Example 1 with Vertex
use of org.locationtech.jts.triangulate.quadedge.Vertex in project graphhopper by graphhopper.
the class JTSTriangulator method triangulate.
public Result triangulate(Snap snap, QueryGraph queryGraph, ShortestPathTree shortestPathTree, ToDoubleFunction<ShortestPathTree.IsoLabel> fz, double tolerance) {
final NodeAccess na = queryGraph.getNodeAccess();
Collection<Coordinate> sites = new ArrayList<>();
shortestPathTree.search(snap.getClosestNode(), label -> {
double exploreValue = fz.applyAsDouble(label);
double lat = na.getLat(label.node);
double lon = na.getLon(label.node);
Coordinate site = new Coordinate(lon, lat);
site.z = exploreValue;
sites.add(site);
// add a pillar node to increase precision a bit for longer roads
if (label.parent != null) {
EdgeIteratorState edge = queryGraph.getEdgeIteratorState(label.edge, label.node);
PointList innerPoints = edge.fetchWayGeometry(FetchMode.PILLAR_ONLY);
if (innerPoints.size() > 0) {
int midIndex = innerPoints.size() / 2;
double lat2 = innerPoints.getLat(midIndex);
double lon2 = innerPoints.getLon(midIndex);
Coordinate site2 = new Coordinate(lon2, lat2);
site2.z = exploreValue;
sites.add(site2);
}
}
});
if (sites.size() > routerConfig.getMaxVisitedNodes() / 3)
throw new IllegalArgumentException("Too many nodes would be included in post processing (" + sites.size() + "). Let us know if you need this increased.");
// Sites may contain repeated coordinates. Especially for edge-based traversal, that's expected -- we visit
// each node multiple times.
// But that's okay, the triangulator de-dupes by itself, and it keeps the first z-value it sees, which is
// what we want.
Collection<ConstraintVertex> constraintVertices = sites.stream().map(ConstraintVertex::new).collect(Collectors.toList());
ConformingDelaunayTriangulator conformingDelaunayTriangulator = new ConformingDelaunayTriangulator(constraintVertices, tolerance);
conformingDelaunayTriangulator.setConstraints(new ArrayList<>(), new ArrayList<>());
conformingDelaunayTriangulator.formInitialDelaunay();
conformingDelaunayTriangulator.enforceConstraints();
Geometry convexHull = conformingDelaunayTriangulator.getConvexHull();
if (!(convexHull instanceof Polygon)) {
throw new IllegalArgumentException("Too few points found. " + "Please try a different 'point' or a larger 'time_limit'.");
}
QuadEdgeSubdivision tin = conformingDelaunayTriangulator.getSubdivision();
for (Vertex vertex : (Collection<Vertex>) tin.getVertices(true)) {
if (tin.isFrameVertex(vertex)) {
vertex.setZ(Double.MAX_VALUE);
}
}
ReadableTriangulation triangulation = ReadableTriangulation.wrap(tin);
return new Result(triangulation, triangulation.getEdges());
}
Also used :
PointList(com.graphhopper.util.PointList)
ConstraintVertex(org.locationtech.jts.triangulate.ConstraintVertex)
Vertex(org.locationtech.jts.triangulate.quadedge.Vertex)
NodeAccess(com.graphhopper.storage.NodeAccess)
ArrayList(java.util.ArrayList)
ConformingDelaunayTriangulator(org.locationtech.jts.triangulate.ConformingDelaunayTriangulator)
QuadEdgeSubdivision(org.locationtech.jts.triangulate.quadedge.QuadEdgeSubdivision)
ConstraintVertex(org.locationtech.jts.triangulate.ConstraintVertex)
Geometry(org.locationtech.jts.geom.Geometry)
Coordinate(org.locationtech.jts.geom.Coordinate)
EdgeIteratorState(com.graphhopper.util.EdgeIteratorState)
Collection(java.util.Collection)
Polygon(org.locationtech.jts.geom.Polygon)
Example 2 with Vertex
use of org.locationtech.jts.triangulate.quadedge.Vertex in project graphhopper by graphhopper.
the class PtIsochroneResource method doGet.
