DistanceFunctions.java
/*
* Copyright (c) 2016 Vivid Solutions.
*
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License 2.0
* and Eclipse Distribution License v. 1.0 which accompanies this distribution.
* The Eclipse Public License is available at http://www.eclipse.org/legal/epl-v20.html
* and the Eclipse Distribution License is available at
*
* http://www.eclipse.org/org/documents/edl-v10.php.
*/
package org.locationtech.jtstest.function;
import org.locationtech.jts.algorithm.distance.DiscreteFrechetDistance;
import org.locationtech.jts.algorithm.distance.DiscreteHausdorffDistance;
import org.locationtech.jts.geom.Coordinate;
import org.locationtech.jts.geom.Geometry;
import org.locationtech.jts.geom.LineString;
import org.locationtech.jts.operation.distance.DistanceOp;
import org.locationtech.jts.operation.distance.IndexedFacetDistance;
public class DistanceFunctions {
public static double distance(Geometry a, Geometry b) {
return a.distance(b);
}
public static boolean isWithinDistance(Geometry a, Geometry b, double dist) {
return a.isWithinDistance(b, dist);
}
public static Geometry nearestPoints(Geometry a, Geometry b) {
Coordinate[] pts = DistanceOp.nearestPoints(a, b);
return a.getFactory().createLineString(pts);
}
public static double discreteFrechetfDistance(Geometry a, Geometry b)
{
return DiscreteFrechetDistance.distance(a, b);
}
public static Geometry discreteFrechetfDistanceLine(Geometry a, Geometry b)
{
DiscreteFrechetDistance dist = new DiscreteFrechetDistance(a, b);
return a.getFactory().createLineString(dist.getCoordinates());
}
public static Geometry discreteHausdorffDistanceLine(Geometry a, Geometry b)
{
DiscreteHausdorffDistance dist = new DiscreteHausdorffDistance(a, b);
dist.distance();
return a.getFactory().createLineString(dist.getCoordinates());
}
public static Geometry densifiedDiscreteHausdorffDistanceLine(Geometry a, Geometry b, double frac)
{
DiscreteHausdorffDistance hausDist = new DiscreteHausdorffDistance(a, b);
hausDist.setDensifyFraction(frac);
hausDist.distance();
return a.getFactory().createLineString(hausDist.getCoordinates());
}
public static Geometry discreteOrientedHausdorffDistanceLine(Geometry a, Geometry b)
{
DiscreteHausdorffDistance dist = new DiscreteHausdorffDistance(a, b);
dist.orientedDistance();
return a.getFactory().createLineString(dist.getCoordinates());
}
public static double discreteHausdorffDistance(Geometry a, Geometry b)
{
DiscreteHausdorffDistance dist = new DiscreteHausdorffDistance(a, b);
return dist.distance();
}
public static double discreteOrientedHausdorffDistance(Geometry a, Geometry b)
{
DiscreteHausdorffDistance dist = new DiscreteHausdorffDistance(a, b);
return dist.orientedDistance();
}
public static double distanceIndexed(Geometry a, Geometry b) {
return IndexedFacetDistance.distance(a, b);
}
public static boolean isWithinDistanceIndexed(Geometry a, Geometry b, double distance) {
return IndexedFacetDistance.isWithinDistance(a, b, distance);
}
public static Geometry nearestPointsIndexed(Geometry a, Geometry b) {
Coordinate[] pts = IndexedFacetDistance.nearestPoints(a, b);
return a.getFactory().createLineString(pts);
}
public static Geometry nearestPointsIndexedEachB(Geometry a, Geometry b) {
IndexedFacetDistance ifd = new IndexedFacetDistance(a);
int n = b.getNumGeometries();
LineString[] lines = new LineString[n];
for (int i = 0; i < n; i++) {
Coordinate[] pts = ifd.nearestPoints(b.getGeometryN(i));
lines[i] = a.getFactory().createLineString(pts);
}
return a.getFactory().createMultiLineString(lines);
}
}