mirror of https://github.com/apache/lucene.git
LUCENE-8220: Add general makeGeoPolygon variant that decides the best technology for you.
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@ -36,20 +36,8 @@ public class GeoPolygonFactory {
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private GeoPolygonFactory() {
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}
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/** Create a GeoPolygon using the specified points and holes, using order to determine
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* siding of the polygon. Much like ESRI, this method uses clockwise to indicate the space
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* on the same side of the shape as being inside, and counter-clockwise to indicate the
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* space on the opposite side as being inside.
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* @param pointList is a list of the GeoPoints to build an arbitrary polygon out of. If points go
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* clockwise from a given pole, then that pole should be within the polygon. If points go
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* counter-clockwise, then that pole should be outside the polygon.
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* @return a GeoPolygon corresponding to what was specified.
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*/
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public static GeoPolygon makeGeoPolygon(final PlanetModel planetModel,
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final List<GeoPoint> pointList) {
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return makeGeoPolygon(planetModel, pointList, null);
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}
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private static final int SMALL_POLYGON_CUTOFF_EDGES = 100;
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/** Create a GeoConcavePolygon using the specified points. The polygon must have
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* a maximum extent larger than PI. The siding of the polygon is chosen so that any
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* adjacent point to a segment provides an exterior measurement and therefore,
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@ -78,24 +66,6 @@ public class GeoPolygonFactory {
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return new GeoConvexPolygon(planetModel, pointList);
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}
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/** Create a GeoPolygon using the specified points and holes, using order to determine
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* siding of the polygon. Much like ESRI, this method uses clockwise to indicate the space
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* on the same side of the shape as being inside, and counter-clockwise to indicate the
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* space on the opposite side as being inside.
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* @param pointList is a list of the GeoPoints to build an arbitrary polygon out of. If points go
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* clockwise from a given pole, then that pole should be within the polygon. If points go
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* counter-clockwise, then that pole should be outside the polygon.
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* @param holes is a list of polygons representing "holes" in the outside polygon. Holes describe the area outside
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* each hole as being "in set". Null == none.
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* @return a GeoPolygon corresponding to what was specified, or null if a valid polygon cannot be generated
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* from this input.
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*/
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public static GeoPolygon makeGeoPolygon(final PlanetModel planetModel,
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final List<GeoPoint> pointList,
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final List<GeoPolygon> holes) {
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return makeGeoPolygon(planetModel, pointList, holes, 0.0);
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}
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/** Create a GeoConcavePolygon using the specified points and holes. The polygon must have
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* a maximum extent larger than PI. The siding of the polygon is chosen so that any adjacent
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@ -130,7 +100,164 @@ public class GeoPolygonFactory {
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final List<GeoPolygon> holes) {
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return new GeoConvexPolygon(planetModel,pointList, holes);
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}
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/** Use this class to specify a polygon with associated holes.
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*/
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public static class PolygonDescription {
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/** The list of points */
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public final List<? extends GeoPoint> points;
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/** The list of holes */
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public final List<? extends PolygonDescription> holes;
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/** Instantiate the polygon description.
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* @param points is the list of points.
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*/
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public PolygonDescription(final List<? extends GeoPoint> points) {
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this(points, new ArrayList<>());
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}
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/** Instantiate the polygon description.
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* @param points is the list of points.
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* @param holes is the list of holes.
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*/
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public PolygonDescription(final List<? extends GeoPoint> points, final List<? extends PolygonDescription> holes) {
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this.points = points;
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this.holes = holes;
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}
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}
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/** Create a GeoPolygon using the specified points and holes, using order to determine
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* siding of the polygon. Much like ESRI, this method uses clockwise to indicate the space
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* on the same side of the shape as being inside, and counter-clockwise to indicate the
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* space on the opposite side as being inside.
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* @param description describes the polygon and its associated holes. If points go
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* clockwise from a given pole, then that pole should be within the polygon. If points go
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* counter-clockwise, then that pole should be outside the polygon.
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* @return a GeoPolygon corresponding to what was specified, or null if a valid polygon cannot be generated
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* from this input.