@GET
@Produces({ MediaType.APPLICATION_JSON })
public Response doGet(@QueryParam("point") GHLocationParam sourceParam, @QueryParam("time_limit") @DefaultValue("600") long seconds, @QueryParam("reverse_flow") @DefaultValue("false") boolean reverseFlow, @QueryParam("pt.earliest_departure_time") @NotNull OffsetDateTimeParam departureTimeParam, @QueryParam("pt.blocked_route_types") @DefaultValue("0") int blockedRouteTypes, @QueryParam("result") @DefaultValue("multipolygon") String format) {
Instant initialTime = departureTimeParam.get().toInstant();
GHLocation location = sourceParam.get();
double targetZ = seconds * 1000;
GeometryFactory geometryFactory = new GeometryFactory();
final FlagEncoder footEncoder = encodingManager.getEncoder("foot");
final Weighting weighting = new FastestWeighting(footEncoder);
DefaultSnapFilter snapFilter = new DefaultSnapFilter(weighting, graphHopperStorage.getEncodingManager().getBooleanEncodedValue(Subnetwork.key("foot")));
PtLocationSnapper.Result snapResult = new PtLocationSnapper(graphHopperStorage, locationIndex, gtfsStorage).snapAll(Arrays.asList(location), Arrays.asList(snapFilter));
GraphExplorer graphExplorer = new GraphExplorer(snapResult.queryGraph, gtfsStorage.getPtGraph(), weighting, gtfsStorage, RealtimeFeed.empty(), reverseFlow, false, false, 5.0, reverseFlow, blockedRouteTypes);
MultiCriteriaLabelSetting router = new MultiCriteriaLabelSetting(graphExplorer, reverseFlow, false, false, 0, Collections.emptyList());
Map<Coordinate, Double> z1 = new HashMap<>();
NodeAccess nodeAccess = snapResult.queryGraph.getNodeAccess();
for (Label label : router.calcLabels(snapResult.nodes.get(0), initialTime)) {
if (!((label.currentTime - initialTime.toEpochMilli()) * (reverseFlow ? -1 : 1) <= targetZ)) {
break;
}
if (label.node.streetNode != -1) {
Coordinate nodeCoordinate = new Coordinate(nodeAccess.getLon(label.node.streetNode), nodeAccess.getLat(label.node.streetNode));
z1.merge(nodeCoordinate, (double) (label.currentTime - initialTime.toEpochMilli()) * (reverseFlow ? -1 : 1), Math::min);
} else if (label.edge != null && (label.edge.getType() == GtfsStorage.EdgeType.EXIT_PT || label.edge.getType() == GtfsStorage.EdgeType.ENTER_PT)) {
GtfsStorage.PlatformDescriptor platformDescriptor = label.edge.getPlatformDescriptor();
Stop stop = gtfsStorage.getGtfsFeeds().get(platformDescriptor.feed_id).stops.get(platformDescriptor.stop_id);
Coordinate nodeCoordinate = new Coordinate(stop.stop_lon, stop.stop_lat);
z1.merge(nodeCoordinate, (double) (label.currentTime - initialTime.toEpochMilli()) * (reverseFlow ? -1 : 1), Math::min);
}
}
if (format.equals("multipoint")) {
MultiPoint exploredPoints = geometryFactory.createMultiPointFromCoords(z1.keySet().toArray(new Coordinate[0]));
return wrap(exploredPoints);
} else {
MultiPoint exploredPoints = geometryFactory.createMultiPointFromCoords(z1.keySet().toArray(new Coordinate[0]));
// Get at least all nodes within our bounding box (I think convex hull would be enough.)
// I think then we should have all possible encroaching points. (Proof needed.)
