use of org.elasticsearch.common.geo.builders.MultiPointBuilder in project elasticsearch by elastic.
the class RandomShapeGenerator method createShape.
/**
* Creates a random shape useful for randomized testing, NOTE: exercise caution when using this to build random GeometryCollections
* as creating a large random number of random shapes can result in massive resource consumption
* see: {@link GeoShapeQueryTests#testShapeFilterWithRandomGeoCollection}
*
* The following options are included
* @param nearPoint Create a shape near a provided point
* @param within Create a shape within the provided rectangle (note: if not null this will override the provided point)
* @param st Create a random shape of the provided type
* @return the ShapeBuilder for a random shape
*/
private static ShapeBuilder createShape(Random r, Point nearPoint, Rectangle within, ShapeType st, boolean validate) throws InvalidShapeException {
if (st == null) {
st = ShapeType.randomType(r);
}
if (within == null) {
within = xRandomRectangle(r, nearPoint);
}
// inside non overlapping bounding rectangles
switch(st) {
case POINT:
Point p = xRandomPointIn(r, within);
PointBuilder pb = new PointBuilder().coordinate(new Coordinate(p.getX(), p.getY(), Double.NaN));
return pb;
case MULTIPOINT:
case LINESTRING:
// for random testing having a maximum number of 10 points for a line string is more than sufficient
// if this number gets out of hand, the number of self intersections for a linestring can become
// (n^2-n)/2 and computing the relation intersection matrix will become NP-Hard
int numPoints = RandomNumbers.randomIntBetween(r, 3, 10);
CoordinatesBuilder coordinatesBuilder = new CoordinatesBuilder();
for (int i = 0; i < numPoints; ++i) {
p = xRandomPointIn(r, within);
coordinatesBuilder.coordinate(p.getX(), p.getY());
}
CoordinateCollection pcb = (st == ShapeType.MULTIPOINT) ? new MultiPointBuilder(coordinatesBuilder.build()) : new LineStringBuilder(coordinatesBuilder);
return pcb;
case MULTILINESTRING:
MultiLineStringBuilder mlsb = new MultiLineStringBuilder();
for (int i = 0; i < RandomNumbers.randomIntBetween(r, 1, 10); ++i) {
mlsb.linestring((LineStringBuilder) createShape(r, nearPoint, within, ShapeType.LINESTRING, false));
}
return mlsb;
case POLYGON:
numPoints = RandomNumbers.randomIntBetween(r, 5, 25);
Coordinate[] coordinates = new Coordinate[numPoints];
for (int i = 0; i < numPoints; ++i) {
p = (Point) createShape(r, nearPoint, within, ShapeType.POINT, false).build();
coordinates[i] = new Coordinate(p.getX(), p.getY());
}
// random point order or random linestrings can lead to invalid self-crossing polygons,
// compute the convex hull for a set of points to ensure polygon does not self cross
Geometry shell = new ConvexHull(coordinates, ctx.getGeometryFactory()).getConvexHull();
Coordinate[] shellCoords = shell.getCoordinates();
// when all else fails, use the bounding box as the polygon
if (shellCoords.length < 3) {
shellCoords = new Coordinate[4];
shellCoords[0] = new Coordinate(within.getMinX(), within.getMinY());
shellCoords[1] = new Coordinate(within.getMinX(), within.getMaxY());
shellCoords[2] = new Coordinate(within.getMaxX(), within.getMaxY());
shellCoords[3] = new Coordinate(within.getMaxX(), within.getMinY());
}
PolygonBuilder pgb = new PolygonBuilder(new CoordinatesBuilder().coordinates(shellCoords).close());
if (validate) {
// The validate flag will check for these possibilities and bail if an incorrect geometry is created
try {
pgb.build();
} catch (AssertionError | InvalidShapeException e) {
// or InvalidShapeException
return null;
}
}
return pgb;
default:
throw new ElasticsearchException("Unable to create shape of type [" + st + "]");
}
}
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