@Test public void testGraphToJson4() { Graph g = getGraph(); /* /-- V2 * V0(Integer)-- V1(Double)-- FanOut * \-- V3 */ Vertex<TestOp<String, Integer>, String, Integer> v0 = g.insert(new TestOp<>(), 1, 1); Connector<Integer> out0 = v0.getConnectors().get(0); Connector<Double> out1 = g.pipe(out0, new TestOp<Integer, Double>()); Vertex<TestOp<Double, String>, Double, String> v2 = g.insert(new TestOp<Double, String>(), 1, 1); Vertex<TestOp<Double, String>, Double, String> v3 = g.insert(new TestOp<Double, String>(), 1, 1); out1.connect(v2, 0); out1.connect(v3, 0); Gson gson = new GsonBuilder().setPrettyPrinting().create(); String json = gson.toJson(new GraphType(g)); GraphType gt2 = new Gson().fromJson(json, GraphType.class); assertEquals(5, gt2.getVertices().size()); assertEquals(4, gt2.getEdges().size()); }
@Test public void testGraphToJson5() { Graph g = getGraph(); /* /-- V2 * V0(Double)-- V1(Double)---- V3 * \-- V4 */ Random r = new Random(); Vertex<SupplierPeriodicSource<Double>, Void, Double> v0 = g.insert( new SupplierPeriodicSource<>(100, TimeUnit.MILLISECONDS, () -> (r.nextDouble() * 3)), 0, 1); Connector<Double> out0 = v0.getConnectors().get(0); out0.tag("dots", "hashes", "ats"); // Insert split - see ConnectorStream.split() Split<Double> splitOp = new Split<Double>( tuple -> { switch (tuple.intValue()) { case 0: return 0; case 1: return 1; default: return 2; } }); Vertex<Split<Double>, Double, Double> v1 = g.insert(splitOp, 1, 3); out0.connect(v1, 0); // Insert and connect sinks Vertex<Sink<Double>, Double, Void> v2 = g.insert(new Sink<>(tuple -> System.out.print(".")), 1, 0); v1.getConnectors().get(0).connect(v2, 0); v1.getConnectors().get(0).tag("dots"); Vertex<Sink<Double>, Double, Void> v3 = g.insert(new Sink<>(tuple -> System.out.print("#")), 1, 0); v1.getConnectors().get(1).connect(v3, 0); v1.getConnectors().get(1).tag("hashes"); Vertex<Sink<Double>, Double, Void> v4 = g.insert(new Sink<>(tuple -> System.out.print("@")), 1, 0); v1.getConnectors().get(2).connect(v4, 0); v1.getConnectors().get(2).tag("ats"); Gson gson = new GsonBuilder().setPrettyPrinting().create(); String json = gson.toJson(new GraphType(g)); GraphType gt = new Gson().fromJson(json, GraphType.class); assertEquals(5, gt.getVertices().size()); assertEquals(4, gt.getEdges().size()); }
@Test public void testEmptyGraphToJson() { Graph g = getGraph(); GraphType gt = new GraphType(g); Gson gson = new GsonBuilder().setPrettyPrinting().create(); String json = gson.toJson(gt); GraphType gt2 = new Gson().fromJson(json, GraphType.class); assertEquals(0, gt2.getVertices().size()); assertEquals(0, gt2.getEdges().size()); }
@Test public void testGraphToJson() { Graph g = getGraph(); TestOp<String, Integer> op = new TestOp<>(); /* Vertex<TestOp<String, Integer>, String, Integer> v = */ g.insert(op, 1, 1); GraphType gt = new GraphType(g); Gson gson = new GsonBuilder().setPrettyPrinting().create(); String json = gson.toJson(gt); GraphType gt2 = new Gson().fromJson(json, GraphType.class); assertEquals(1, gt2.getVertices().size()); assertEquals(0, gt2.getEdges().size()); }
@Test public void testGraphToJson2() { Graph g = getGraph(); TestOp<String, Integer> op1 = new TestOp<>(); Vertex<TestOp<String, Integer>, String, Integer> v = g.insert(op1, 1, 1); TestOp<Integer, Integer> op2 = new TestOp<>(); /*Connector<Integer> out2 = */ g.pipe(v.getConnectors().get(0), op2); Gson gson = new GsonBuilder().setPrettyPrinting().create(); String json = gson.toJson(new GraphType(g)); GraphType gt2 = new Gson().fromJson(json, GraphType.class); assertEquals(2, gt2.getVertices().size()); assertEquals(1, gt2.getEdges().size()); }