locationIndex.query(BBox.fromEnvelope(exploredPoints.getEnvelopeInternal()), edgeId -> {
EdgeIteratorState edge = snapResult.queryGraph.getEdgeIteratorStateForKey(edgeId * 2);
z1.merge(new Coordinate(nodeAccess.getLon(edge.getBaseNode()), nodeAccess.getLat(edge.getBaseNode())), Double.MAX_VALUE, Math::min);
z1.merge(new Coordinate(nodeAccess.getLon(edge.getAdjNode()), nodeAccess.getLat(edge.getAdjNode())), Double.MAX_VALUE, Math::min);
});
exploredPoints = geometryFactory.createMultiPointFromCoords(z1.keySet().toArray(new Coordinate[0]));
CoordinateList siteCoords = DelaunayTriangulationBuilder.extractUniqueCoordinates(exploredPoints);
List<ConstraintVertex> constraintVertices = new ArrayList<>();
for (Object siteCoord : siteCoords) {
Coordinate coord = (Coordinate) siteCoord;
constraintVertices.add(new ConstraintVertex(coord));
}
ConformingDelaunayTriangulator cdt = new ConformingDelaunayTriangulator(constraintVertices, JTS_TOLERANCE);
cdt.setConstraints(new ArrayList(), new ArrayList());
cdt.formInitialDelaunay();
QuadEdgeSubdivision tin = cdt.getSubdivision();
for (Vertex vertex : (Collection<Vertex>) tin.getVertices(true)) {
if (tin.isFrameVertex(vertex)) {
vertex.setZ(Double.MAX_VALUE);
} else {
Double aDouble = z1.get(vertex.getCoordinate());
if (aDouble != null) {
vertex.setZ(aDouble);
} else {
vertex.setZ(Double.MAX_VALUE);
}
}
}
ReadableTriangulation triangulation = ReadableTriangulation.wrap(tin);
ContourBuilder contourBuilder = new ContourBuilder(triangulation);
MultiPolygon isoline = contourBuilder.computeIsoline(targetZ, triangulation.getEdges());
// debugging tool
if (format.equals("triangulation")) {
Response response = new Response();
for (Vertex vertex : (Collection<Vertex>) tin.getVertices(true)) {
JsonFeature feature = new JsonFeature();
feature.setGeometry(geometryFactory.createPoint(vertex.getCoordinate()));
HashMap<String, Object> properties = new HashMap<>();
properties.put("z", vertex.getZ());
feature.setProperties(properties);
response.polygons.add(feature);
}
for (QuadEdge edge : (Collection<QuadEdge>) tin.getPrimaryEdges(false)) {
JsonFeature feature = new JsonFeature();
feature.setGeometry(edge.toLineSegment().toGeometry(geometryFactory));
HashMap<String, Object> properties = new HashMap<>();
feature.setProperties(properties);
response.polygons.add(feature);
}
JsonFeature feature = new JsonFeature();
feature.setGeometry(isoline);
HashMap<String, Object> properties = new HashMap<>();
properties.put("z", targetZ);
feature.setProperties(properties);
response.polygons.add(feature);
response.info.copyrights.addAll(ResponsePathSerializer.COPYRIGHTS);
return response;
} else {
return wrap(isoline);
}
}
}
Also used :
ConstraintVertex(org.locationtech.jts.triangulate.ConstraintVertex)
Vertex(org.locationtech.jts.triangulate.quadedge.Vertex)
NodeAccess(com.graphhopper.storage.NodeAccess)
FlagEncoder(com.graphhopper.routing.util.FlagEncoder)
Stop(com.conveyal.gtfs.model.Stop)
ConstraintVertex(org.locationtech.jts.triangulate.ConstraintVertex)
EdgeIteratorState(com.graphhopper.util.EdgeIteratorState)
FastestWeighting(com.graphhopper.routing.weighting.FastestWeighting)
QuadEdge(org.locationtech.jts.triangulate.quadedge.QuadEdge)
DefaultSnapFilter(com.graphhopper.routing.util.DefaultSnapFilter)
Instant(java.time.Instant)
ReadableTriangulation(com.graphhopper.isochrone.algorithm.ReadableTriangulation)
ConformingDelaunayTriangulator(org.locationtech.jts.triangulate.ConformingDelaunayTriangulator)
QuadEdgeSubdivision(org.locationtech.jts.triangulate.quadedge.QuadEdgeSubdivision)
JsonFeature(com.graphhopper.util.JsonFeature)
FastestWeighting(com.graphhopper.routing.weighting.FastestWeighting)
Weighting(com.graphhopper.routing.weighting.Weighting)
ContourBuilder(com.graphhopper.isochrone.algorithm.ContourBuilder)
Example 3 with Vertex
use of org.locationtech.jts.triangulate.quadedge.Vertex in project graphhopper by graphhopper.
the class QuadEdgeSubdivisionTest method createQuadEdgeSubdivisionFromTriangleList.
