/* -*- 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
#include<lemon/concept_check.h>
#include<lemon/list_graph.h>
#include<lemon/smart_graph.h>
#include<lemon/concepts/digraph.h>
#include<lemon/concepts/graph.h>
#include<lemon/adaptors.h>
#include"test/test_tools.h"
#include"test/graph_test.h"
void checkReverseDigraph() {
checkConcept<concepts::Digraph, ReverseDigraph<concepts::Digraph> >();
typedef ListDigraph Digraph;
typedef ReverseDigraph<Digraph> Adaptor;
Adaptor adaptor(digraph);
Digraph::Node n1 = digraph.addNode();
Digraph::Node n2 = digraph.addNode();
Digraph::Node n3 = digraph.addNode();
Digraph::Arc a1 = digraph.addArc(n1, n2);
Digraph::Arc a2 = digraph.addArc(n1, n3);
Digraph::Arc a3 = digraph.addArc(n2, n3);
checkGraphNodeList(adaptor, 3);
checkGraphArcList(adaptor, 3);
checkGraphConArcList(adaptor, 3);
checkGraphOutArcList(adaptor, n1, 0);
checkGraphOutArcList(adaptor, n2, 1);
checkGraphOutArcList(adaptor, n3, 2);
checkGraphInArcList(adaptor, n1, 2);
checkGraphInArcList(adaptor, n2, 1);
checkGraphInArcList(adaptor, n3, 0);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
for (Adaptor::ArcIt a(adaptor); a != INVALID; ++a) {
check(adaptor.source(a) == digraph.target(a), "Wrong reverse");
check(adaptor.target(a) == digraph.source(a), "Wrong reverse");
checkConcept<concepts::Digraph,
SubDigraph<concepts::Digraph,
concepts::Digraph::NodeMap<bool>,
concepts::Digraph::ArcMap<bool> > >();
typedef ListDigraph Digraph;
typedef Digraph::NodeMap<bool> NodeFilter;
typedef Digraph::ArcMap<bool> ArcFilter;
typedef SubDigraph<Digraph, NodeFilter, ArcFilter> Adaptor;
NodeFilter node_filter(digraph);
ArcFilter arc_filter(digraph);
Adaptor adaptor(digraph, node_filter, arc_filter);
Digraph::Node n1 = digraph.addNode();
Digraph::Node n2 = digraph.addNode();
Digraph::Node n3 = digraph.addNode();
Digraph::Arc a1 = digraph.addArc(n1, n2);
Digraph::Arc a2 = digraph.addArc(n1, n3);
Digraph::Arc a3 = digraph.addArc(n2, n3);
node_filter[n1] = node_filter[n2] = node_filter[n3] = true;
arc_filter[a1] = arc_filter[a2] = arc_filter[a3] = true;
checkGraphNodeList(adaptor, 3);
checkGraphArcList(adaptor, 3);
checkGraphConArcList(adaptor, 3);
checkGraphOutArcList(adaptor, n1, 2);
checkGraphOutArcList(adaptor, n2, 1);
checkGraphOutArcList(adaptor, n3, 0);
checkGraphInArcList(adaptor, n1, 0);
checkGraphInArcList(adaptor, n2, 1);
checkGraphInArcList(adaptor, n3, 2);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkGraphNodeList(adaptor, 3);
checkGraphArcList(adaptor, 2);
checkGraphConArcList(adaptor, 2);
checkGraphOutArcList(adaptor, n1, 1);
checkGraphOutArcList(adaptor, n2, 1);
checkGraphOutArcList(adaptor, n3, 0);
checkGraphInArcList(adaptor, n1, 0);
checkGraphInArcList(adaptor, n2, 1);
checkGraphInArcList(adaptor, n3, 1);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkGraphNodeList(adaptor, 2);
checkGraphArcList(adaptor, 1);
checkGraphConArcList(adaptor, 1);
checkGraphOutArcList(adaptor, n2, 1);
checkGraphOutArcList(adaptor, n3, 0);
