public Edge edge(Vertex src, Vertex dst, double weight, EdgeType type, Object label) { // create temp edge | we keep single instances of edges Edge e = createEdge(src, dst, weight, type, label); int idx = this.edges.indexOf(e); if (idx == -1) { // new edge between vertices this.edges.add(e); src.addEdge(e); dst.addEdge(e); } else { // existing edge; update weight e = this.edges.get(idx); e.setWeight(e.getWeight() + weight); } return e; }
public static void main(String[] args) { System.out.println("Start Graph Tests"); System.out.println("Test 1 START: Basic Node and edge methods"); // Graph creation and deletion Graph g1 = new Graph(); Node nX = new Node("nY"); Node nY = new Node("nX"); if (!g1.addNode(nX)) { System.out.println("Test1.0.1 Fail"); } if (!g1.addNode(nY)) { System.out.println("Test1.0.2 Fail"); } if (g1.addNode(nY)) { System.out.println("Test1.0.3 Fail"); } Edge eX = new Edge(nX, nY); if (!g1.addEdge(eX)) { System.out.println("Test1.0.4 Fail"); } if (g1.addEdge(eX)) { System.out.println("Test1.0.5 Fail"); } // test the consistency checker if (!g1.consistent()) { System.out.println("Test1.0.6 Fail"); } ArrayList<Edge> nYTo = nY.getEdgesTo(); nYTo.remove(eX); if (g1.consistent()) { System.out.println("Test1.0.7 Fail"); } nYTo.add(eX); if (!g1.consistent()) { System.out.println("Test1.0.8 Fail"); } ArrayList<Edge> g1Edges = g1.getEdges(); g1Edges.remove(eX); if (g1.consistent()) { System.out.println("Test1.0.9 Fail"); } g1Edges.add(eX); if (!g1.consistent()) { System.out.println("Test1.0.10 Fail"); } Node nOutside = new Node(); eX.setFrom(nOutside); if (g1.consistent()) { System.out.println("Test1.0.11 Fail"); } eX.setFrom(nX); if (!g1.consistent()) { System.out.println("Test1.0.12 Fail"); } g1 = new Graph("G"); if (!g1.getLabel().equals("G")) { System.out.println("Test1.0.13 Fail"); } g1.setLabel("H"); if (!g1.getLabel().equals("H")) { System.out.println("Test1.0.14 Fail"); } if (!g1.consistent()) { System.out.println("Test1.0.15 Fail"); } /* first real test graph ^e9v n1 e1> n2 e2> n3 n6 e3v e4^ e5ve6ve7^ ---n4--- <e8 n5 */ // Graph Object creation g1.clear(); Node n1 = new Node("n1"); if (!g1.addNode(n1)) { System.out.println("Test1.1.1 Fail"); } Node n2 = new Node("n2"); if (!g1.addNode(n2)) { System.out.println("Test1.1.2 Fail"); } Node n3 = new Node(); if (!g1.addNode(n3)) { System.out.println("Test1.1.3 Fail"); } Node n4 = new Node("n4"); if (!g1.addNode(n4)) { System.out.println("Test1.1.4 Fail"); } Node n5 = new Node("test"); if (!g1.addNode(n5)) { System.out.println("Test1.1.5 Fail"); } Node n6 = new Node("n6"); if (!g1.addNode(n6)) { System.out.println("Test1.1.6 Fail"); } Edge e1 = new Edge(n6, n6); if (!g1.addEdge(e1)) { System.out.println("Test1.1.7 Fail"); } Edge e2 = new Edge(n2, n3); if (!g1.addEdge(e2)) { System.out.println("Test1.1.8 Fail"); } Edge e3 = new Edge(n1, n4); if (!g1.addEdge(e3)) { System.out.println("Test1.1.9 Fail"); } Edge e4 = new Edge(n4, n2); if (!g1.addEdge(e4)) { System.out.println("Test1.1.10 Fail"); } Edge e5 = new Edge(n3, n5); if (!g1.addEdge(e5)) { System.out.println("Test1.1.11 Fail"); } Edge e6 = new Edge(n3, n5); if (!g1.addEdge(e6)) { System.out.println("Test1.1.12 Fail"); } Edge e7 = new Edge(n3, n5); if (!g1.addEdge(e7)) { System.out.println("Test1.1.13 Fail"); } Edge e8 = new Edge(n1, n1); if (!g1.addEdge(e8)) { System.out.println("Test1.1.14 Fail"); } Edge e9 = new Edge(n3, n3); if (!g1.addEdge(e9)) { System.out.println("Test1.1.15 Fail"); } // oposite end test if (e1.getOppositeEnd(n6) != n6) { System.out.println("Test1.1.16 Fail"); } if (e2.getOppositeEnd(n2) != n3) { System.out.println("Test1.1.17 Fail"); } if (e2.getOppositeEnd(n3) != n2) { System.out.println("Test1.1.18 Fail"); } if (e2.getOppositeEnd(n6) != null) { System.out.println("Test1.1.19 Fail"); } // changing the connections of edges e1.setFromTo(n4, n4); e1.setFrom(n5); e1.setTo(n5); e1.setFromTo(n3, n6); e1.setFromTo(n1, n2); e8.setFrom(n5); e8.setTo(n4); e7.reverse(); e9.reverse(); // resetting labels n3.setLabel("n3"); n5.setLabel("n5"); Node tempTo = e1.getTo(); Node tempFrom = e1.getFrom(); e1.reverse(); if (e1.getTo() != tempFrom) { System.out.println("Test1.1.20 Fail"); } if (e1.getFrom() != tempTo) { System.out.println("Test1.1.21 Fail"); } e1.reverse(); if (e1.getTo() != tempTo) { System.out.println("Test1.1.22 Fail"); } if (e1.getFrom() != tempFrom) { System.out.println("Test1.1.23 Fail"); } if (!g1.consistent()) { System.out.println("Test1.1.24 Fail"); } // Node connectivity testing HashSet<Node> testN = new HashSet<Node>(); if (!n6.connectingNodes().equals(testN)) { System.out.println("Test1.2.1 Fail"); } if (!n6.unvisitedConnectingNodes().equals(testN)) { System.out.println("Test1.2.2 Fail"); } if (!n6.connectingEdges().equals(testN)) { System.out.println("Test1.2.4 Fail"); } testN = new HashSet<Node>(); testN.add(n5); testN.add(n3); testN.add(n2); if (!n3.connectingNodes().equals(testN)) { System.out.println("Test1.2.5 Fail"); } if (!n3.unvisitedConnectingNodes().equals(testN)) { System.out.println("Test1.2.7 Fail"); } // Node visited flag testing n2.setVisited(true); if (!n3.connectingNodes().equals(testN)) { System.out.println("Test1.3.1 Fail"); } testN.remove(n2); if (!n3.unvisitedConnectingNodes().equals(testN)) { System.out.println("Test1.3.3 Fail"); } g1.setNodesVisited(true); testN = new HashSet<Node>(); if (!n3.unvisitedConnectingNodes().equals(testN)) { System.out.println("Test1.3.4 Fail"); } n2.setVisited(false); testN.add(n2); if (!n3.unvisitedConnectingNodes().equals(testN)) { System.out.println("Test1.3.5 Fail"); } testN.remove(n2); n2.setVisited(true); testN = new HashSet<Node>(); if (!n3.unvisitedConnectingNodes().equals(testN)) { System.out.println("Test1.3.6 Fail"); } testN = new HashSet<Node>(); testN.add(n5); testN.add(n3); testN.add(n2); if (!n3.connectingNodes().equals(testN)) { System.out.println("Test1.3.7 Fail"); } g1.setNodesVisited(); // Edge visited flag testing HashSet<Edge> testE = new HashSet<Edge>(); testE = new HashSet<Edge>(); testE.add(e3); testE.add(e1); if (!n1.connectingEdges().equals(testE)) { System.out.println("Test1.5.1 Fail"); } if (!n1.unvisitedConnectingEdges().equals(testE)) { System.out.println("Test1.5.2 Fail"); } testE.remove(e1); e1.setVisited(true); if (!n1.unvisitedConnectingEdges().equals(testE)) { System.out.println("Test1.5.3 Fail"); } e1.setVisited(false); e2.setVisited(false); g1.setEdgesVisited(true); testE = new HashSet<Edge>(); if (!n1.unvisitedConnectingEdges().equals(testE)) { System.out.println("Test1.5.4 Fail"); } e1.setVisited(true); e2.setVisited(true); g1.setEdgesVisited(false); testE = new HashSet<Edge>(); testE.add(e3); testE.add(e1); if (!n1.connectingEdges().equals(testE)) { System.out.println("Test1.5.5 Fail"); } if (!n1.unvisitedConnectingEdges().equals(testE)) { System.out.println("Test1.5.6 Fail"); } System.out.print("Test 1 END"); // test dynamic graph stuff System.out.println(" | Test 2 START: Object removal"); Node nd1 = new Node("nd1"); Node nd2 = new Node("nd2"); Node nd3 = new Node("nd3"); Graph g2 = new Graph("g2"); g2.addNode(nd1); g2.addNode(nd2); g2.addNode(nd3); Edge ed1 = new Edge(nd1, nd2); Edge ed2 = new Edge(nd1, nd2); Edge ed3 = new Edge(nd2, nd1); Edge ed4 = new Edge(nd1, nd1); Edge ed5 = new Edge(nd3, nd2); g2.addEdge(ed1); g2.addEdge(ed2); g2.addEdge(ed3); g2.addEdge(ed4); g2.addEdge(ed5); g2.removeNode("nd1"); ArrayList<Node> testNodeAL; ArrayList<Edge> testEdgeAL; testEdgeAL = new ArrayList<Edge>(); testEdgeAL.add(ed5); if (!g2.getEdges().equals(testEdgeAL)) { System.out.println("Test2.1 Fail"); } g2.addNode(nd3); if (!g2.getEdges().equals(testEdgeAL)) { System.out.println("Test2.2 Fail"); } g2.removeNode(nd2); testEdgeAL = new ArrayList<Edge>(); if (!g2.getEdges().equals(testEdgeAL)) { System.out.println("Test2.3 Fail"); } testNodeAL = new ArrayList<Node>(); testNodeAL.add(nd3); if (!g2.getNodes().equals(testNodeAL)) { System.out.println("Test2.4 Fail"); } testEdgeAL = new ArrayList<Edge>(); if (!g2.getEdges().equals(testEdgeAL)) { System.out.println("Test2.5 Fail"); } if (!g2.consistent()) { System.out.println("Test2.5.0 Fail"); } g2.clear(); Node dyNode1 = new Node("dyNode1"); Node dyNode2 = new Node("dyNode2"); g2.addNode(dyNode1); g2.addNode(dyNode2); Edge dyEdge1 = new Edge(dyNode1, dyNode2, "dyEdge2"); g2.addEdge(dyEdge1); g2.removeEdge(dyEdge1); if (dyEdge1.getFrom() != null) { System.out.println("Test2.5.1 Fail"); } if (dyEdge1.getTo() != null) { System.out.println("Test2.5.2 Fail"); } HashSet dyTest = new HashSet(); if (dyNode1.getEdgesFrom().equals(dyTest) == false) { System.out.println("Test2.5.3 Fail"); } if (dyNode1.getEdgesTo().equals(dyTest) == false) { System.out.println("Test2.5.4 Fail"); } if (dyNode2.getEdgesFrom().equals(dyTest) == false) { System.out.println("Test2.5.5 Fail"); } if (dyNode2.getEdgesTo().equals(dyTest) == false) { System.out.println("Test2.5.6 Fail"); } if (!g2.consistent()) { System.out.println("Test2.5.7 Fail"); } g2.clear(); g2.addNode(nd1); g2.addNode(nd2); g2.addNode(nd3); ed1 = new Edge(nd1, nd2, "A", 1.1); ed2 = new Edge(nd1, nd2, "B"); ed3 = new Edge(nd2, nd1, 1); ed4 = new Edge(nd1, nd1); ed5 = new Edge(nd3, nd2); g2.addEdge(ed1); g2.addEdge(ed2); g2.addEdge(ed3); g2.addEdge(ed4); g2.addEdge(ed5); // edge label and weight testing if (!ed1.getLabel().equals("A")) { System.out.println("Test2.5.1 Fail"); } ed1.setLabel("C"); if (!ed1.getLabel().equals("C")) { System.out.println("Test2.5.2 Fail"); } if (!ed2.getLabel().equals("B")) { System.out.println("Test2.5.3 Fail"); } if (ed1.getWeight() != 1.1) { System.out.println("Test2.5.4 Fail"); } ed1.setWeight(2.2); if (ed1.getWeight() != 2.2) { System.out.println("Test2.5.5 Fail"); } if (ed3.getWeight() != 1) { System.out.println("Test2.5.6 Fail"); } g2.removeEdge(ed2); testEdgeAL = new ArrayList<Edge>(); testEdgeAL.add(ed1); testEdgeAL.add(ed3); testEdgeAL.add(ed4); testEdgeAL.add(ed5); if (!g2.getEdges().equals(testEdgeAL)) { System.out.println("Test2.6 Fail"); } ArrayList<Node> testNodeAL2; testNodeAL2 = new ArrayList<Node>(); testNodeAL2.add(nd1); testNodeAL2.add(nd2); testNodeAL2.add(nd3); if (!g2.getNodes().equals(testNodeAL2)) { System.out.println("Test2.7 Fail"); } g2.removeEdge(ed4); testEdgeAL.remove(ed4); if (!g2.getEdges().equals(testEdgeAL)) { System.out.println("Test2.8 Fail"); } if (!g2.getNodes().equals(testNodeAL2)) { System.out.println("Test2.9 Fail"); } ed4 = new Edge(nd3, nd3); g2.addEdge(ed4); testEdgeAL.add(ed4); if (!g2.getEdges().equals(testEdgeAL)) { System.out.println("Test2.10 Fail"); } if (!g2.getNodes().equals(testNodeAL2)) { System.out.println("Test2.11 Fail"); } if (!g2.consistent()) { System.out.println("Test2.11.0 Fail"); } g2.clear(); testEdgeAL = new ArrayList<Edge>(); if (!g2.getEdges().equals(testEdgeAL)) { System.out.println("Test2.12 Fail"); } if (!g2.getNodes().equals(testEdgeAL)) { System.out.println("Test2.13 Fail"); } ed4 = new Edge(nd2, nd1); g2.addNode(nd1); g2.addNode(nd2); g2.addNode(nd3); g2.addEdge(ed4); g2.removeEdge(ed4); if (!g2.getEdges().equals(testEdgeAL)) { System.out.println("Test2.14 Fail"); } if (!g2.getNodes().equals(testNodeAL2)) { System.out.println("Test2.15 Fail"); } if (!g2.consistent()) { System.out.println("Test2.15.0 Fail"); } // score field testing Graph gScore = new Graph(); Node ns1 = new Node("A"); Node ns2 = new Node(); Node ns3 = new Node("C"); Node ns4 = new Node("D"); gScore.addNode(ns1); gScore.addNode(ns2); gScore.addNode(ns3); gScore.addNode(ns4); Edge es1 = new Edge(ns1, ns2, "A", 1.1); Edge es2 = new Edge(ns4, ns1); Edge es3 = new Edge(ns1, ns3); gScore.addEdge(es1); gScore.addEdge(es2); gScore.addEdge(es3); if (ns1.getScore() != 0.0) { System.out.println("Test2.16.1 Fail"); } if (es1.getScore() != 0.0) { System.out.println("Test2.16.2 Fail"); } ns1.setScore(1.3); es1.setScore(2.4); if (ns1.getScore() != 1.3) { System.out.println("Test2.16.3 Fail"); } if (es1.getScore() != 2.4) { System.out.println("Test2.16.4 Fail"); } ArrayList<Node> alNodeScore = new ArrayList<Node>(); ArrayList<Edge> alEdgeScore = new ArrayList<Edge>(); gScore.setNodesScores(alNodeScore, 3.5); gScore.setEdgesScores(alEdgeScore, 4.6); if (ns1.getScore() != 1.3) { System.out.println("Test2.16.5 Fail"); } if (es1.getScore() != 2.4) { System.out.println("Test2.16.6 Fail"); } alNodeScore.add(ns1); alNodeScore.add(ns2); gScore.setNodesScores(alNodeScore, 5.7); alNodeScore.remove(ns1); alNodeScore.remove(ns2); alEdgeScore.add(es1); alEdgeScore.add(es2); gScore.setEdgesScores(alEdgeScore, 6.8); if (ns1.getScore() != 5.7) { System.out.println("Test2.16.7 Fail"); } if (ns3.getScore() != 0.0) { System.out.println("Test2.16.8 Fail"); } if (es1.getScore() != 6.8) { System.out.println("Test2.16.9 Fail"); } if (es3.getScore() != 0.0) { System.out.println("Test2.16.10 Fail"); } gScore.setNodesScores(7.9); gScore.setEdgesScores(8.01); if (ns1.getScore() != 7.9) { System.out.println("Test2.16.11 Fail"); } if (ns3.getScore() != 7.9) { System.out.println("Test2.16.12 Fail"); } if (es1.getScore() != 8.01) { System.out.println("Test2.16.13 Fail"); } if (es3.getScore() != 8.01) { System.out.println("Test2.16.14 Fail"); } Graph testChangeGraph = new Graph(); if (testChangeGraph.moveNodeToEnd(n1)) { System.out.println("Test2.17.1 Fail"); } if (testChangeGraph.moveEdgeToEnd(e1)) { System.out.println("Test2.17.2 Fail"); } ArrayList<Node> testChangeNodeAL = new ArrayList<Node>(); Node changeNode1 = new Node("c1"); testChangeGraph.addNode(changeNode1); if (testChangeGraph.moveNodeToEnd(n1)) { System.out.println("Test2.17.3 Fail"); } testChangeGraph.moveNodeToEnd(changeNode1); testChangeNodeAL = new ArrayList<Node>(); testChangeNodeAL.add(changeNode1); if (!testChangeGraph.getNodes().equals(testChangeNodeAL)) { System.out.println("Test2.17.4 Fail"); } Node changeNode2 = new Node("c2"); Node changeNode3 = new Node("c3"); Edge changeEdge1 = new Edge(changeNode1, changeNode2); Edge changeEdge2 = new Edge(changeNode3, changeNode2); Edge changeEdge3 = new Edge(changeNode1, changeNode3); testChangeGraph.addNode(changeNode2); testChangeGraph.addNode(changeNode3); testChangeGraph.addEdge(changeEdge1); testChangeGraph.addEdge(changeEdge2); testChangeGraph.addEdge(changeEdge3); testChangeNodeAL = new ArrayList<Node>(); testChangeNodeAL.add(changeNode1); testChangeNodeAL.add(changeNode3); testChangeNodeAL.add(changeNode2); testChangeGraph.moveNodeToEnd(changeNode2); if (!testChangeGraph.getNodes().equals(testChangeNodeAL)) { System.out.println("Test2.17.5 Fail"); } ArrayList<Edge> testChangeEdgeAL = new ArrayList<Edge>(); testChangeEdgeAL.add(changeEdge2); testChangeEdgeAL.add(changeEdge3); testChangeEdgeAL.add(changeEdge1); testChangeGraph.moveEdgeToEnd(changeEdge1); if (!testChangeGraph.getEdges().equals(testChangeEdgeAL)) { System.out.println("Test2.17.6 Fail"); } System.out.print("Test 2 END"); System.out.println(" | Test 3 START: Shortest path"); ArrayList<Node> path = new ArrayList<Node>(); path.add(n5); path.add(n4); path.add(n1); if (!g1.unweightedShortest(n5, n1).equals(path)) { System.out.println("Test3.1 Fail"); } path = new ArrayList<Node>(); path.add(n3); if (!g1.unweightedShortest(n3, n3).equals(path)) { System.out.println("Test3.2 Fail"); } if (g1.unweightedShortest(n4, n6) != null) { System.out.println("Test3.3 Fail"); } System.out.print("Test 3 END"); // Adjacency Edge Graph creation stuff System.out.println(" | Test 4 START: Adjacency Graph"); // finding or adding a node from a label Node nA = g1.addAdjacencyNode("nA"); testNodeAL = new ArrayList<Node>(); testNodeAL.add(n1); testNodeAL.add(n2); testNodeAL.add(n3); testNodeAL.add(n4); testNodeAL.add(n5); testNodeAL.add(n6); testNodeAL.add(nA); if (!g1.getNodes().equals(testNodeAL)) { System.out.println("Test4.1 Fail"); } if (g1.addAdjacencyNode("n2") != n2) { System.out.println("Test4.2 Fail"); } if (!g1.getNodes().equals(testNodeAL)) { System.out.println("Test4.3 Fail"); } Node nDuplicate = new Node("n1"); g1.addNode(nDuplicate); if (g1.addAdjacencyNode("n1") != null) { System.out.println("Test4.4 Fail"); } g1.removeNode(nDuplicate); if (!g1.consistent()) { System.out.println("Test4.4.0 Fail"); } // adding an adjacency edge Edge eZ1 = g1.addAdjacencyEdge("n3", "n3"); Edge[] tempArray = {e1, e2, e3, e4, e5, e6, e7, e8, e9, eZ1}; ArrayList<Edge> testEdgeAL2 = new ArrayList<Edge>(Arrays.asList(tempArray)); if (!g1.getEdges().equals(testEdgeAL2)) { System.out.println("Test4.5 Fail"); } if (!g1.getNodes().equals(testNodeAL)) { System.out.println("Test4.6 Fail"); } g1.addAdjacencyEdge("nB", ""); if (g1.getNodes().size() != 8) { System.out.println("Test4.7 Fail"); } Edge eZ3 = g1.addAdjacencyEdge("nB", "n1"); Edge[] tempArray2 = {e1, e2, e3, e4, e5, e6, e7, e8, e9, eZ1, eZ3}; testEdgeAL2 = new ArrayList<Edge>(Arrays.asList(tempArray2)); if (!g1.getEdges().equals(testEdgeAL2)) { System.out.println("Test4.8 Fail"); } g1.addAdjacencyEdge("", ""); Edge eZ4 = g1.addAdjacencyEdge("nC", "nD"); Edge[] tempArray3 = {e1, e2, e3, e4, e5, e6, e7, e8, e9, eZ1, eZ3, eZ4}; testEdgeAL2 = new ArrayList<Edge>(Arrays.asList(tempArray3)); if (!g1.getEdges().equals(testEdgeAL2)) { System.out.println("Test4.9 Fail"); } if (g1.getNodes().size() != 10) { System.out.println("Test4.10 Fail"); } System.out.print("Test 4 END"); System.out.println(" | Test 5 START: Connected"); if (g1.connected()) { System.out.println("Test5.1 Fail"); } g1.addEdge(new Edge(nA, n6)); if (g1.connected()) { System.out.println("Test5.2 Fail"); } g1.addAdjacencyEdge("nA", "nD"); g1.addAdjacencyEdge("nA", "n4"); if (!g1.connected()) { System.out.println("Test5.3 Fail"); } if (!g1.consistent()) { System.out.println("Test5.3.0 Fail"); } Graph g4 = new Graph("g4"); if (!g4.connected()) { System.out.println("Test5.4 Fail"); } g4.addNode(new Node("z1")); if (!g4.connected()) { System.out.println("Test5.5 Fail"); } g4.addNode(new Node("z2")); if (g4.connected()) { System.out.println("Test5.6 Fail"); } g4.addAdjacencyEdge("z1", "z2"); if (!g4.connected()) { System.out.println("Test5.7 Fail"); } g4.addAdjacencyEdge("z2", "z3"); if (!g4.connected()) { System.out.println("Test5.8 Fail"); } g4.removeNode("z2"); if (g4.connected()) { System.out.println("Test5.9 Fail"); } System.out.print("Test 5 END"); System.out.println(" | Test 6 START: Equality by label testing"); Graph gc1 = new Graph("gc1"); Graph gc2 = new Graph("gc2"); if (!gc1.equalsByNodeLabel(gc2)) { System.out.println("Test6.1 Fail"); } gc1.addNode(new Node("A")); if (gc1.equalsByNodeLabel(gc2)) { System.out.println("Test6.2 Fail"); } gc2.addNode(new Node("B")); if (gc2.equalsByNodeLabel(gc1)) { System.out.println("Test6.3 Fail"); } gc2.addNode(new Node("A")); if (gc1.equalsByNodeLabel(gc2)) { System.out.println("Test6.4 Fail"); } gc1.addNode(new Node("B")); if (!gc1.equalsByNodeLabel(gc2)) { System.out.println("Test6.5 Fail"); } gc1.addNode(new Node("C")); gc2.addNode(new Node("C")); if (!gc1.equalsByNodeLabel(gc2)) { System.out.println("Test6.6 Fail"); } gc1.addAdjacencyEdge("A", "B"); if (gc1.equalsByNodeLabel(gc2)) { System.out.println("Test6.7 Fail"); } gc2.addAdjacencyEdge("A", "B"); if (!gc1.equalsByNodeLabel(gc2)) { System.out.println("Test6.8 Fail"); } gc1.addAdjacencyEdge("C", "B"); gc2.addAdjacencyEdge("C", "B"); if (!gc1.equalsByNodeLabel(gc2)) { System.out.println("Test6.9 Fail"); } gc1.addAdjacencyEdge("C", "A"); gc2.addAdjacencyEdge("A", "C"); if (gc1.equalsByNodeLabel(gc2)) { System.out.println("Test6.10 Fail"); } // this test is two non isomorphic graphs for which the comparison succeeds. gc1.clear(); gc2.clear(); Node gcn1 = new Node(""); Node gcn2 = new Node(""); Node gcn3 = new Node(""); Node gcn4 = new Node(""); gc1.addNode(gcn1); gc1.addNode(gcn2); gc2.addNode(gcn3); gc2.addNode(gcn4); gc1.addEdge(new Edge(gcn1, gcn2)); gc2.addEdge(new Edge(gcn3, gcn3)); if (!gc1.equalsByNodeLabel(gc2)) { System.out.println("Test6.11 Fail"); } // dispite the equal labels these graphs are not equal due to the extra edge gc2.addEdge(new Edge(gcn4, gcn3)); if (gc1.equalsByNodeLabel(gc2)) { System.out.println("Test6.12 Fail"); } gc1.addEdge(new Edge(gcn1, gcn2)); if (!gc1.equalsByNodeLabel(gc2)) { System.out.println("Test6.13 Fail"); } if (!gc1.consistent()) { System.out.println("Test6.13.0 Fail"); } System.out.print("Test 6 END"); // Adjacency file testing. This test creates a file called test.adj // It will crash with an exception if it cant create the file. System.out.println(" | Test 7 START: Adjacency file - needs to read and write test.adj"); g4.generateRandomGraph(10, 15); g4.saveAdjacencyFile("test.adj"); Graph g5 = new Graph("g5"); g5.loadAdjacencyFile("test.adj"); if (!g4.equalsByNodeLabel(g5)) { System.out.println("Test7.1 Fail"); } if (!g4.consistent()) { System.out.println("Test7.1.0 Fail"); } if (!g5.consistent()) { System.out.println("Test7.1.1 Fail"); } g4.clear(); g4.saveAdjacencyFile("test.adj"); g5.clear(); g5.generateRandomGraph(10, 15); g4.loadAdjacencyFile("test.adj"); if (g4.equalsByNodeLabel(g5)) { System.out.println("Test7.2 Fail"); } g4.generateRandomGraph(20, 30); g4.addNode(n1); g4.saveAdjacencyFile("test.adj"); g5.generateRandomGraph(10, 15); g5.loadAdjacencyFile("test.adj"); g4.loadAdjacencyFile("test.adj"); if (!g5.equalsByNodeLabel(g4)) { System.out.println("Test7.3 Fail"); } g4.clear(); g4.saveAdjacencyFile("test.adj"); g4.addNode(n1); g4.loadAdjacencyFile("test.adj"); if (!g4.equalsByNodeLabel(new Graph())) { System.out.println("Test7.4 Fail"); } if (!g4.consistent()) { System.out.println("Test7.4.0 Fail"); } System.out.print("Test 7 END"); // partial node and edge access System.out.println(" | Test 8 START: visited and path fields"); Graph g = new Graph(); HashSet<Node> testa = new HashSet<Node>(); HashSet<Node> testb = new HashSet<Node>(); if (!g.unvisitedNodes().equals(testa)) { System.out.println("Test8.1 Fail"); } if (!g.visitedNodes().equals(testb)) { System.out.println("Test8.2 Fail"); } g.addNode(n1); g.addNode(n2); g.addNode(n3); g.addNode(n4); Edge eV1 = new Edge(n1, n2); Edge eV2 = new Edge(n3, n2); Edge eV3 = new Edge(n4, n4); testa.add(n1); testa.add(n2); testa.add(n3); testa.add(n4); if (!g.unvisitedNodes().equals(testa)) { System.out.println("Test8.5 Fail"); } if (!g.visitedNodes().equals(testb)) { System.out.println("Test8.6 Fail"); } n1.setVisited(true); n2.setVisited(true); testa.remove(n1); testa.remove(n2); testb.add(n1); testb.add(n2); if (!g.unvisitedNodes().equals(testa)) { System.out.println("Test8.9 Fail"); } if (!g.visitedNodes().equals(testb)) { System.out.println("Test8.10 Fail"); } HashSet<Edge> teste1 = new HashSet<Edge>(); HashSet<Edge> teste2 = new HashSet<Edge>(); if (!g.unvisitedEdges().equals(teste1)) { System.out.println("Test8.13 Fail"); } if (!g.visitedEdges().equals(teste2)) { System.out.println("Test8.14 Fail"); } g.addEdge(eV1); g.addEdge(eV2); g.addEdge(eV3); eV1.setVisited(true); eV2.setVisited(true); eV3.setVisited(true); teste2.add(eV1); teste2.add(eV2); teste2.add(eV3); if (!g.unvisitedEdges().equals(teste1)) { System.out.println("Test8.15 Fail"); } if (!g.visitedEdges().equals(teste2)) { System.out.println("Test8.16 Fail"); } eV3.setVisited(false); teste1.add(eV3); teste2.remove(eV3); if (!g.unvisitedEdges().equals(teste1)) { System.out.println("Test8.17 Fail"); } if (!g.visitedEdges().equals(teste2)) { System.out.println("Test8.18 Fail"); } System.out.print("Test 8 END"); // euler tour tests System.out.println(" | Test 9 START: Euler Tour - needs to read and write test.euler"); Graph eg = new Graph(); ArrayList<Node> tour1 = new ArrayList<Node>(); eg.saveTour("test.euler", tour1); ArrayList<Node> tour2 = eg.loadTour("test.euler"); if (!eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.1 Failed with tour " + tour2 + "\nand