@Test
public void testFindShortcuts_Roundabout() {
LevelGraphStorage g = (LevelGraphStorage) createGraph();
EdgeSkipIterator iter1_1 = g.edge(1, 3, 1, true);
EdgeSkipIterator iter1_2 = g.edge(3, 4, 1, true);
EdgeSkipIterator iter2_1 = g.edge(4, 5, 1, false);
EdgeSkipIterator iter2_2 = g.edge(5, 6, 1, false);
EdgeSkipIterator iter3_1 = g.edge(6, 7, 1, true);
EdgeSkipIterator iter3_2 = g.edge(6, 8, 2, false);
g.edge(8, 4, 1, false);
g.setLevel(3, 3);
g.setLevel(5, 5);
g.setLevel(7, 7);
g.setLevel(8, 8);
PrepareContractionHierarchies prepare = new PrepareContractionHierarchies().graph(g);
g.edge(1, 4, 2, prepare.scBothDir()).skippedEdges(iter1_1.edge(), iter1_2.edge());
int f = prepare.scOneDir();
g.edge(4, 6, 2, f).skippedEdges(iter2_1.edge(), iter2_2.edge());
g.edge(6, 4, 3, f).skippedEdges(iter3_1.edge(), iter3_2.edge());
prepare.initFromGraph();
// there should be two different shortcuts for both directions!
Collection<Shortcut> sc = prepare.testFindShortcuts(4);
assertEquals(2, sc.size());
}
@Test
public void testMoreComplexGraph() {
LevelGraph g = initShortcutsGraph(createGraph());
int old = g.getAllEdges().maxId();
PrepareContractionHierarchies prepare = new PrepareContractionHierarchies().graph(g);
prepare.doWork();
assertEquals(old + 8, g.getAllEdges().maxId());
}
@Test
public void testAddShortcuts() {
LevelGraph g = createExampleGraph();
int old = g.getAllEdges().maxId();
PrepareContractionHierarchies prepare = new PrepareContractionHierarchies().graph(g);
prepare.doWork();
assertEquals(old, g.getAllEdges().maxId());
}
@Override
public PrepareContractionHierarchies prepareGraph(Graph g, FlagEncoder encoder, Weighting w) {
PrepareContractionHierarchies ch = new PrepareContractionHierarchies(encoder, w).setGraph(g);
// hack: prepare matrixgraph only once
if (g != preparedMatrixGraph) ch.doWork();
return ch;
}
@Test
public void testUnpackingOrder_Fastest() {
LevelGraphStorage g = (LevelGraphStorage) createGraph();
PrepareContractionHierarchies prepare = new PrepareContractionHierarchies().graph(g);
WeightCalculation calc = new FastestCalc(carEncoder);
initUnpackingGraph(g, calc);
RoutingAlgorithm algo = prepare.type(calc).vehicle(carEncoder).createAlgo();
Path p = algo.calcPath(10, 6);
assertEquals(7, p.distance(), 1e-1);
assertEquals(Helper.createTList(10, 0, 1, 2, 3, 4, 5, 6), p.calcNodes());
}
@Test
public void testRoundaboutUnpacking() {
LevelGraph g = createGraph();
initRoundaboutGraph(g);
int old = g.getAllEdges().maxId();
PrepareContractionHierarchies prepare = new PrepareContractionHierarchies().graph(g);
prepare.doWork();
assertEquals(old + 25, g.getAllEdges().maxId());
RoutingAlgorithm algo = prepare.createAlgo();
Path p = algo.calcPath(4, 7);
assertEquals(Helper.createTList(4, 5, 6, 7), p.calcNodes());
}
@Test
public void testCircleBug() {
LevelGraph g = createGraph();
// /--1
// -0--/
// |
g.edge(0, 1, 10, true);
g.edge(0, 1, 4, true);
g.edge(0, 2, 10, true);
g.edge(0, 3, 10, true);
PrepareContractionHierarchies prepare = new PrepareContractionHierarchies().graph(g);
prepare.doWork();
assertEquals(0, prepare.shortcuts());
}
@Override
public RoutingAlgorithmFactory createFactory(
GraphHopperStorage ghStorage, AlgorithmOptions opts) {
PrepareContractionHierarchies ch =
new PrepareContractionHierarchies(
new GHDirectory("", DAType.RAM_INT),
ghStorage,
getGraph(ghStorage, opts.getWeighting()),
opts.getFlagEncoder(),
opts.getWeighting(),
TraversalMode.NODE_BASED);
ch.doWork();
return ch;
}
@Test
public void testDirectedGraph2() {
LevelGraph g = createGraph();
initDirected2(g);
int old = GHUtility.count(g.getAllEdges());
