@Test public void testClone() { graph = createGraph(); graph.edge(1, 2, 10, true); NodeAccess na = graph.getNodeAccess(); na.setNode(0, 12, 23); na.setNode(1, 8, 13); na.setNode(2, 2, 10); na.setNode(3, 5, 9); graph.edge(1, 3, 10, true); Graph clone = graph.copyTo(createGraph(locationParent + "/clone", false)); assertEquals(graph.getNodes(), clone.getNodes()); assertEquals( count(carOutExplorer.setBaseNode(1)), count(clone.createEdgeExplorer(carOutFilter).setBaseNode(1))); clone.edge(1, 4, 10, true); assertEquals(3, count(clone.createEdgeExplorer(carOutFilter).setBaseNode(1))); assertEquals(graph.getBounds(), clone.getBounds()); Helper.close((Closeable) clone); }
@Test public void testDifferentVehicles() { final EncodingManager encodingManager = new EncodingManager("car,foot"); Graph g = AbstractLocationIndexTester.this.createGHStorage(encodingManager); initSimpleGraph(g); idx = createIndex(g, -1); assertEquals(1, findID(idx, 1, -1)); // now make all edges from node 1 accessible for CAR only EdgeIterator iter = g.createEdgeExplorer().setBaseNode(1); CarFlagEncoder carEncoder = (CarFlagEncoder) encodingManager.getEncoder("car"); while (iter.next()) { iter.setFlags(carEncoder.setProperties(50, true, true)); } idx.close(); idx = createIndex(g, -1); FootFlagEncoder footEncoder = (FootFlagEncoder) encodingManager.getEncoder("foot"); assertEquals(2, idx.findClosest(1, -1, new DefaultEdgeFilter(footEncoder)).getClosestNode()); Helper.close((Closeable) g); }