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*/
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public static GeoPolygon makeGeoPolygon(final PlanetModel planetModel,
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final PolygonDescription description) {
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return makeGeoPolygon(planetModel, description, 0.0);
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}
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/** Create a GeoPolygon using the specified points and holes, using order to determine
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* siding of the polygon. Much like ESRI, this method uses clockwise to indicate the space
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* on the same side of the shape as being inside, and counter-clockwise to indicate the
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* space on the opposite side as being inside.
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* @param description describes the polygon and its associated holes. If points go
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* clockwise from a given pole, then that pole should be within the polygon. If points go
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* counter-clockwise, then that pole should be outside the polygon.
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* @param leniencyValue is the maximum distance (in units) that a point can be from the plane and still be considered as
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* belonging to the plane. Any value greater than zero may cause some of the provided points that are in fact outside
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* the strict definition of co-planarity, but are within this distance, to be discarded for the purposes of creating a
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* "safe" polygon.
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* @return a GeoPolygon corresponding to what was specified, or null if a valid polygon cannot be generated
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* from this input.
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*/
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public static GeoPolygon makeGeoPolygon(final PlanetModel planetModel,
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final PolygonDescription description,
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final double leniencyValue) {
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// First, convert the holes to polygons in their own right.
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final List<GeoPolygon> holes;
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if (description.holes != null && description.holes.size() > 0) {
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holes = new ArrayList<>(description.holes.size());
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for (final PolygonDescription holeDescription : description.holes) {
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final GeoPolygon gp = makeGeoPolygon(planetModel, holeDescription, leniencyValue);
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if (gp == null) {
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return null;
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}
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holes.add(gp);
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}
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} else {
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holes = null;
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}
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// First, exercise a sanity filter on the provided pointList, and remove identical points, linear points, and backtracks
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//System.err.println(" filtering "+pointList.size()+" points...");
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//final long startTime = System.currentTimeMillis();
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final List<GeoPoint> firstFilteredPointList = filterPoints(description.points);
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if (firstFilteredPointList == null) {
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return null;
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}
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final List<GeoPoint> filteredPointList = filterEdges(firstFilteredPointList, leniencyValue);
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//System.err.println(" ...done in "+(System.currentTimeMillis()-startTime)+"ms ("+((filteredPointList==null)?"degenerate":(filteredPointList.size()+" points"))+")");
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if (filteredPointList == null) {
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return null;
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}
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if (filteredPointList.size() <= SMALL_POLYGON_CUTOFF_EDGES) {
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try {
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//First approximation to find a point
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final GeoPoint centerOfMass = getCenterOfMass(planetModel, filteredPointList);
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final Boolean isCenterOfMassInside = isInsidePolygon(centerOfMass, filteredPointList);
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if (isCenterOfMassInside != null) {
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return generateGeoPolygon(planetModel, filteredPointList, holes, centerOfMass, isCenterOfMassInside);
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}
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//System.err.println("points="+pointList);
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// Create a random number generator. Effectively this furnishes us with a repeatable sequence
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// of points to use for poles.
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final Random generator = new Random(1234);
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for (int counter = 0; counter < 1000000; counter++) {
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//counter++;
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// Pick the next random pole
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final GeoPoint pole = pickPole(generator, planetModel, filteredPointList);
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// Is it inside or outside?
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final Boolean isPoleInside = isInsidePolygon(pole, filteredPointList);
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if (isPoleInside != null) {
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// Legal pole
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//System.out.println("Took "+counter+" iterations to find pole");
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//System.out.println("Pole = "+pole+"; isInside="+isPoleInside+"; pointList = "+pointList);
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return generateGeoPolygon(planetModel, filteredPointList, holes, pole, isPoleInside);
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}
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// If pole choice was illegal, try another one
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}
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throw new IllegalArgumentException("cannot find a point that is inside the polygon "+filteredPointList);
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} catch (TileException e) {
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// Couldn't tile the polygon; use GeoComplexPolygon instead, if we can.
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}
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}
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// Fallback: create large geo polygon, using complex polygon logic.