@Test
public void createQuadEdgeSubdivisionFromTriangleList() {
Triangulation triangulation = new Triangulation();
triangulation.getVertices().put(1, new Vertex(0.0, 0.0, 0.0));
triangulation.getVertices().put(2, new Vertex(1.0, -1.0, 1.0));
triangulation.getVertices().put(3, new Vertex(1.0, 1.0, 0.0));
triangulation.getVertices().put(4, new Vertex(2.0, 0.0, 0.0));
triangulation.getVertices().put(5, new Vertex(1.0, -3.0, 0.0));
triangulation.makeTriangle(1, 3, 2);
triangulation.makeTriangle(1, 2, 5);
triangulation.makeTriangle(2, 4, 5);
triangulation.makeTriangle(3, 4, 2);
ReadableTriangulation readableTriangulation = ReadableTriangulation.wrap(triangulation);
ReadableQuadEdge e1 = readableTriangulation.getEdge(1, 3);
ReadableQuadEdge e2 = readableTriangulation.getEdge(3, 2);
ReadableQuadEdge e3 = readableTriangulation.getEdge(2, 1);
ReadableQuadEdge e4 = readableTriangulation.getEdge(4, 2);
ReadableQuadEdge e41 = readableTriangulation.getEdge(3, 4);
ReadableQuadEdge e5 = readableTriangulation.getEdge(5, 1);
ReadableQuadEdge e6 = readableTriangulation.getEdge(2, 5);
ReadableQuadEdge e7 = readableTriangulation.getEdge(4, 5);
assertTriangle(e1, e2, e3);
assertTriangle(e4, e2.sym(), e41);
assertTriangle(e5, e3.sym(), e6);
assertTriangle(e6.sym(), e4.sym(), e7);
assertVertex(e1, e3.sym(), e5.sym());
assertVertex(e5, e6.sym(), e7.sym());
assertVertex(e7, e4, e41.sym());
assertVertex(e41, e2, e1.sym());
assertVertex(e3, e2.sym(), e4.sym(), e6);
ReadableTriangulation triangulation1 = ReadableTriangulation.wrap(triangulation);
ContourBuilder contourBuilder = new ContourBuilder(triangulation1);
Geometry geometry = contourBuilder.computeIsoline(0.5, triangulation1.getEdges());
assertEquals("MULTIPOLYGON (((0.5 -0.5, 1 -2, 1.5 -0.5, 1 0, 0.5 -0.5)))", geometry.toString());
}Example 4 with Vertex
use of org.locationtech.jts.triangulate.quadedge.Vertex in project graphhopper by graphhopper.
the class QuadEdgeSubdivisionTest method createQuadEdgeSubdivisionFromScratch.
@Test
public void createQuadEdgeSubdivisionFromScratch() {
Vertex v1 = new Vertex(0.0, 0.0, 0.0);
Vertex v2 = new Vertex(1.0, -1.0, 1.0);
Vertex v3 = new Vertex(1.0, 1.0, 0.0);
Vertex v4 = new Vertex(2.0, 0.0, 0.0);
QuadEdgeSubdivision quadEdgeSubdivision = new QuadEdgeSubdivision(new Envelope(0.0, 2.0, -1.0, 1.0), 0.001);
QuadEdge e1 = quadEdgeSubdivision.makeEdge(v1, v3);
QuadEdge e2 = quadEdgeSubdivision.makeEdge(v3, v2);
QuadEdge.splice(e1.sym(), e2);
QuadEdge e3 = quadEdgeSubdivision.connect(e2, e1);
QuadEdge e4 = quadEdgeSubdivision.makeEdge(v4, v2);
QuadEdge.splice(e2.sym(), e4.lNext());
QuadEdge e41 = quadEdgeSubdivision.connect(e2.sym(), e4);
Vertex v5 = new Vertex(1.0, -3.0, 0.0);
QuadEdge e5 = quadEdgeSubdivision.makeEdge(v5, v1);
QuadEdge.splice(e3.sym(), e5.lNext());
QuadEdge e6 = quadEdgeSubdivision.connect(e3.sym(), e5);
QuadEdge e7 = quadEdgeSubdivision.connect(e4.sym(), e6.sym());
assertTriangle(ReadableQuadEdge.wrap(e1), ReadableQuadEdge.wrap(e2), ReadableQuadEdge.wrap(e3));
assertTriangle(ReadableQuadEdge.wrap(e4), ReadableQuadEdge.wrap(e2.sym()), ReadableQuadEdge.wrap(e41));
assertTriangle(ReadableQuadEdge.wrap(e5), ReadableQuadEdge.wrap(e3.sym()), ReadableQuadEdge.wrap(e6));
assertTriangle(ReadableQuadEdge.wrap(e6.sym()), ReadableQuadEdge.wrap(e4.sym()), ReadableQuadEdge.wrap(e7));
assertVertex(ReadableQuadEdge.wrap(e1), ReadableQuadEdge.wrap(e3.sym()), ReadableQuadEdge.wrap(e5.sym()));
