/* -*- mode: C++; indent-tabs-mode: nil; -*- * * This file is a part of LEMON, a generic C++ optimization library. * * Copyright (C) 2003-2008 * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport * (Egervary Research Group on Combinatorial Optimization, EGRES). * * Permission to use, modify and distribute this software is granted * provided that this copyright notice appears in all copies. For * precise terms see the accompanying LICENSE file. * * This software is provided "AS IS" with no warranty of any kind, * express or implied, and with no claim as to its suitability for any * purpose. * */ #include #include #include // #include // #include #include "test_tools.h" #include "graph_test.h" using namespace lemon; using namespace lemon::concepts; template void checkGraphBuild() { TEMPLATE_GRAPH_TYPEDEFS(Graph); Graph G; checkGraphNodeList(G, 0); checkGraphEdgeList(G, 0); checkGraphArcList(G, 0); Node n1 = G.addNode(), n2 = G.addNode(), n3 = G.addNode(); checkGraphNodeList(G, 3); checkGraphEdgeList(G, 0); checkGraphArcList(G, 0); Edge e1 = G.addEdge(n1, n2); check((G.u(e1) == n1 && G.v(e1) == n2) || (G.u(e1) == n2 && G.v(e1) == n1), "Wrong edge"); checkGraphNodeList(G, 3); checkGraphEdgeList(G, 1); checkGraphArcList(G, 2); checkGraphIncEdgeArcLists(G, n1, 1); checkGraphIncEdgeArcLists(G, n2, 1); checkGraphIncEdgeArcLists(G, n3, 0); checkGraphConEdgeList(G, 1); checkGraphConArcList(G, 2); Edge e2 = G.addEdge(n2, n1), e3 = G.addEdge(n2, n3); checkGraphNodeList(G, 3); checkGraphEdgeList(G, 3); checkGraphArcList(G, 6); checkGraphIncEdgeArcLists(G, n1, 2); checkGraphIncEdgeArcLists(G, n2, 3); checkGraphIncEdgeArcLists(G, n3, 1); checkGraphConEdgeList(G, 3); checkGraphConArcList(G, 6); checkArcDirections(G); checkNodeIds(G); checkArcIds(G); checkEdgeIds(G); checkGraphNodeMap(G); checkGraphArcMap(G); checkGraphEdgeMap(G); } template void checkGraphAlter() { TEMPLATE_GRAPH_TYPEDEFS(Graph); Graph G; Node n1 = G.addNode(), n2 = G.addNode(), n3 = G.addNode(), n4 = G.addNode(); Edge e1 = G.addEdge(n1, n2), e2 = G.addEdge(n2, n1), e3 = G.addEdge(n2, n3), e4 = G.addEdge(n1, n4), e5 = G.addEdge(n4, n3); checkGraphNodeList(G, 4); checkGraphEdgeList(G, 5); checkGraphArcList(G, 10); // Check changeU() and changeV() if (G.u(e2) == n2) { G.changeU(e2, n3); } else { G.changeV(e2, n3); } checkGraphNodeList(G, 4); checkGraphEdgeList(G, 5); checkGraphArcList(G, 10); checkGraphIncEdgeArcLists(G, n1, 3); checkGraphIncEdgeArcLists(G, n2, 2); checkGraphIncEdgeArcLists(G, n3, 3); checkGraphIncEdgeArcLists(G, n4, 2); checkGraphConEdgeList(G, 5); checkGraphConArcList(G, 10); if (G.u(e2) == n1) { G.changeU(e2, n2); } else { G.changeV(e2, n2); } checkGraphNodeList(G, 4); checkGraphEdgeList(G, 5); checkGraphArcList(G, 10); checkGraphIncEdgeArcLists(G, n1, 2); checkGraphIncEdgeArcLists(G, n2, 3); checkGraphIncEdgeArcLists(G, n3, 3); checkGraphIncEdgeArcLists(G, n4, 2); checkGraphConEdgeList(G, 5); checkGraphConArcList(G, 10); // Check contract() G.contract(n1, n4, false); checkGraphNodeList(G, 3); checkGraphEdgeList(G, 5); checkGraphArcList(G, 