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final List<PolygonDescription> pd = new ArrayList<>(1);
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pd.add(description);
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return makeLargeGeoPolygon(planetModel, pd);
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}
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/** Create a GeoPolygon using the specified points and holes, using order to determine
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* siding of the polygon. Much like ESRI, this method uses clockwise to indicate the space
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* on the same side of the shape as being inside, and counter-clockwise to indicate the
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* space on the opposite side as being inside.
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* @param pointList is a list of the GeoPoints to build an arbitrary polygon out of. If points go
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* clockwise from a given pole, then that pole should be within the polygon. If points go
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* counter-clockwise, then that pole should be outside the polygon.
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* @return a GeoPolygon corresponding to what was specified.
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*/
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public static GeoPolygon makeGeoPolygon(final PlanetModel planetModel,
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final List<GeoPoint> pointList) {
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return makeGeoPolygon(planetModel, pointList, null);
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}
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/** Create a GeoPolygon using the specified points and holes, using order to determine
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* siding of the polygon. Much like ESRI, this method uses clockwise to indicate the space
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* on the same side of the shape as being inside, and counter-clockwise to indicate the
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* space on the opposite side as being inside.
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* @param pointList is a list of the GeoPoints to build an arbitrary polygon out of. If points go
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* clockwise from a given pole, then that pole should be within the polygon. If points go
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* counter-clockwise, then that pole should be outside the polygon.
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* @param holes is a list of polygons representing "holes" in the outside polygon. Holes describe the area outside
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* each hole as being "in set". Null == none.
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* @return a GeoPolygon corresponding to what was specified, or null if a valid polygon cannot be generated
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* from this input.
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*/
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public static GeoPolygon makeGeoPolygon(final PlanetModel planetModel,
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final List<GeoPoint> pointList,
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final List<GeoPolygon> holes) {
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return makeGeoPolygon(planetModel, pointList, holes, 0.0);
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}
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/** Create a GeoPolygon using the specified points and holes, using order to determine
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* siding of the polygon. Much like ESRI, this method uses clockwise to indicate the space
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* on the same side of the shape as being inside, and counter-clockwise to indicate the
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@ -220,32 +347,6 @@ public class GeoPolygonFactory {
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return planetModel.createSurfacePoint(x, y, z);
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}
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/** Use this class to specify a polygon with associated holes.
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*/
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public static class PolygonDescription {
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/** The list of points */
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public final List<? extends GeoPoint> points;
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/** The list of holes */
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public final List<? extends PolygonDescription> holes;
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/** Instantiate the polygon description.
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* @param points is the list of points.
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*/
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public PolygonDescription(final List<? extends GeoPoint> points) {
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this(points, new ArrayList<>());
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}
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/** Instantiate the polygon description.
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* @param points is the list of points.
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* @param holes is the list of holes.
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*/
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public PolygonDescription(final List<? extends GeoPoint> points, final List<? extends PolygonDescription> holes) {
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this.points = points;
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this.holes = holes;
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}
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}
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/** Create a large GeoPolygon. This is one which has more than 100 sides and/or may have resolution problems
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* with very closely spaced points, which often occurs when the polygon was constructed to approximate curves. No tiling
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* is done, and intersections and membership are optimized for having large numbers of sides.
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@ -121,7 +121,8 @@ public class GeoPolygonTest {
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points.add(new GeoPoint(PlanetModel.SPHERE, 0.1, -0.5));
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points.add(new GeoPoint(PlanetModel.SPHERE, 0.0, -0.4));
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c = GeoPolygonFactory.makeGeoPolygon(PlanetModel.SPHERE, points);
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GeoPolygonFactory.PolygonDescription pd = new GeoPolygonFactory.PolygonDescription(points);
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c = GeoPolygonFactory.makeGeoPolygon(PlanetModel.SPHERE, pd);
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//System.out.println(c);
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// Middle point should NOT be within!!