graph\n" + eg); } tour2.add(n1); if (eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.2 Failed with tour " + tour2 + "\nand graph\n" + eg); } eg.saveTour("test.euler", tour1, false); tour2 = eg.loadTour("test.euler"); if (eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.3 Failed with tour " + tour2 + "\nand graph\n" + eg); } eg = new Graph(); eg.generateRandomEulerGraph(5, 7); tour1 = eg.euler(); eg.saveTour("test.euler", tour1); tour2 = eg.loadTour("test.euler"); if (!eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.4 Failed with tour " + tour2 + "\nand graph\n" + eg); } tour2 = eg.eulerSMK(false); if (!eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.4a Failed with tour " + tour2 + "\nand graph\n" + eg); } tour2 = eg.eulerSMK(true); if (!eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.4b Failed with tour " + tour2 + "\nand graph\n" + eg); } tour2.remove(2); if (eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.5 Failed with tour " + tour2 + "\nand graph\n" + eg); } eg.addAdjacencyEdge("1", "2"); eg.saveTour("test.euler", tour1, false); tour2 = eg.loadTour("test.euler"); if (!eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.6 Failed with tour " + tour2 + "\nand graph\n" + eg); } if (!eg.consistent()) { System.out.println("Test 9.6.0 Fail"); } eg.clear(); eg.addNode(n1); tour1 = eg.euler(); tour2 = new ArrayList<Node>(); if (!eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.6.1 Failed with tour " + tour2 + "\nand graph\n" + eg); } eg.generateRandomEulerGraph(2, 4); tour1 = eg.euler(); eg.saveTour("test.euler", tour1); tour2 = eg.loadTour("test.euler"); if (!eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.7 Failed with tour " + tour2 + "\nand graph\n" + eg); } tour2 = eg.eulerSMK(false); if (!eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.7a Failed with tour " + tour2 + "\nand graph\n" + eg); } tour2 = eg.eulerSMK(true); if (!eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.7b Failed with tour " + tour2 + "\nand graph\n" + eg); } tour2 = new ArrayList<Node>(); if (eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.8 Failed with tour " + tour2 + "\nand graph\n" + eg); } eg.addNode(new Node()); eg.saveTour("test.euler", tour1, false); tour2 = eg.loadTour("test.euler"); if (!eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.9 Failed with tour " + tour2 + "\nand graph\n" + eg); } if (!eg.consistent()) { System.out.println("Test 9.9.0 Fail"); } eg = new Graph(); eg.generateRandomEulerGraph(20, 30); tour2 = eg.euler(); if (!eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.10 Failed with tour " + tour2 + "\nand graph\n" + eg); } tour2 = eg.eulerSMK(false); if (!eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.10a Failed with tour " + tour2 + "\nand graph\n" + eg); } tour2 = eg.eulerSMK(true); if (!eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.10b Failed with tour " + tour2 + "\nand graph\n" + eg); } if (!eg.consistent()) { System.out.println("Test 9.10.0 Fail"); } Node nX0 = new Node("0"); Node nX1 = new Node("1"); Node nX2 = new Node("2"); Node nX3 = new Node("3"); Node nX4 = new Node("4"); eg = new Graph(); eg.addNode(nX0); eg.addNode(nX1); eg.addNode(nX2); eg.addNode(nX3); eg.addNode(nX4); eg.addEdge(new Edge(nX0, nX1)); eg.addEdge(new Edge(nX3, nX2)); eg.addEdge(new Edge(nX4, nX2)); eg.addEdge(new Edge(nX0, nX1)); eg.addEdge(new Edge(nX3, nX0)); eg.addEdge(new Edge(nX0, nX3)); eg.addEdge(new Edge(nX3, nX4)); tour2 = eg.euler(); if (!eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.11 Failed with tour " + tour2 + "\nand graph\n" + eg); } tour2 = eg.eulerSMK(false); if (!eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.11a Failed with tour " + tour2 + "\nand graph\n" + eg); } tour2 = eg.eulerSMK(true); if (!eg.eulerTourInGraph(tour2)) { System.out.println("Test 9.11b Failed with tour " + tour2 + "\nand graph\n" + eg); } System.out.print("Test 9 END"); // test the brute force tsp System.out.println(" | Test 10 START: tsp"); Graph tspGraph = new Graph(); ArrayList<Edge> tspTest = new ArrayList<Edge>(); if (!tspGraph.tsp().equals(tspTest)) { System.out.println("Test 10.1 Failed"); } Node tspN1 = new Node("A"); tspGraph.addNode(tspN1); if (!tspGraph.tsp().equals(tspTest)) { System.out.println("Test 10.2 Failed"); } Node tspN2 = new Node("B"); tspGraph.addNode(tspN2); Edge tspE1 = new Edge(tspN1, tspN2, 2); tspGraph.addEdge(tspE1); tspTest.add(tspE1); tspTest.add(tspE1); if (!tspGraph.tsp().equals(tspTest)) { System.out.println("Test 10.3 Failed"); } if (tspGraph.sumEdgeWeights(tspGraph.tsp()) != 4.0) { System.out.println("Test 10.4 Failed"); } Node tspN3 = new Node("C"); tspGraph.addNode(tspN3); Edge tspE2 = new Edge(tspN1, tspN3, 40); Edge tspE3 = new Edge(tspN2, tspN3, 3); tspGraph.addEdge(tspE2); tspGraph.addEdge(tspE3); if (tspGraph.sumEdgeWeights(tspGraph.tsp()) != 10.0) { System.out.println("Test 10.5 Failed"); } tspE2.setWeight(4); if (tspGraph.sumEdgeWeights(tspGraph.tsp()) != 9.0) { System.out.println("Test 10.6 Failed"); } Node tspN4 = new Node("D"); tspGraph.addNode(tspN4); tspGraph.addEdge(new Edge(tspN1, tspN4, 3.5)); tspGraph.addEdge(new Edge(tspN2, tspN4, 6)); tspGraph.addEdge(new Edge(tspN4, tspN3, 2.4)); if (tspGraph.sumEdgeWeights(tspGraph.tsp()) != 10.9) { System.out.println("Test 10.7 Failed"); } tspGraph.clear(); tspGraph.addAdjacencyEdge("A", "H", 17.0); tspGraph.addAdjacencyEdge("G", "H", 1.0); tspGraph.addAdjacencyEdge("H", "E", 2); tspGraph.addAdjacencyEdge("G", "E", 9.0); tspGraph.addAdjacencyEdge("E", "D", 20.0); tspGraph.addAdjacencyEdge("C", "D", 2.5); tspGraph.addAdjacencyEdge("C", "B", 3.0); tspGraph.addAdjacencyEdge("D", "B", 4.0); if (tspGraph.sumEdgeWeights(tspGraph.tsp()) != 89.5) { System.out.println("Test 10.8 Failed"); } tspGraph.clear(); tspGraph.addAdjacencyEdge("A", "H", "17", 17.0); tspGraph.addAdjacencyEdge("G", "H", "1", 1.0); tspGraph.addAdjacencyEdge("G", "A", "1", 1.0); tspGraph.addAdjacencyEdge("E", "D", "20", 20.0); tspGraph.addAdjacencyEdge("C", "D", "2 and a half", 2.5); tspGraph.addAdjacencyEdge("C", "B", "3", 3.0); tspGraph.addAdjacencyEdge("D", "B", "4", 4.0); if (tspGraph.tsp() != null) { System.out.println("Test 10.9 Failed"); } System.out.print("Test 10 END"); System.out.println(" | Test 11 START: Union Find"); UnionFind uf = new UnionFind(10); if (uf.find(9, 4)) { System.out.println("Test 11.1 Fail"); } uf.union(1, 2); if (uf.getParent()[1] != 2) { System.out.println("Test 11.2 Fail"); } if (uf.getParent()[2] != uf.ROOT) { System.out.println("Test 11.3 Fail"); } uf.union(3, 2); if (!uf.find(3, 2)) { System.out.println("Test 11.4 Fail"); } if (uf.find(3, 7)) { System.out.println("Test 11.5 Fail"); } if (uf.find(7, 3)) { System.out.println("Test 11.6 Fail"); } uf.union(5, 4); if (!uf.find(5, 4)) { System.out.println("Test 11.7 Fail"); } if (uf.find(3, 4)) { System.out.println("Test 11.8 Fail"); } if (uf.find(5, 7)) { System.out.println("Test 11.9 Fail"); } uf.union(3, 4); if (!uf.find(3, 4)) { System.out.println("Test 11.10 Fail"); } uf.union(4, 1); if (!uf.find(4, 3)) { System.out.println("Test 11.11 Fail"); } uf.union(7, 6); uf.union(8, 9); uf.union(8, 7); if (uf.find(7, 2)) { System.out.println("Test 11.12 Fail"); } uf.union(8, 4); if (!uf.find(7, 2)) { System.out.println("Test 11.13 Fail"); } if (uf.find(7, 10)) { System.out.println("Test 11.12 Fail"); } System.out.print("Test 11 END"); System.out.println(" | Test 12 START: mst"); Graph mstGraph = new Graph(); // generating a complete graph mstGraph.generateCompleteGraph(0); if (mstGraph.getNodes().size() != 0) { System.out.println("Test12.1.1 Fail"); } if (mstGraph.getEdges().size() != 0) { System.out.println("Test12.1.2 Fail"); } mstGraph.generateCompleteGraph(1); if (mstGraph.getNodes().size() != 1) { System.out.println("Test12.1.3 Fail"); } if (mstGraph.getEdges().size() != 0) { System.out.println("Test12.1.4 Fail"); } if (!mstGraph.consistent()) { System.out.println("Test 12.1.4.0 Fail"); } mstGraph.generateCompleteGraph(5); if (mstGraph.getNodes().size() != 5) { System.out.println("Test12.1.5 Fail"); } if (mstGraph.getEdges().size() != 10) { System.out.println("Test12.1.6 Fail"); } mstGraph.generateCompleteGraph(8); if (mstGraph.getNodes().size() != 8) { System.out.println("Test12.1.7 Fail"); } if (mstGraph.getEdges().size() != 28) { System.out.println("Test12.1.8 Fail"); } mstGraph.setEdgesWeights(1.0); if (mstGraph.sumEdgeWeights(mstGraph.prim()) != 7) { System.out.println("Test12.2.1 Fail"); } if (mstGraph.sumEdgeWeights(mstGraph.kruskal()) != 7) { System.out.println("Test12.2.2 Fail"); } mstGraph.clear(); ArrayList<Edge> mstCompare = new ArrayList<Edge>(); if (!mstCompare.equals(mstGraph.prim())) { System.out.println("Test12.2.3 Fail"); } if (!mstCompare.equals(mstGraph.kruskal())) { System.out.println("Test12.2.4 Fail"); } Node mstN1 = new Node("A"); Node mstN2 = new Node("B"); Node mstN3 = new Node("C"); mstGraph.addNode(mstN1); if (!mstCompare.equals(mstGraph.prim())) { System.out.println("Test12.2.5 Fail"); } if (!mstCompare.equals(mstGraph.kruskal())) { System.out.println("Test12.2.6 Fail"); } mstGraph.addNode(mstN2); if (mstGraph.prim() != null) { System.out.println("Test12.2.7 Fail"); } if (mstGraph.kruskal() != null) { System.out.println("Test12.2.8 Fail"); } Edge mstE1 = new Edge(mstN1, mstN2, "A", 1); mstGraph.addEdge(mstE1); mstCompare.add(mstE1); if (!mstCompare.equals(mstGraph.prim())) { System.out.println("Test12.2.9 Fail"); } if (!mstCompare.equals(mstGraph.kruskal())) { System.out.println("Test12.2.10 Fail"); } mstGraph.addNode(mstN3); Edge mstE2 = new Edge(mstN2, mstN3, "B", 5); Edge mstE3 = new Edge(mstN3, mstN1, "C", 2); Edge mstE4 = new Edge(mstN2, mstN2, "D", 1); mstGraph.addEdge(mstE2); mstGraph.addEdge(mstE3); mstGraph.addEdge(mstE4); mstCompare.add(mstE3); if (mstGraph.sumEdgeWeights(mstGraph.prim()) != 3) { System.out.println("Test12.2.11 Fail"); } if (mstGraph.sumEdgeWeights(mstGraph.kruskal()) != 3) { System.out.println("Test12.2.12 Fail"); } // generated graph test - randomly generate graphs of size // 1-10 nodes, edges 4-14, and compare prim against kruskal // on test fail, the graph should be printed for reference. for (int i = 1; i <= 10; i++) { mstGraph.generateRandomGraph(i, i + 3); mstGraph.randomlyWeightGraph(0, 100); ArrayList<Edge> prim = mstGraph.prim(); double primSum = 0; if (prim != null) { primSum = mstGraph.sumEdgeWeights(prim); } ArrayList<Edge> kruskal = mstGraph.kruskal(); double kruskalSum = 0; if (kruskal != null) { kruskalSum = mstGraph.sumEdgeWeights(kruskal); } if (primSum != kruskalSum) { System.out.println("Test 12.3." + i + " Failed - mst sums not equal"); System.out.println("Randomly Generated Graph"); System.out.println(mstGraph); } if (!mstGraph.consistent()) { System.out.println("Test 12.3." + i + ".0 Failed - graph consistency check failed"); System.out.println("Randomly Generated Graph"); System.out.println(mstGraph); } } System.out.print("Test 12 END"); // test the types System.out.println(" | Test 13 START: Node and Edge Types"); NodeType nt11 = new NodeType("nt11"); NodeType nt21 = new NodeType("nt21"); NodeType nt31 = new NodeType("nt31"); NodeType nt22 = new NodeType("nt22"); NodeType nt32 = new NodeType("nt32"); NodeType nt33 = new NodeType("nt33"); NodeType nt34 = new NodeType("nt34"); NodeType nt23 = new NodeType("nt23"); NodeType nt41 = new NodeType("nt41"); NodeType nt42 = new NodeType("nt42"); NodeType nt43 = new NodeType("nt43"); nt21.setParent(nt11); nt31.setParent(nt21); nt22.setParent(nt11); nt32.setParent(nt21); nt33.setParent(nt22); nt34.setParent(nt21); nt23.setParent(nt11); nt41.setParent(nt32); nt42.setParent(nt32); nt43.setParent(nt32); nt22.removeParent(); NodeType ntmove = (NodeType) nt33.getParent(); nt32.setParent(ntmove); if (nt11.setParent(nt31)) { System.out.println("Test 13.3.1 FAIL"); } if (!nt11.setParent(nt43)) { System.out.println("Test 13.3.2 FAIL"); } if (nt43.setParent(nt43)) { System.out.println("Test 13.3.3 FAIL"); } if (nt43.setParent(nt43)) { System.out.println("Test 13.3.4 FAIL"); } if (!nt43.ancestor(nt32)) { System.out.println("Test 13.3.5 FAIL"); } if (nt41.ancestor(nt41)) { System.out.println("Test 13.3.6 FAIL"); } if (!nt33.ancestor(nt22)) { System.out.println("Test 13.3.7 FAIL"); } if (nt41.ancestor(nt42)) { System.out.println("Test 13.3.8 FAIL"); } if (nt41.root() != nt22) { System.out.println("Test 13.3.9 FAIL"); } if (nt22.root() != nt22) { System.out.println("Test 13.3.10 FAIL"); } EdgeType et11 = new EdgeType("et11"); EdgeType et21 = new EdgeType("et21"); EdgeType et22 = new EdgeType("et22"); EdgeType et31 = new EdgeType("et31"); et21.setParent(et11); et31.setParent(et22); et22.setParent(et11); et21.setDirected(true); if (!et31.ancestor(et11)) { System.out.println("Test 13.4.1 FAIL"); } if (et11.ancestor(et21)) { System.out.println("Test 13.4.2 FAIL"); } if (et21.root() != et11) { System.out.println("Test 13.4.3 FAIL"); } if (et11.root() != et11) { System.out.println("Test 13.4.4 FAIL"); } Node nt1 = new Node("nt1", new Point(100, 100)); Node nt2 = new Node("nt2", nt32, new Point(110, 100)); Node nt3 = new Node("nt3", nt11, new Point(200, 200)); Edge et1 = new Edge(nt1, nt2, "e1", 3.0, et11); Edge et2 = new Edge(nt2, nt3, "e2"); Edge et3 = new Edge(nt1, nt3, "e3", 0.0, et31); Graph gt = new Graph("gt1"); gt.addNode(nt1); gt.addNode(nt2); gt.addNode(nt3); gt.addEdge(et1); gt.addEdge(et2); gt.addEdge(et3); if (nt1.getType() != Graph.DEFAULT_NODE_TYPE) { System.out.println("Test 13.5.1 FAIL"); } if (nt2.getType() != nt32) { System.out.println("Test 13.5.2 FAIL"); } nt2.setType(nt41); if (nt2.getType() != nt41) { System.out.println("Test 13.5.3 FAIL"); } if (et2.getType() != Graph.DEFAULT_EDGE_TYPE) { System.out.println("Test 13.5.4 FAIL"); } if (et3.getType() != et31) { System.out.println("Test 13.5.5 FAIL"); } et3.setType(Graph.DEFAULT_EDGE_TYPE); if (et3.getType() != Graph.DEFAULT_EDGE_TYPE) { System.out.println("Test 13.5.7 FAIL"); } if (Graph.DEFAULT_EDGE_TYPE.root() != Graph.DEFAULT_EDGE_TYPE) { System.out.println("Test 13.5.8 FAIL"); } System.out.println("Test 13 END"); System.out.println("End Graph Tests"); }
void addWeights() { for (Edge e : graph.getEdges()) e.setWeight(RANDOM.nextInt(100)); }