodesCount).getCoor();
area2 += coorPrev.lon() * coorCurr.lat();
area2 -= coorCurr.lon() * coorPrev.lat();
}
return area2 < 0;
}
@Override
public void paint(Graphics2D g, MapView mv, Bounds box) {
LatLon min = box.getMin();
LatLon max = box.getMax();
Envelope envelope2 =
new Envelope(
Math.min(min.lat(), max.lat()),
Math.max(min.lat(), max.lat()),
Math.min(min.lon(), max.lon()),
Math.max(min.lon(), max.lon()));
ReferencedEnvelope mapArea = new ReferencedEnvelope(envelope2, crsOSMI);
renderer.setInteractive(false);
renderer.paint(g, mv.getBounds(), mapArea);
bIsChanged = false;
}
public static String getURL(LatLon pos, int zoom) {
// Truncate lat and lon to something more sensible
int decimals = (int) Math.pow(10, (zoom / 3));
double lat = (Math.round(pos.lat() * decimals));
lat /= decimals;
double lon = (Math.round(pos.lon() * decimals));
lon /= decimals;
return "http://www.openstreetmap.org/?lat=" + lat + "&lon=" + lon + "&zoom=" + zoom;
}
@Override
public void run() {
if (!active) return;
LatLon min = bbox.getMin();
LatLon max = bbox.getMax();
// Extend the area to download beond the view
double t = Main.pref.getDouble("plugin.continuos_download.extra_download", 0.1);
double dLat = Math.abs(max.lat() - min.lat()) * t;
double dLon = Math.abs(max.lon() - min.lon()) * t;
Bounds newBbox =
new Bounds(min.lat() - dLat, min.lon() - dLon, max.lat() + dLat, max.lon() + dLon);
// Do not try to download an area if the user have zoomed far out
if (newBbox.getArea() < Main.pref.getDouble("plugin.continuos_download.max_area", 0.25))
getStrat().fetch(newBbox);
}
@Override
public void actionPerformed(GpsActionEvent event) {
LatLon coordinates = event.getCoordinates();
System.out.println(
getClass().getSimpleName()
+ " KOORD: "
+ coordinates.lat()
+ ", "
+ coordinates.lon()
+ " params: "
+ getParameters());
}
private void infoSync(LatLon pos, ProgressMonitor progressMonitor) {
progressMonitor.beginTask(null, 3);
try {
mRuian.prepareData(pos);
htmlText = mRuian.getHtml();
coordinatesText = PointInfoUtils.formatCoordinates(pos.lat(), pos.lon());
} finally {
progressMonitor.finishTask();
}
progressMonitor.invalidate();
if (htmlText.length() == 0) {
GuiHelper.runInEDTAndWait(
() ->
PointInfoUtils.showNotification(
tr("Data not available.") + "\n(" + pos.toDisplayString() + ")", "warning"));
return;
}
}
public void update(Camera camera, Perspective3D perspective3d) {
Point3d cameraPoint = camera.getPoint();
Vector3d cameraRotation = camera.getAngle();
Perspective3D perspective = perspective3d;
EastNorth eastNorth = perspective.toEastNorth(cameraPoint.x, -cameraPoint.z);
Projection proj = Main.getProjection();
LatLon latLon = proj.eastNorth2latlon(eastNorth);
// XXX update cache
this.photo.setLat(latLon.lat());
this.photo.setLon(latLon.lon());
this.photo.setHeight(cameraPoint.y);
this.photo.setRotate(cameraRotation.x, cameraRotation.y, cameraRotation.z);
}
/**
* Computes the distance between this lat/lon and another point on the earth. Uses Haversine
* formular.
*
* @param other the other point.
* @return distance in metres.
*/
public double greatCircleDistance(LatLon other) {
double R = 6378135;
double sinHalfLat = sin(toRadians(other.lat() - this.lat()) / 2);
double sinHalfLon = sin(toRadians(other.lon() - this.lon()) / 2);
double d =
2
* R
* asin(
sqrt(
sinHalfLat * sinHalfLat
+ cos(toRadians(this.lat()))
* cos(toRadians(other.lat()))
* sinHalfLon
* sinHalfLon));
// For points opposite to each other on the sphere,
// rounding errors could make the argument of asin greater than 1
// (This should almost never happen.)
if (java.lang.Double.isNaN(d)) {
System.err.println("Error: NaN in greatCircleDistance");
d = PI * R;
}
return d;
}
public LatLon interpolate(LatLon ll2, double proportion) {
return new LatLon(
this.lat() + proportion * (ll2.lat() - this.lat()),
this.lon() + proportion * (ll2.lon() - this.lon()));
}
/**
* @return <code>true</code> if the other point has almost the same lat/lon values, only differing
* by no more than 1 / {@link #MAX_SERVER_PRECISION MAX_SERVER_PRECISION}.
*/
public boolean equalsEpsilon(LatLon other) {
double p = MAX_SERVER_PRECISION / 2;
return Math.abs(lat() - other.lat()) <= p && Math.abs(lon() - other.lon()) <= p;
}
/** Construct bounds out of two points. Coords will be rounded. */
public Bounds(LatLon min, LatLon max) {
this(min.lat(), min.lon(), max.lat(), max.lon());
}
/**
* Single point Bounds defined by lat/lon {@code b}. Coordinates will be rounded to osm precision
* if {@code roundToOsmPrecision} is true.
*
* @param b lat/lon of given point.
* @param roundToOsmPrecision defines if lat/lon will be rounded.
*/
public Bounds(LatLon b, boolean roundToOsmPrecision) {
this(b.lat(), b.lon(), roundToOsmPrecision);
}
public Bounds(LatLon min, LatLon max, boolean roundToOsmPrecision) {
this(min.lat(), min.lon(), max.lat(), max.lon(), roundToOsmPrecision);
}
/**
* Extend the bounds if necessary to include the given point.
*
* @param ll The point to include into these bounds
*/
public void extend(LatLon ll) {
extend(ll.lat(), ll.lon());
}
protected static final boolean isNullLatLon(LatLon ll) {
return ll.lat() == 0.0 && ll.lon() == 0.0;
}
public LatLon getCenter(LatLon ll2) {
return new LatLon((this.lat() + ll2.lat()) / 2.0, (this.lon() + ll2.lon()) / 2.0);
}
public LatLon(LatLon coor) {
super(coor.lon(), coor.lat());
}