checkGraphInArcList(adaptor, n2, 0);
checkGraphInArcList(adaptor, n3, 1);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
node_filter[n1] = node_filter[n2] = node_filter[n3] = false;
arc_filter[a1] = arc_filter[a2] = arc_filter[a3] = false;
checkGraphNodeList(adaptor, 0);
checkGraphArcList(adaptor, 0);
checkGraphConArcList(adaptor, 0);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
void checkFilterNodes1() {
checkConcept<concepts::Digraph,
FilterNodes<concepts::Digraph,
concepts::Digraph::NodeMap<bool> > >();
typedef ListDigraph Digraph;
typedef Digraph::NodeMap<bool> NodeFilter;
typedef FilterNodes<Digraph, NodeFilter> Adaptor;
NodeFilter node_filter(digraph);
Adaptor adaptor(digraph, node_filter);
Digraph::Node n1 = digraph.addNode();
Digraph::Node n2 = digraph.addNode();
Digraph::Node n3 = digraph.addNode();
Digraph::Arc a1 = digraph.addArc(n1, n2);
Digraph::Arc a2 = digraph.addArc(n1, n3);
Digraph::Arc a3 = digraph.addArc(n2, n3);
node_filter[n1] = node_filter[n2] = node_filter[n3] = true;
checkGraphNodeList(adaptor, 3);
checkGraphArcList(adaptor, 3);
checkGraphConArcList(adaptor, 3);
checkGraphOutArcList(adaptor, n1, 2);
checkGraphOutArcList(adaptor, n2, 1);
checkGraphOutArcList(adaptor, n3, 0);
checkGraphInArcList(adaptor, n1, 0);
checkGraphInArcList(adaptor, n2, 1);
checkGraphInArcList(adaptor, n3, 2);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkGraphNodeList(adaptor, 2);
checkGraphArcList(adaptor, 1);
checkGraphConArcList(adaptor, 1);
checkGraphOutArcList(adaptor, n2, 1);
checkGraphOutArcList(adaptor, n3, 0);
checkGraphInArcList(adaptor, n2, 0);
checkGraphInArcList(adaptor, n3, 1);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
node_filter[n1] = node_filter[n2] = node_filter[n3] = false;
checkGraphNodeList(adaptor, 0);
checkGraphArcList(adaptor, 0);
checkGraphConArcList(adaptor, 0);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkConcept<concepts::Digraph,
FilterArcs<concepts::Digraph,
concepts::Digraph::ArcMap<bool> > >();
typedef ListDigraph Digraph;
typedef Digraph::ArcMap<bool> ArcFilter;
typedef FilterArcs<Digraph, ArcFilter> Adaptor;
ArcFilter arc_filter(digraph);
Adaptor adaptor(digraph, arc_filter);
Digraph::Node n1 = digraph.addNode();
Digraph::Node n2 = digraph.addNode();
Digraph::Node n3 = digraph.addNode();
Digraph::Arc a1 = digraph.addArc(n1, n2);
Digraph::Arc a2 = digraph.addArc(n1, n3);
Digraph::Arc a3 = digraph.addArc(n2, n3);
arc_filter[a1] = arc_filter[a2] = arc_filter[a3] = true;
checkGraphNodeList(adaptor, 3);
checkGraphArcList(adaptor, 3);
checkGraphConArcList(adaptor, 3);
checkGraphOutArcList(adaptor, n1, 2);
checkGraphOutArcList(adaptor, n2, 1);
checkGraphOutArcList(adaptor, n3, 0);
checkGraphInArcList(adaptor, n1, 0);
checkGraphInArcList(adaptor, n2, 1);
checkGraphInArcList(adaptor, n3, 2);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkGraphNodeList(adaptor, 3);
checkGraphArcList(adaptor, 2);
checkGraphConArcList(adaptor, 2);
checkGraphOutArcList(adaptor, n1, 1);
checkGraphOutArcList(adaptor, n2, 1);