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@ -129,7 +130,7 @@ public class GeoPolygonTest {
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assertTrue(!c.isWithin(gp));
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shapes = new ArrayList<>();
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shapes.add(new GeoPolygonFactory.PolygonDescription(points));
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shapes.add(pd);
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c = GeoPolygonFactory.makeLargeGeoPolygon(PlanetModel.SPHERE, shapes);
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assertTrue(!c.isWithin(gp));
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@ -141,7 +142,8 @@ public class GeoPolygonTest {
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points.add(new GeoPoint(PlanetModel.SPHERE, 0.0, -0.6));
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points.add(new GeoPoint(PlanetModel.SPHERE, -0.1, -0.5));
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c = GeoPolygonFactory.makeGeoPolygon(PlanetModel.SPHERE, points);
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pd = new GeoPolygonFactory.PolygonDescription(points);
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c = GeoPolygonFactory.makeGeoPolygon(PlanetModel.SPHERE, pd);
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//System.out.println(c);
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// Middle point should be within!!
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@ -149,7 +151,7 @@ public class GeoPolygonTest {
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assertTrue(c.isWithin(gp));
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shapes = new ArrayList<>();
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shapes.add(new GeoPolygonFactory.PolygonDescription(points));
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shapes.add(pd);
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c = GeoPolygonFactory.makeLargeGeoPolygon(PlanetModel.SPHERE, shapes);
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assertTrue(c.isWithin(gp));
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@ -170,7 +172,9 @@ public class GeoPolygonTest {
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points.add(new GeoPoint(PlanetModel.SPHERE, 0.0, -0.6));
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points.add(new GeoPoint(PlanetModel.SPHERE, -0.1, -0.5));
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c = GeoPolygonFactory.makeGeoPolygon(PlanetModel.SPHERE, points);
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GeoPolygonFactory.PolygonDescription pd = new GeoPolygonFactory.PolygonDescription(points);
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c = GeoPolygonFactory.makeGeoPolygon(PlanetModel.SPHERE, pd);
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xyzBounds = new XYZBounds();
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c.getBounds(xyzBounds);
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@ -180,7 +184,7 @@ public class GeoPolygonTest {
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assertEquals(GeoArea.DISJOINT, xyzSolid.getRelationship(c));
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shapes = new ArrayList<>();
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shapes.add(new GeoPolygonFactory.PolygonDescription(points));
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shapes.add(pd);
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c = GeoPolygonFactory.makeLargeGeoPolygon(PlanetModel.SPHERE, shapes);
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@ -242,9 +246,10 @@ public class GeoPolygonTest {
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gp = new GeoPoint(PlanetModel.SPHERE, 0.0, Math.PI);
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assertFalse(c.isWithin(gp));
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GeoPolygonFactory.PolygonDescription pd = new GeoPolygonFactory.PolygonDescription(points);
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// Now, same thing for large polygon
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shapes = new ArrayList<>();
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shapes.add(new GeoPolygonFactory.PolygonDescription(points));
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shapes.add(pd);
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c = GeoPolygonFactory.makeLargeGeoPolygon(PlanetModel.SPHERE, shapes);
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@ -286,7 +291,8 @@ public class GeoPolygonTest {
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points.add(new GeoPoint(PlanetModel.SPHERE, -0.1, -0.7));
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points.add(new GeoPoint(PlanetModel.SPHERE, -0.01, -0.6));
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points.add(new GeoPoint(PlanetModel.SPHERE, -0.1, -0.5));
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pd = new GeoPolygonFactory.PolygonDescription(points);
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/*
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System.out.println("Points: ");
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for (GeoPoint p : points) {
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@ -294,7 +300,7 @@ public class GeoPolygonTest {
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}
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*/
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c = GeoPolygonFactory.makeGeoPolygon(PlanetModel.SPHERE, points);
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c = GeoPolygonFactory.makeGeoPolygon(PlanetModel.SPHERE, pd);
