void testMultipleNetwork() { log("******************************************"); log("TESTING MultipleNetwork"); log("REQUIRES Network class to have been tested"); log("Creating an empty multiple network...",false); MultipleNetwork mnet; log("done!"); log("Adding seven global vertexes with different methods...",false); global_vertex_id gv0 = mnet.addVertex(); global_vertex_id gv1 = mnet.addVertex(); global_vertex_id gv2 = mnet.addVertex(); global_vertex_id gv3 = mnet.addVertex(); mnet.addVertexes(3); if (mnet.getNumVertexes()!=7) throw FailedUnitTestException("Wrong number of global vertexes"); log("done!"); log("Creating and adding three anonymous undirected and directed networks...",false); // Network 1 Network net1(false,false,false); vertex_id n1v0 = net1.addVertex(); vertex_id n1v1 = net1.addVertex(); vertex_id n1v2 = net1.addVertex(); // Network 2 Network net2(false,true,false); vertex_id n2v0 = net2.addVertex(); vertex_id n2v1 = net2.addVertex(); vertex_id n2v2 = net2.addVertex(); // Network 3 Network net3(false,true,false); vertex_id n3v0 = net3.addVertex(); vertex_id n3v1 = net3.addVertex(); vertex_id n3v2 = net3.addVertex(); network_id n1 = mnet.addNetwork(net1); network_id n2 = mnet.addNetwork(net2); network_id n3 = mnet.addNetwork(net3); if (mnet.getNumNetworks()!=3) throw FailedUnitTestException("Wrong number of networks"); log("done!"); log("Specifying vertex mappings...",false); // To network 1 mnet.map(gv0,n1v0,n1); mnet.map(gv1,n1v1,n1); mnet.map(gv2,n1v2,n1); // To network 2 mnet.map(gv0,n2v0,n2); mnet.map(gv1,n2v1,n2); mnet.map(gv3,n2v2,n2); // To network 3 mnet.map(gv0,n3v0,n3); mnet.map(gv2,n3v1,n3); mnet.map(gv3,n3v2,n3); if (mnet.getGlobalVertexId(n3v2,n3)!=gv3) throw FailedUnitTestException("Wrong mapping between global and local vertex"); if (mnet.getLocalVertexId(gv3,n2)!=n2v2) throw FailedUnitTestException("Wrong mapping between global and local vertex"); log("done!"); /* behavior to be decided and tested log("Adding duplicate vertex mapping...",false); try { mnet.map(gv3,n3v2,n3); // should not arrive here throw FailedUnitTestException("Duplicate value non caught"); } catch (DuplicateElementException& ex) { log("correctly thrown Exception!"); } */ log("Adding five edges...",false); // they can also be added directly to the single networks mnet.getNetwork(n1)->addEdge(n1v0,n1v1); mnet.getNetwork(n2)->addEdge(n2v0,n2v1); mnet.getNetwork(n2)->addEdge(n2v1,n2v2); mnet.getNetwork(n3)->addEdge(n3v0,n3v2); mnet.getNetwork(n3)->addEdge(n3v1,n3v2); if (mnet.getNumEdges()!=5) throw FailedUnitTestException("Wrong number of global edges"); log("done!"); log("Mapping to a non existing network...",false); try { mnet.map(gv3,n2v2,n3+1); // should not arrive here throw FailedUnitTestException("Non existing network non caught"); } catch (ElementNotFoundException& ex) { log("[FAIL] done!"); } log("Mapping between non existing vertexes...",false); try { mnet.map(gv3,n2v2+1,n2); // should not arrive here throw FailedUnitTestException("Non existing vertex non caught"); } catch (ElementNotFoundException& ex) { log("[FAIL] done!"); } log("TEST SUCCESSFULLY COMPLETED (MultipleNetwork class - numeric identifiers)"); log("Printing final multiple network information:"); print(mnet); }
void testMultilayerNetwork() { log("**************************************************************"); log("TESTING basic multilayer network components (global_vertex_id, global_edge_id, network_id)...",false); /* * these are normally automatically created * by functions of the MultilayerNetwork class. * However, here we test them by directly manipulating them. */ network_id nid1 = 0; network_id nid2 = 1; vertex_id vid1 = 0; vertex_id vid2 = 1; vertex_id vid3 = 0; global_vertex_id gvid1(vid1,nid1); global_vertex_id gvid2(vid2,nid1); global_vertex_id gvid3(vid3,nid2); // a directed edge global_edge_id e1(vid1,vid2,nid1,true); // another directed edge global_edge_id e2(vid2,vid1,nid1,true); // a third directed edge global_edge_id e3(vid2,vid1,nid1,true); // an undirected edge global_edge_id e4(vid1,vid2,nid1,false); // another undirected edge global_edge_id e5(vid2,vid1,nid1,false); if (e1==e2) throw FailedUnitTestException("Wrong edge_id comparison"); if (e2!=e3) throw FailedUnitTestException("Wrong edge_id comparison"); if (e4!=e5) throw FailedUnitTestException("Wrong edge_id comparison"); log("done!"); log("******************************************"); log("TESTING MultilayerNetwork"); log("REQUIRES Network class having been tested"); log("Creating an empty multiple network...",false); MultilayerNetwork mnet; log("done!"); log("Creating and adding three anonymous undirected and directed networks...",false); // Network 1 Network net1(false,false,false); vertex_id n1v0 = net1.addVertex(); vertex_id n1v1 = net1.addVertex(); /*vertex_id n1v2 = */net1.addVertex(); // Network 2 Network net2(false,true,false); vertex_id n2v0 = net2.addVertex(); vertex_id n2v1 = net2.addVertex(); vertex_id n2v2 = net2.addVertex(); // Network 3 Network net3(false,true,false); vertex_id n3v0 = net3.addVertex(); vertex_id n3v1 = net3.addVertex(); vertex_id n3v2 = net3.addVertex(); network_id n1 = mnet.addNetwork(net1); network_id n2 = mnet.addNetwork(net2); network_id n3 = mnet.addNetwork(net3); if (mnet.getNumNetworks()!=3) throw FailedUnitTestException("Wrong number of networks"); log("done!"); // TODO Check named networks log("Adding five edges...",false); // they can also be added directly to the single networks mnet.getNetwork(n1).addEdge(n1v0,n1v1); mnet.getNetwork(n2).addEdge(n2v0,n2v1); mnet.getNetwork(n2).addEdge(n2v1,n2v2); mnet.getNetwork(n3).addEdge(n3v0,n3v2); mnet.getNetwork(n3).addEdge(n3v1,n3v2); if (mnet.getNumEdges()!=5) throw FailedUnitTestException("Wrong number of global edges"); log("done!"); // Iterating through global edges and vertexes std::set<global_vertex_id> vertexes; std::set<global_edge_id> edges; log("TEST SUCCESSFULLY COMPLETED (MultilayerNetwork class - numeric identifiers)"); log("Printing final multiple network information:"); print(mnet); }