checkGraphOutArcList(adaptor, n3, 0);
checkGraphInArcList(adaptor, n1, 0);
checkGraphInArcList(adaptor, n2, 1);
checkGraphInArcList(adaptor, n3, 1);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
arc_filter[a1] = arc_filter[a2] = arc_filter[a3] = false;
checkGraphNodeList(adaptor, 3);
checkGraphArcList(adaptor, 0);
checkGraphConArcList(adaptor, 0);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkConcept<concepts::Graph, Undirector<concepts::Digraph> >();
typedef ListDigraph Digraph;
typedef Undirector<Digraph> Adaptor;
Adaptor adaptor(digraph);
Digraph::Node n1 = digraph.addNode();
Digraph::Node n2 = digraph.addNode();
Digraph::Node n3 = digraph.addNode();
Digraph::Arc a1 = digraph.addArc(n1, n2);
Digraph::Arc a2 = digraph.addArc(n1, n3);
Digraph::Arc a3 = digraph.addArc(n2, n3);
checkGraphNodeList(adaptor, 3);
checkGraphArcList(adaptor, 6);
checkGraphEdgeList(adaptor, 3);
checkGraphConArcList(adaptor, 6);
checkGraphConEdgeList(adaptor, 3);
checkGraphOutArcList(adaptor, n1, 2);
checkGraphOutArcList(adaptor, n2, 2);
checkGraphOutArcList(adaptor, n3, 2);
checkGraphInArcList(adaptor, n1, 2);
checkGraphInArcList(adaptor, n2, 2);
checkGraphInArcList(adaptor, n3, 2);
checkGraphIncEdgeList(adaptor, n1, 2);
checkGraphIncEdgeList(adaptor, n2, 2);
checkGraphIncEdgeList(adaptor, n3, 2);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkGraphEdgeMap(adaptor);
for (Adaptor::EdgeIt e(adaptor); e != INVALID; ++e) {
check(adaptor.u(e) == digraph.source(e), "Wrong undir");
check(adaptor.v(e) == digraph.target(e), "Wrong undir");
checkConcept<concepts::Digraph,
Residual<concepts::Digraph,
concepts::Digraph::ArcMap<int>,
concepts::Digraph::ArcMap<int> > >();
typedef ListDigraph Digraph;
typedef Digraph::ArcMap<int> IntArcMap;
typedef Residual<Digraph, IntArcMap> Adaptor;
IntArcMap capacity(digraph), flow(digraph);
Adaptor adaptor(digraph, capacity, flow);
Digraph::Node n1 = digraph.addNode();
Digraph::Node n2 = digraph.addNode();
Digraph::Node n3 = digraph.addNode();
Digraph::Node n4 = digraph.addNode();
Digraph::Arc a1 = digraph.addArc(n1, n2);
Digraph::Arc a2 = digraph.addArc(n1, n3);
Digraph::Arc a3 = digraph.addArc(n1, n4);
Digraph::Arc a4 = digraph.addArc(n2, n3);
Digraph::Arc a5 = digraph.addArc(n2, n4);
Digraph::Arc a6 = digraph.addArc(n3, n4);
for (Adaptor::ArcIt a(adaptor); a != INVALID; ++a) {
checkGraphNodeList(adaptor, 4);
checkGraphArcList(adaptor, 6);
checkGraphConArcList(adaptor, 6);
checkGraphOutArcList(adaptor, n1, 3);
checkGraphOutArcList(adaptor, n2, 2);
checkGraphOutArcList(adaptor, n3, 1);
checkGraphOutArcList(adaptor, n4, 0);
checkGraphInArcList(adaptor, n1, 0);
checkGraphInArcList(adaptor, n2, 1);
checkGraphInArcList(adaptor, n3, 2);
checkGraphInArcList(adaptor, n4, 3);
for (Adaptor::ArcIt a(adaptor); a != INVALID; ++a) {
flow[a] = capacity[a] / 2;
checkGraphNodeList(adaptor, 4);
checkGraphArcList(adaptor, 12);
checkGraphConArcList(adaptor, 12);
checkGraphOutArcList(adaptor, n1, 3);
checkGraphOutArcList(adaptor, n2, 3);