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// Sample some points within
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gp = new GeoPoint(PlanetModel.SPHERE, 0.0, -0.5);
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assertTrue(c.isWithin(gp));
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@ -325,7 +331,7 @@ public class GeoPolygonTest {
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// Now, same thing for large polygon
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shapes = new ArrayList<>();
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shapes.add(new GeoPolygonFactory.PolygonDescription(points));
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shapes.add(pd);
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c = GeoPolygonFactory.makeLargeGeoPolygon(PlanetModel.SPHERE, shapes);
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// Sample some points within
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@ -996,7 +1002,7 @@ shape:
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}
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@Test
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public void testConcavePolygonWithHole() {
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public void testPolygonWithHole() {
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ArrayList<GeoPoint> points = new ArrayList<>();
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points.add(new GeoPoint(PlanetModel.SPHERE, -1.1, -1.5));
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points.add(new GeoPoint(PlanetModel.SPHERE, 1.0, -1.6));
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@ -1007,11 +1013,36 @@ shape:
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hole_points.add(new GeoPoint(PlanetModel.SPHERE, 0.0, -0.6));
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hole_points.add(new GeoPoint(PlanetModel.SPHERE, 0.1, -0.5));
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hole_points.add(new GeoPoint(PlanetModel.SPHERE, 0.0, -0.4));
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GeoPolygon hole = GeoPolygonFactory.makeGeoPolygon(PlanetModel.SPHERE,hole_points);
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GeoPolygonFactory.PolygonDescription holeDescription = new GeoPolygonFactory.PolygonDescription(hole_points);
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List<GeoPolygonFactory.PolygonDescription> holes = new ArrayList<>(1);
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holes.add(holeDescription);
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GeoPolygonFactory.PolygonDescription polygonDescription = new GeoPolygonFactory.PolygonDescription(points, holes);
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// Create two polygons -- one simple, the other complex. Both have holes. Compare their behavior.
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GeoPolygon holeSimplePolygon = GeoPolygonFactory.makeGeoPolygon(PlanetModel.SPHERE,polygonDescription);
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List<GeoPolygonFactory.PolygonDescription> polys = new ArrayList<>(1);
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polys.add(polygonDescription);
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GeoPolygon holeComplexPolygon = GeoPolygonFactory.makeLargeGeoPolygon(PlanetModel.SPHERE,polys);
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// Sample some nearby points outside
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GeoPoint gp;
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gp = new GeoPoint(PlanetModel.SPHERE, 0.0, -0.65);
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assertEquals(holeSimplePolygon.isWithin(gp), holeComplexPolygon.isWithin(gp));
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gp = new GeoPoint(PlanetModel.SPHERE, 0.0, -0.35);
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assertEquals(holeSimplePolygon.isWithin(gp), holeComplexPolygon.isWithin(gp));
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gp = new GeoPoint(PlanetModel.SPHERE, -0.15, -0.5);
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assertEquals(holeSimplePolygon.isWithin(gp), holeComplexPolygon.isWithin(gp));
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gp = new GeoPoint(PlanetModel.SPHERE, 0.15, -0.5);
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assertEquals(holeSimplePolygon.isWithin(gp), holeComplexPolygon.isWithin(gp));
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// Random points outside
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gp = new GeoPoint(PlanetModel.SPHERE, 0.0, 0.0);
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assertEquals(holeSimplePolygon.isWithin(gp), holeComplexPolygon.isWithin(gp));
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gp = new GeoPoint(PlanetModel.SPHERE, Math.PI * 0.5, 0.0);
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assertEquals(holeSimplePolygon.isWithin(gp), holeComplexPolygon.isWithin(gp));
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gp = new GeoPoint(PlanetModel.SPHERE, 0.0, Math.PI);
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assertEquals(holeSimplePolygon.isWithin(gp), holeComplexPolygon.isWithin(gp));
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GeoPolygon polygon = ((GeoCompositePolygon)GeoPolygonFactory.makeGeoPolygon(PlanetModel.SPHERE, points,Collections.singletonList(hole))).getShape(0);
|
||||
GeoPolygon polygon2 = GeoPolygonFactory.makeGeoConcavePolygon(PlanetModel.SPHERE,points,Collections.singletonList(hole));
|
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assertEquals(polygon,polygon2);
|
||||
}
|
||||
|
||||
@Test
|
||||
|
|
Loading…
Reference in New Issue