assertVertex(ReadableQuadEdge.wrap(e5), ReadableQuadEdge.wrap(e6.sym()), ReadableQuadEdge.wrap(e7.sym()));
assertVertex(ReadableQuadEdge.wrap(e7), ReadableQuadEdge.wrap(e4), ReadableQuadEdge.wrap(e41.sym()));
assertVertex(ReadableQuadEdge.wrap(e41), ReadableQuadEdge.wrap(e2), ReadableQuadEdge.wrap(e1.sym()));
assertVertex(ReadableQuadEdge.wrap(e3), ReadableQuadEdge.wrap(e2.sym()), ReadableQuadEdge.wrap(e4.sym()), ReadableQuadEdge.wrap(e6));
ReadableTriangulation triangulation = ReadableTriangulation.wrap(quadEdgeSubdivision);
ContourBuilder contourBuilder = new ContourBuilder(triangulation);
Geometry geometry = contourBuilder.computeIsoline(0.5, triangulation.getEdges());
assertEquals("MULTIPOLYGON (((1 0, 0.5 -0.5, 1 -2, 1.5 -0.5, 1 0)))", geometry.toString());
}
Also used :
Geometry(org.locationtech.jts.geom.Geometry)
Vertex(org.locationtech.jts.triangulate.quadedge.Vertex)
QuadEdge(org.locationtech.jts.triangulate.quadedge.QuadEdge)
Envelope(org.locationtech.jts.geom.Envelope)
QuadEdgeSubdivision(org.locationtech.jts.triangulate.quadedge.QuadEdgeSubdivision)
Test(org.junit.jupiter.api.Test)
Example 5 with Vertex
use of org.locationtech.jts.triangulate.quadedge.Vertex in project graphhopper by graphhopper.
the class QuadEdgeSubdivisionTest method testJtsDelaunayTriangulator.
@Test
public void testJtsDelaunayTriangulator() {
Vertex v1 = new Vertex(0.0, 0.0, 0.0);
Vertex v2 = new Vertex(1.0, -1.0, 1.0);
Vertex v3 = new Vertex(1.0, 1.0, 0.0);
Vertex v4 = new Vertex(2.0, 0.0, 0.0);
Vertex v5 = new Vertex(1.0, -3.0, 0.0);
QuadEdgeSubdivision quadEdgeSubdivision = new QuadEdgeSubdivision(new Envelope(0.0, 2.0, -1.0, 1.0), 0.001);
IncrementalDelaunayTriangulator triangulator = new IncrementalDelaunayTriangulator(quadEdgeSubdivision);
triangulator.insertSite(v1);
triangulator.insertSite(v2);
triangulator.insertSite(v3);
triangulator.insertSite(v4);
triangulator.insertSite(v5);
assertEquals(5, quadEdgeSubdivision.getVertices(false).size());
}
Also used :
Vertex(org.locationtech.jts.triangulate.quadedge.Vertex)
IncrementalDelaunayTriangulator(org.locationtech.jts.triangulate.IncrementalDelaunayTriangulator)
Envelope(org.locationtech.jts.geom.Envelope)
QuadEdgeSubdivision(org.locationtech.jts.triangulate.quadedge.QuadEdgeSubdivision)
Test(org.junit.jupiter.api.Test)
Aggregations
Vertex (org.locationtech.jts.triangulate.quadedge.Vertex)6
Test (org.junit.jupiter.api.Test)4
Geometry (org.locationtech.jts.geom.Geometry)4
QuadEdgeSubdivision (org.locationtech.jts.triangulate.quadedge.QuadEdgeSubdivision)4
NodeAccess (com.graphhopper.storage.NodeAccess)2
EdgeIteratorState (com.graphhopper.util.EdgeIteratorState)2
Envelope (org.locationtech.jts.geom.Envelope)2
ConformingDelaunayTriangulator (org.locationtech.jts.triangulate.ConformingDelaunayTriangulator)2
ConstraintVertex (org.locationtech.jts.triangulate.ConstraintVertex)2
QuadEdge (org.locationtech.jts.triangulate.quadedge.QuadEdge)2
Stop (com.conveyal.gtfs.model.Stop)1
ContourBuilder (com.graphhopper.isochrone.algorithm.ContourBuilder)1
ReadableTriangulation (com.graphhopper.isochrone.algorithm.ReadableTriangulation)1
DefaultSnapFilter (com.graphhopper.routing.util.DefaultSnapFilter)1
FlagEncoder (com.graphhopper.routing.util.FlagEncoder)1
FastestWeighting (com.graphhopper.routing.weighting.FastestWeighting)1
Weighting (com.graphhopper.routing.weighting.Weighting)1
JsonFeature (com.graphhopper.util.JsonFeature)1
PointList (com.graphhopper.util.PointList)1
Instant (java.time.Instant)1