checkGraphOutArcList(adaptor, n3, 3);
checkGraphOutArcList(adaptor, n4, 3);
checkGraphInArcList(adaptor, n1, 3);
checkGraphInArcList(adaptor, n2, 3);
checkGraphInArcList(adaptor, n3, 3);
checkGraphInArcList(adaptor, n4, 3);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
for (Adaptor::ArcIt a(adaptor); a != INVALID; ++a) {
checkGraphNodeList(adaptor, 4);
checkGraphArcList(adaptor, 6);
checkGraphConArcList(adaptor, 6);
checkGraphOutArcList(adaptor, n1, 0);
checkGraphOutArcList(adaptor, n2, 1);
checkGraphOutArcList(adaptor, n3, 2);
checkGraphOutArcList(adaptor, n4, 3);
checkGraphInArcList(adaptor, n1, 3);
checkGraphInArcList(adaptor, n2, 2);
checkGraphInArcList(adaptor, n3, 1);
checkGraphInArcList(adaptor, n4, 0);
for (Adaptor::ArcIt a(adaptor); a != INVALID; ++a) {
Bfs<Adaptor> bfs(adaptor);
if (!bfs.reached(n4)) break;
Path<Adaptor> p = bfs.path(n4);
int min = std::numeric_limits<int>::max();
for (Path<Adaptor>::ArcIt a(p); a != INVALID; ++a) {
if (adaptor.residualCapacity(a) < min)
min = adaptor.residualCapacity(a);
for (Path<Adaptor>::ArcIt a(p); a != INVALID; ++a) {
check(flow_value == 18, "Wrong flow with res graph adaptor");
checkConcept<concepts::Digraph, SplitNodes<concepts::Digraph> >();
typedef ListDigraph Digraph;
typedef SplitNodes<Digraph> Adaptor;
Adaptor adaptor(digraph);
Digraph::Node n1 = digraph.addNode();
Digraph::Node n2 = digraph.addNode();
Digraph::Node n3 = digraph.addNode();
Digraph::Arc a1 = digraph.addArc(n1, n2);
Digraph::Arc a2 = digraph.addArc(n1, n3);
Digraph::Arc a3 = digraph.addArc(n2, n3);
checkGraphNodeList(adaptor, 6);
checkGraphArcList(adaptor, 6);
checkGraphConArcList(adaptor, 6);
checkGraphOutArcList(adaptor, adaptor.inNode(n1), 1);
checkGraphOutArcList(adaptor, adaptor.outNode(n1), 2);
checkGraphOutArcList(adaptor, adaptor.inNode(n2), 1);
checkGraphOutArcList(adaptor, adaptor.outNode(n2), 1);
checkGraphOutArcList(adaptor, adaptor.inNode(n3), 1);
checkGraphOutArcList(adaptor, adaptor.outNode(n3), 0);
checkGraphInArcList(adaptor, adaptor.inNode(n1), 0);
checkGraphInArcList(adaptor, adaptor.outNode(n1), 1);
checkGraphInArcList(adaptor, adaptor.inNode(n2), 1);
checkGraphInArcList(adaptor, adaptor.outNode(n2), 1);
checkGraphInArcList(adaptor, adaptor.inNode(n3), 2);
checkGraphInArcList(adaptor, adaptor.outNode(n3), 1);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
for (Adaptor::ArcIt a(adaptor); a != INVALID; ++a) {
if (adaptor.origArc(a)) {
check(adaptor.source(a) == adaptor.outNode(digraph.source(oa)),
check(adaptor.target(a) == adaptor.inNode(digraph.target(oa)),
check(adaptor.source(a) == adaptor.inNode(on), "Wrong split");
check(adaptor.target(a) == adaptor.outNode(on), "Wrong split");
checkConcept<concepts::Graph,
SubGraph<concepts::Graph,
concepts::Graph::NodeMap<bool>,
concepts::Graph::EdgeMap<bool> > >();
typedef Graph::NodeMap<bool> NodeFilter;
typedef Graph::EdgeMap<bool> EdgeFilter;
typedef SubGraph<Graph, NodeFilter, EdgeFilter> Adaptor;
NodeFilter node_filter(graph);
EdgeFilter edge_filter(graph);