10); checkGraphIncEdgeArcLists(G, n1, 4); checkGraphIncEdgeArcLists(G, n2, 3); checkGraphIncEdgeArcLists(G, n3, 3); checkGraphConEdgeList(G, 5); checkGraphConArcList(G, 10); G.contract(n2, n3); checkGraphNodeList(G, 2); checkGraphEdgeList(G, 3); checkGraphArcList(G, 6); checkGraphIncEdgeArcLists(G, n1, 4); checkGraphIncEdgeArcLists(G, n2, 2); checkGraphConEdgeList(G, 3); checkGraphConArcList(G, 6); } template void checkGraphErase() { TEMPLATE_GRAPH_TYPEDEFS(Graph); Graph G; Node n1 = G.addNode(), n2 = G.addNode(), n3 = G.addNode(), n4 = G.addNode(); Edge e1 = G.addEdge(n1, n2), e2 = G.addEdge(n2, n1), e3 = G.addEdge(n2, n3), e4 = G.addEdge(n1, n4), e5 = G.addEdge(n4, n3); // Check edge deletion G.erase(e2); checkGraphNodeList(G, 4); checkGraphEdgeList(G, 4); checkGraphArcList(G, 8); checkGraphIncEdgeArcLists(G, n1, 2); checkGraphIncEdgeArcLists(G, n2, 2); checkGraphIncEdgeArcLists(G, n3, 2); checkGraphIncEdgeArcLists(G, n4, 2); checkGraphConEdgeList(G, 4); checkGraphConArcList(G, 8); // Check node deletion G.erase(n3); checkGraphNodeList(G, 3); checkGraphEdgeList(G, 2); checkGraphArcList(G, 4); checkGraphIncEdgeArcLists(G, n1, 2); checkGraphIncEdgeArcLists(G, n2, 1); checkGraphIncEdgeArcLists(G, n4, 1); checkGraphConEdgeList(G, 2); checkGraphConArcList(G, 4); } template void checkGraphSnapshot() { TEMPLATE_GRAPH_TYPEDEFS(Graph); Graph G; Node n1 = G.addNode(), n2 = G.addNode(), n3 = G.addNode(); Edge e1 = G.addEdge(n1, n2), e2 = G.addEdge(n2, n1), e3 = G.addEdge(n2, n3); checkGraphNodeList(G, 3); checkGraphEdgeList(G, 3); checkGraphArcList(G, 6); typename Graph::Snapshot snapshot(G); Node n = G.addNode(); G.addEdge(n3, n); G.addEdge(n, n3); G.addEdge(n3, n2); checkGraphNodeList(G, 4); checkGraphEdgeList(G, 6); checkGraphArcList(G, 12); snapshot.restore(); checkGraphNodeList(G, 3); checkGraphEdgeList(G, 3); checkGraphArcList(G, 6); checkGraphIncEdgeArcLists(G, n1, 2); checkGraphIncEdgeArcLists(G, n2, 3); checkGraphIncEdgeArcLists(G, n3, 1); checkGraphConEdgeList(G, 3); checkGraphConArcList(G, 6); checkNodeIds(G); checkEdgeIds(G); checkArcIds(G); checkGraphNodeMap(G); checkGraphEdgeMap(G); checkGraphArcMap(G); G.addNode(); snapshot.save(G); G.addEdge(G.addNode(), G.addNode()); snapshot.restore(); checkGraphNodeList(G, 4); checkGraphEdgeList(G, 3); checkGraphArcList(G, 6); } void checkConcepts() { { // Checking graph components checkConcept(); checkConcept, IDableGraphComponent<> >(); checkConcept, IterableGraphComponent<> >(); checkConcept, MappableGraphComponent<> >(); } { // Checking skeleton graph checkConcept(); } { // Checking ListGraph checkConcept(); checkConcept, ListGraph>(); checkConcept, ListGraph>(); checkConcept, ListGraph>(); checkConcept, ListGraph>(); } { // Checking SmartGraph checkConcept(); checkConcept, SmartGraph>(); checkConcept, SmartGraph>(); checkConcept, SmartGraph>(); } // { // Checking FullGraph // checkConcept(); // checkGraphIterators(); // } // { // Checking GridGraph // checkConcept(); // checkGraphIterators(); // } } template void checkGraphValidity() { TEMPLATE_GRAPH_TYPEDEFS(Graph); Graph g; Node n1 = g.addNode(), n2 = g.addNode(), n3 = g.addNode(); Edge e1 = g.addEdge(n1, n2), e2 = g.addEdge(n2, n3); check(g.valid(n1), "Wrong validity check"); check(g.valid(e1), "Wrong validity check"); check(g.valid(g.direct(e1, true)), "Wrong validity check"); check(!g.valid(g.nodeFromId(-1)), "Wrong validity check"); check(!g.valid(g.edgeFromId(-1)), "Wrong validity check"); check(!g.valid(g.arcFromId(-1)), "Wrong validity check"); } template void checkGraphValidityErase() { TEMPLATE_GRAPH_TYPEDEFS(Graph); Graph g; Node n1 = g.addNode(), n2 = g.addNode(), n3 = g.addNode(); Edge e1 = g.addEdge(n1, n2), e2 = g.addEdge(n2, n3); check(g.valid(n1), "Wrong validity check"); check(g.valid(e1), "Wrong validity check"); check(g.valid(g.direct(e1, true)), "Wrong validity check"); g.erase(n1); check(!g.valid(n1), "Wrong validity check"); check(g.valid(n2), "Wrong validity check"); check(g.valid(n3), "Wrong validity check"); check(!g.valid(e1), "Wrong validity check"); check(g.valid(e2), "Wrong validity check"); check(!g.valid(g.nodeFromId(-1)), "Wrong validity check"); check(!g.valid(g.edgeFromId(-1)), "Wrong validity check"); check(!g.valid(g.arcFromId(-1)), "Wrong validity check"); } // void checkGridGraph(const GridGraph& g, int w, int h) { // check(g.width() == w, "Wrong width"); // check(g.height() == h, "Wrong height"); // for (int i = 0; i < w; ++i) { // for (int j = 0; j < h; ++j) { // check(g.col(g(i, j)) == i, "Wrong col"); // check(g.row(g(i, j)) == j, "Wrong row"); // } // } // for (int i = 0; i < w; ++i) { // for (int j = 0; j < h - 1; ++j) { // check(g.source(g.down(g(i, j))) == g(i, j), "Wrong down"); // check(g.target(g.down(g(i, j))) == g(i, j + 1), "Wrong down"); // } // check(g.down(g(i, h - 1)) == INVALID, "Wrong down"); // } // for (int i = 0; i < w; ++i) { // for (int j = 1; j < h; ++j) { // check(g.source(g.up(g(i, j))) == g(i, j), "Wrong up"); // check(g.target(g.up(g(i, j))) == g(i, j - 1), "Wrong up"); // } // check(g.up(g(i, 0)) == INVALID, "Wrong up"); // } // for (int j = 0; j < h; ++j) { // for (int i = 0; i < w - 1; ++i) { // check(g.source(g.right(g(i, j))) == g(i, j), "Wrong right"); // check(g.target(g.right(g(i, j))) == g(i + 1, j), "Wrong right"); // } // check(g.right(g(w - 1, j)) == INVALID, "Wrong right"); // } // for (int j = 0; j < h; ++j) { // for (int i = 1; i < w; ++i) { // check(g.source(g.left(g(i, j))) == g(i, j), "Wrong left"); // check(g.target(g.left(g(i, j))) == g(i - 1, j), "Wrong left"); // } // check(g.left(g(0, j)) == INVALID, "Wrong left"); // } // } void checkGraphs() { { // Checking ListGraph checkGraphBuild(); checkGraphAlter(); checkGraphErase(); checkGraphSnapshot(); checkGraphValidityErase(); } { // Checking SmartGraph checkGraphBuild(); checkGraphSnapshot(); checkGraphValidity(); } // { // Checking FullGraph // FullGraph g(5); // checkGraphNodeList(g, 5); // checkGraphEdgeList(g, 10); // } // { // Checking GridGraph // GridGraph g(5, 6); // checkGraphNodeList(g, 30); // checkGraphEdgeList(g, 49); // checkGridGraph(g, 5, 6); // } } int main() { checkConcepts(); checkGraphs(); return 0; }