PrepareContractionHierarchies prepare = new PrepareContractionHierarchies().graph(g);
prepare.doWork();
// PrepareTowerNodesShortcutsTest.printEdges(g);
assertEquals(old + 15, GHUtility.count(g.getAllEdges()));
RoutingAlgorithm algo = prepare.createAlgo();
Path p = algo.calcPath(0, 10);
assertEquals(10, p.distance(), 1e-6);
assertEquals(Helper.createTList(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10), p.calcNodes());
}
@Test
public void testDirectedGraph() {
LevelGraph g = createGraph();
g.edge(5, 4, 3, false);
g.edge(4, 5, 10, false);
g.edge(2, 4, 1, false);
g.edge(5, 2, 1, false);
g.edge(3, 5, 1, false);
g.edge(4, 3, 1, false);
int old = GHUtility.count(g.getAllEdges());
PrepareContractionHierarchies prepare = new PrepareContractionHierarchies().graph(g);
prepare.doWork();
// PrepareTowerNodesShortcutsTest.printEdges(g);
assertEquals(old + 3, GHUtility.count(g.getAllEdges()));
RoutingAlgorithm algo = prepare.createAlgo();
Path p = algo.calcPath(4, 2);
assertEquals(3, p.distance(), 1e-6);
assertEquals(Helper.createTList(4, 3, 5, 2), p.calcNodes());
}
private void postProcessing() {
encodingManager = graph.getEncodingManager();
if (chUsage) {
PrepareContractionHierarchies tmpPrepareCH = new PrepareContractionHierarchies();
FlagEncoder encoder = encodingManager.getSingle();
if (chFast) tmpPrepareCH.setType(new FastestCalc(encoder));
else tmpPrepareCH.setType(new ShortestCalc());
tmpPrepareCH.setVehicle(encoder);
tmpPrepareCH
.setPeriodicUpdates(periodicUpdates)
.setLazyUpdates(lazyUpdates)
.setNeighborUpdates(neighborUpdates);
prepare = tmpPrepareCH;
prepare.setGraph(graph);
}
if ("false".equals(graph.getProperties().get("prepare.done"))) prepare();
}
public static RoutingAlgorithm[] createAlgos(final Graph g) {
LevelGraph graphSimpleSC =
(LevelGraphStorage) g.copyTo(new LevelGraphStorage(new RAMDirectory()).createNew(10));
PrepareSimpleShortcuts prepare = new PrepareSimpleShortcuts().setGraph(graphSimpleSC);
prepare.doWork();
AStarBidirection astarSimpleSC = (AStarBidirection) prepare.createAStar();
astarSimpleSC.setApproximation(false);
LevelGraph graphCH =
(LevelGraphStorage) g.copyTo(new LevelGraphStorage(new RAMDirectory()).createNew(10));
PrepareContractionHierarchies prepareCH = new PrepareContractionHierarchies().setGraph(graphCH);
prepareCH.doWork();
return new RoutingAlgorithm[] {
new AStar(g),
new AStarBidirection(g),
new DijkstraBidirectionRef(g),
new DijkstraBidirection(g),
new DijkstraSimple(g),
prepare.createAlgo(),
astarSimpleSC,
prepareCH.createAlgo()
};
}
@Test
public void testDirectedGraph3() {
LevelGraph g = createGraph();
g.edge(0, 2, 2, true);
g.edge(10, 2, 2, true);
g.edge(11, 2, 2, true);
// create a longer one directional edge => no longish one-dir shortcut should be created
g.edge(2, 1, 2, true);
g.edge(2, 1, 10, false);
g.edge(1, 3, 2, true);
g.edge(3, 4, 2, true);
g.edge(3, 5, 2, true);
g.edge(3, 6, 2, true);
g.edge(3, 7, 2, true);
PrepareContractionHierarchies prepare = new PrepareContractionHierarchies().graph(g);
prepare.initFromGraph();
// find all shortcuts if we contract node 1
Collection<Shortcut> scs = prepare.testFindShortcuts(1);
assertEquals(2, scs.size());
Iterator<Shortcut> iter = scs.iterator();
Shortcut sc1 = iter.next();
Shortcut sc2 = iter.next();
if (sc1.distance > sc2.distance) {
Shortcut tmp = sc1;
sc1 = sc2;
sc2 = tmp;
}
assertTrue(sc1.toString(), sc1.from == 2 && sc1.to == 3);
assertTrue(sc2.toString(), sc2.from == 2 && sc2.to == 3);
assertEquals(sc1.toString(), 4, sc1.distance, 1e-4);
assertEquals(sc2.toString(), 12, sc2.distance, 1e-4);
}