Adaptor adaptor(graph, node_filter, edge_filter);
Graph::Node n1 = graph.addNode();
Graph::Node n2 = graph.addNode();
Graph::Node n3 = graph.addNode();
Graph::Node n4 = graph.addNode();
Graph::Edge e1 = graph.addEdge(n1, n2);
Graph::Edge e2 = graph.addEdge(n1, n3);
Graph::Edge e3 = graph.addEdge(n2, n3);
Graph::Edge e4 = graph.addEdge(n3, n4);
node_filter[n1] = node_filter[n2] = node_filter[n3] = node_filter[n4] = true;
edge_filter[e1] = edge_filter[e2] = edge_filter[e3] = edge_filter[e4] = true;
checkGraphNodeList(adaptor, 4);
checkGraphArcList(adaptor, 8);
checkGraphEdgeList(adaptor, 4);
checkGraphConArcList(adaptor, 8);
checkGraphConEdgeList(adaptor, 4);
checkGraphOutArcList(adaptor, n1, 2);
checkGraphOutArcList(adaptor, n2, 2);
checkGraphOutArcList(adaptor, n3, 3);
checkGraphOutArcList(adaptor, n4, 1);
checkGraphInArcList(adaptor, n1, 2);
checkGraphInArcList(adaptor, n2, 2);
checkGraphInArcList(adaptor, n3, 3);
checkGraphInArcList(adaptor, n4, 1);
checkGraphIncEdgeList(adaptor, n1, 2);
checkGraphIncEdgeList(adaptor, n2, 2);
checkGraphIncEdgeList(adaptor, n3, 3);
checkGraphIncEdgeList(adaptor, n4, 1);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkGraphEdgeMap(adaptor);
checkGraphNodeList(adaptor, 4);
checkGraphArcList(adaptor, 6);
checkGraphEdgeList(adaptor, 3);
checkGraphConArcList(adaptor, 6);
checkGraphConEdgeList(adaptor, 3);
checkGraphOutArcList(adaptor, n1, 1);
checkGraphOutArcList(adaptor, n2, 2);
checkGraphOutArcList(adaptor, n3, 2);
checkGraphOutArcList(adaptor, n4, 1);
checkGraphInArcList(adaptor, n1, 1);
checkGraphInArcList(adaptor, n2, 2);
checkGraphInArcList(adaptor, n3, 2);
checkGraphInArcList(adaptor, n4, 1);
checkGraphIncEdgeList(adaptor, n1, 1);
checkGraphIncEdgeList(adaptor, n2, 2);
checkGraphIncEdgeList(adaptor, n3, 2);
checkGraphIncEdgeList(adaptor, n4, 1);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkGraphEdgeMap(adaptor);
checkGraphNodeList(adaptor, 3);
checkGraphArcList(adaptor, 4);
checkGraphEdgeList(adaptor, 2);
checkGraphConArcList(adaptor, 4);
checkGraphConEdgeList(adaptor, 2);
checkGraphOutArcList(adaptor, n2, 1);
checkGraphOutArcList(adaptor, n3, 2);
checkGraphOutArcList(adaptor, n4, 1);
checkGraphInArcList(adaptor, n2, 1);
checkGraphInArcList(adaptor, n3, 2);
checkGraphInArcList(adaptor, n4, 1);
checkGraphIncEdgeList(adaptor, n2, 1);
checkGraphIncEdgeList(adaptor, n3, 2);
checkGraphIncEdgeList(adaptor, n4, 1);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkGraphEdgeMap(adaptor);
node_filter[n1] = node_filter[n2] = node_filter[n3] = node_filter[n4] = false;
edge_filter[e1] = edge_filter[e2] = edge_filter[e3] = edge_filter[e4] = false;
checkGraphNodeList(adaptor, 0);
checkGraphArcList(adaptor, 0);
checkGraphEdgeList(adaptor, 0);
checkGraphConArcList(adaptor, 0);
checkGraphConEdgeList(adaptor, 0);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkGraphEdgeMap(adaptor);
void checkFilterNodes2() {
checkConcept<concepts::Graph,
FilterNodes<concepts::Graph,
concepts::Graph::NodeMap<bool> > >();
