Package org.apache.lucene.spatial3d.geom
Interface GeoDistance
-
- All Superinterfaces:
Membership
- All Known Subinterfaces:
GeoCircle
,GeoDistanceShape
,GeoPath
,GeoPointShape
- All Known Implementing Classes:
GeoBaseDistanceShape
public interface GeoDistance extends Membership
An implementer of this interface is capable of computing the described "distance" values, which are meant to provide both actual distance values, as well as distance estimates that can be computed more cheaply.- WARNING: This API is experimental and might change in incompatible ways in the next release.
-
-
Method Summary
All Methods Instance Methods Abstract Methods Default Methods Modifier and Type Method Description default double
computeDeltaDistance(DistanceStyle distanceStyle, double x, double y, double z)
Compute the shape's delta distance given a point.default double
computeDeltaDistance(DistanceStyle distanceStyle, GeoPoint point)
Compute the shape's delta distance given a point.double
computeDistance(DistanceStyle distanceStyle, double x, double y, double z)
Compute this shape's internal "distance" to the GeoPoint.default double
computeDistance(DistanceStyle distanceStyle, GeoPoint point)
Compute this shape's internal "distance" to the GeoPoint.-
Methods inherited from interface org.apache.lucene.spatial3d.geom.Membership
isWithin, isWithin
-
-
-
-
Method Detail
-
computeDistance
default double computeDistance(DistanceStyle distanceStyle, GeoPoint point)
Compute this shape's internal "distance" to the GeoPoint. Implementations should clarify how this is computed when it's non-obvious. A return value of Double.POSITIVE_INFINITY should be returned for points outside of the shape.- Parameters:
distanceStyle
- is the distance style.point
- is the point to compute the distance to.- Returns:
- the distance.
-
computeDistance
double computeDistance(DistanceStyle distanceStyle, double x, double y, double z)
Compute this shape's internal "distance" to the GeoPoint. Implementations should clarify how this is computed when it's non-obvious. A return value of Double.POSITIVE_INFINITY should be returned for points outside of the shape.- Parameters:
distanceStyle
- is the distance style.x
- is the point's unit x coordinate (using U.S. convention).y
- is the point's unit y coordinate (using U.S. convention).z
- is the point's unit z coordinate (using U.S. convention).- Returns:
- the distance.
-
computeDeltaDistance
default double computeDeltaDistance(DistanceStyle distanceStyle, GeoPoint point)
Compute the shape's delta distance given a point. This is defined as the distance that someone traveling the "length" of the shape would have to go out of their way to include the point. For some shapes, e.g. paths, this makes perfect sense. For other shapes, e.g. circles, the "length" of the shape is zero, and the delta is computed as the distance from the center to the point and back. A return value of Double.POSITIVE_INFINITY should be returned for points outside of the shape.- Parameters:
distanceStyle
- is the distance style.point
- is the point to compute the distance to.- Returns:
- the distance.
-
computeDeltaDistance
default double computeDeltaDistance(DistanceStyle distanceStyle, double x, double y, double z)
Compute the shape's delta distance given a point. This is defined as the distance that someone traveling the "length" of the shape would have to go out of their way to include the point. For some shapes, e.g. paths, this makes perfect sense. For other shapes, e.g. circles, the "length" of the shape is zero, and the delta is computed as the distance from the center to the point and back. A return value of Double.POSITIVE_INFINITY should be returned for points outside of the shape.- Parameters:
distanceStyle
- is the distance style.x
- is the point's unit x coordinate (using U.S. convention).y
- is the point's unit y coordinate (using U.S. convention).z
- is the point's unit z coordinate (using U.S. convention).- Returns:
- the distance.
-
-