typedef Graph::NodeMap<bool> NodeFilter;
typedef FilterNodes<Graph, NodeFilter> Adaptor;
NodeFilter node_filter(graph);
Adaptor adaptor(graph, node_filter);
Graph::Node n1 = graph.addNode();
Graph::Node n2 = graph.addNode();
Graph::Node n3 = graph.addNode();
Graph::Node n4 = graph.addNode();
Graph::Edge e1 = graph.addEdge(n1, n2);
Graph::Edge e2 = graph.addEdge(n1, n3);
Graph::Edge e3 = graph.addEdge(n2, n3);
Graph::Edge e4 = graph.addEdge(n3, n4);
node_filter[n1] = node_filter[n2] = node_filter[n3] = node_filter[n4] = true;
checkGraphNodeList(adaptor, 4);
checkGraphArcList(adaptor, 8);
checkGraphEdgeList(adaptor, 4);
checkGraphConArcList(adaptor, 8);
checkGraphConEdgeList(adaptor, 4);
checkGraphOutArcList(adaptor, n1, 2);
checkGraphOutArcList(adaptor, n2, 2);
checkGraphOutArcList(adaptor, n3, 3);
checkGraphOutArcList(adaptor, n4, 1);
checkGraphInArcList(adaptor, n1, 2);
checkGraphInArcList(adaptor, n2, 2);
checkGraphInArcList(adaptor, n3, 3);
checkGraphInArcList(adaptor, n4, 1);
checkGraphIncEdgeList(adaptor, n1, 2);
checkGraphIncEdgeList(adaptor, n2, 2);
checkGraphIncEdgeList(adaptor, n3, 3);
checkGraphIncEdgeList(adaptor, n4, 1);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkGraphEdgeMap(adaptor);
checkGraphNodeList(adaptor, 3);
checkGraphArcList(adaptor, 4);
checkGraphEdgeList(adaptor, 2);
checkGraphConArcList(adaptor, 4);
checkGraphConEdgeList(adaptor, 2);
checkGraphOutArcList(adaptor, n2, 1);
checkGraphOutArcList(adaptor, n3, 2);
checkGraphOutArcList(adaptor, n4, 1);
checkGraphInArcList(adaptor, n2, 1);
checkGraphInArcList(adaptor, n3, 2);
checkGraphInArcList(adaptor, n4, 1);
checkGraphIncEdgeList(adaptor, n2, 1);
checkGraphIncEdgeList(adaptor, n3, 2);
checkGraphIncEdgeList(adaptor, n4, 1);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkGraphEdgeMap(adaptor);
node_filter[n1] = node_filter[n2] = node_filter[n3] = node_filter[n4] = false;
checkGraphNodeList(adaptor, 0);
checkGraphArcList(adaptor, 0);
checkGraphEdgeList(adaptor, 0);
checkGraphConArcList(adaptor, 0);
checkGraphConEdgeList(adaptor, 0);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkGraphEdgeMap(adaptor);
void checkFilterEdges() {
checkConcept<concepts::Graph,
FilterEdges<concepts::Graph,
concepts::Graph::EdgeMap<bool> > >();
typedef Graph::EdgeMap<bool> EdgeFilter;
typedef FilterEdges<Graph, EdgeFilter> Adaptor;
EdgeFilter edge_filter(graph);
Adaptor adaptor(graph, edge_filter);
Graph::Node n1 = graph.addNode();
Graph::Node n2 = graph.addNode();
Graph::Node n3 = graph.addNode();
Graph::Node n4 = graph.addNode();
Graph::Edge e1 = graph.addEdge(n1, n2);
Graph::Edge e2 = graph.addEdge(n1, n3);
Graph::Edge e3 = graph.addEdge(n2, n3);
Graph::Edge e4 = graph.addEdge(n3, n4);
edge_filter[e1] = edge_filter[e2] = edge_filter[e3] = edge_filter[e4] = true;
checkGraphNodeList(adaptor, 4);
checkGraphArcList(adaptor, 8);
checkGraphEdgeList(adaptor, 4);
checkGraphConArcList(adaptor, 8);
checkGraphConEdgeList(adaptor, 4);
checkGraphOutArcList(adaptor, n1, 2);
checkGraphOutArcList(adaptor, n2, 2);
checkGraphOutArcList(adaptor, n3, 3);
checkGraphOutArcList(adaptor, n4, 1);
checkGraphInArcList(adaptor, n1, 2);
checkGraphInArcList(adaptor, n2, 2);
checkGraphInArcList(adaptor, n3, 3);
checkGraphInArcList(adaptor, n4, 1);
checkGraphIncEdgeList(adaptor, n1, 2);
checkGraphIncEdgeList(adaptor, n2, 2);
checkGraphIncEdgeList(adaptor, n3, 3);
checkGraphIncEdgeList(adaptor, n4, 1);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkGraphEdgeMap(adaptor);
checkGraphNodeList(adaptor, 4);
checkGraphArcList(adaptor, 6);
checkGraphEdgeList(adaptor, 3);
checkGraphConArcList(adaptor, 6);
checkGraphConEdgeList(adaptor, 3);
checkGraphOutArcList(adaptor, n1, 1);
checkGraphOutArcList(adaptor, n2, 2);
checkGraphOutArcList(adaptor, n3, 2);
checkGraphOutArcList(adaptor, n4, 1);
checkGraphInArcList(adaptor, n1, 1);
checkGraphInArcList(adaptor, n2, 2);
checkGraphInArcList(adaptor, n3, 2);
checkGraphInArcList(adaptor, n4, 1);
checkGraphIncEdgeList(adaptor, n1, 1);
checkGraphIncEdgeList(adaptor, n2, 2);
checkGraphIncEdgeList(adaptor, n3, 2);
checkGraphIncEdgeList(adaptor, n4, 1);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkGraphEdgeMap(adaptor);
edge_filter[e1] = edge_filter[e2] = edge_filter[e3] = edge_filter[e4] = false;
checkGraphNodeList(adaptor, 4);
checkGraphArcList(adaptor, 0);
checkGraphEdgeList(adaptor, 0);
checkGraphConArcList(adaptor, 0);
checkGraphConEdgeList(adaptor, 0);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
checkGraphEdgeMap(adaptor);
checkConcept<concepts::Digraph,
Orienter<concepts::Graph, concepts::Graph::EdgeMap<bool> > >();
typedef ListGraph::EdgeMap<bool> DirMap;
typedef Orienter<Graph> Adaptor;
Adaptor adaptor(graph, dir);
Graph::Node n1 = graph.addNode();
Graph::Node n2 = graph.addNode();
Graph::Node n3 = graph.addNode();
Graph::Edge e1 = graph.addEdge(n1, n2);
Graph::Edge e2 = graph.addEdge(n1, n3);
Graph::Edge e3 = graph.addEdge(n2, n3);
checkGraphNodeList(adaptor, 3);
checkGraphArcList(adaptor, 3);
checkGraphConArcList(adaptor, 3);
Adaptor::Node u = adaptor.source(e1);
Adaptor::Node v = adaptor.target(e1);
check (u == adaptor.target(e1), "Wrong dir");
check (v == adaptor.source(e1), "Wrong dir");
check ((u == n1 && v == n2) || (u == n2 && v == n1), "Wrong dir");
Adaptor::Node u = adaptor.source(e2);
Adaptor::Node v = adaptor.target(e2);
check (u == adaptor.target(e2), "Wrong dir");
check (v == adaptor.source(e2), "Wrong dir");
check ((u == n1 && v == n3) || (u == n3 && v == n1), "Wrong dir");
Adaptor::Node u = adaptor.source(e3);
Adaptor::Node v = adaptor.target(e3);
check (u == adaptor.target(e3), "Wrong dir");
check (v == adaptor.source(e3), "Wrong dir");
check ((u == n2 && v == n3) || (u == n3 && v == n2), "Wrong dir");
checkGraphOutArcList(adaptor, n1, 1);
checkGraphOutArcList(adaptor, n2, 1);
checkGraphOutArcList(adaptor, n3, 1);
checkGraphInArcList(adaptor, n1, 1);
checkGraphInArcList(adaptor, n2, 1);
checkGraphInArcList(adaptor, n3, 1);
checkGraphNodeMap(adaptor);
checkGraphArcMap(adaptor);
int main(int, const char **) {