COIN-OR::LEMON - Graph Library

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source: lemon-0.x/src/work/marci/iterator_bfs_demo.cc @ 355:c6ccd4b430d3

Last change on this file since 355:c6ccd4b430d3 was 317:6e6db1c49bc1, checked in by marci, 21 years ago
gw
File size: 10.0 KB

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1	// -- c++ --
2	#include <iostream>
3	#include <vector>
4	#include <string>
5
6	#include <list_graph.h>
7	#include <smart_graph.h>
8	#include <bfs_iterator.h>
9	#include <graph_wrapper.h>
10
11	using namespace hugo;
12	using std::cout;
13	using std::endl;
14	using std::string;
15
16	template <typename Graph, typename NodeNameMap>
17	class EdgeNameMap {
18	Graph& graph;
19	NodeNameMap& node_name_map;
20	public:
21	EdgeNameMap(Graph& _graph, NodeNameMap& _node_name_map) :
22	graph(_graph), node_name_map(_node_name_map) { }
23	string operator[](typename Graph::Edge e) const {
24	return
25	(node_name_map[graph.tail(e)]+"->"+node_name_map[graph.head(e)]);
26	}
27	};
28
29	int main (int, char*[])
30	{
31	//typedef SmartGraph Graph;
32	typedef ListGraph Graph;
33
34	typedef Graph::Node Node;
35	typedef Graph::Edge Edge;
36
37	Graph G;
38
39	Node s=G.addNode();
40	Node v1=G.addNode();
41	Node v2=G.addNode();
42	Node v3=G.addNode();
43	Node v4=G.addNode();
44	Node t=G.addNode();
45
46	Graph::NodeMap<string> node_name(G);
47	node_name.set(s, "s");
48	node_name.set(v1, "v1");
49	node_name.set(v2, "v2");
50	node_name.set(v3, "v3");
51	node_name.set(v4, "v4");
52	node_name.set(t, "t");
53
54	G.addEdge(s, v1);
55	G.addEdge(s, v2);
56	G.addEdge(v1, v2);
57	G.addEdge(v2, v1);
58	G.addEdge(v1, v3);
59	G.addEdge(v3, v2);
60	G.addEdge(v2, v4);
61	G.addEdge(v4, v3);
62	G.addEdge(v3, t);
63	G.addEdge(v4, t);
64
65	cout << " /--> -------------> "<< endl;
66	cout << " / /-- v1 <-\\ /---- v3-\\ "<< endl;
67	cout << " / \| \| / /-> \\ "<< endl;
68	cout << " / \| \| / \| ^ \\ "<< endl;
69	cout << "s \| \| / \| \| \\-> t "<< endl;
70	cout << " \\ \| \| / \| \| /-> "<< endl;
71	cout << " \\ \| --/ / \| \| / "<< endl;
72	cout << " \\ \\-> v2 <--/ \\-- v4 -/ "<< endl;
73	cout << " \\--> -------------> "<< endl;
74
75	// typedef TrivGraphWrapper<const Graph> CGW;
76	// CGW gw(G);
77
78	// cout << "bfs and dfs demo on the directed graph" << endl;
79	// for(CGW::NodeIt n=gw.first<CGW::NodeIt>(); n.valid(); ++n) {
80	// cout << n << ": ";
81	// cout << "out edges: ";
82	// for(CGW::OutEdgeIt e=gw.first<CGW::OutEdgeIt>(n); e.valid(); ++e)
83	// cout << e << " ";
84	// cout << "in edges: ";
85	// for(CGW::InEdgeIt e=gw.first<CGW::InEdgeIt>(n); e.valid(); ++e)
86	// cout << e << " ";
87	// cout << endl;
88	// }
89
90	{
91	EdgeNameMap< Graph, Graph::NodeMap<string> > edge_name(G, node_name);
92
93	cout << "bfs and dfs iterator demo on the directed graph" << endl;
94	for(Graph::NodeIt n(G); G.valid(n); G.next(n)) {
95	cout << node_name[n] << ": ";
96	cout << "out edges: ";
97	for(Graph::OutEdgeIt e(G, n); G.valid(e); G.next(e))
98	cout << edge_name[e] << " ";
99	cout << "in edges: ";
100	for(Graph::InEdgeIt e(G, n); G.valid(e); G.next(e))
101	cout << edge_name[e] << " ";
102	cout << endl;
103	}
104
105	cout << "bfs from s ..." << endl;
106	BfsIterator5< Graph, Graph::NodeMap<bool> > bfs(G);
107	bfs.pushAndSetReached(s);
108	while (!bfs.finished()) {
109	//cout << "edge: ";
110	if (G.valid(bfs)) {
111	cout << edge_name[bfs] << /endl/", " <<
112	node_name[G.aNode(bfs)] <<
113	(bfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") <<
114	node_name[G.bNode(bfs)] <<
115	(bfs.isBNodeNewlyReached() ? ": is newly reached." :
116	": is not newly reached.");
117	} else {
118	cout << "invalid" << /endl/", " <<
119	node_name[bfs.aNode()] <<
120	(bfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") <<
121
122	"invalid.";
123	}
124	cout << endl;
125	++bfs;
126	}
127
128	cout << " /--> -------------> "<< endl;
129	cout << " / /-- v1 <-\\ /---- v3-\\ "<< endl;
130	cout << " / \| \| / /-> \\ "<< endl;
131	cout << " / \| \| / \| ^ \\ "<< endl;
132	cout << "s \| \| / \| \| \\-> t "<< endl;
133	cout << " \\ \| \| / \| \| /-> "<< endl;
134	cout << " \\ \| --/ / \| \| / "<< endl;
135	cout << " \\ \\-> v2 <--/ \\-- v4 -/ "<< endl;
136	cout << " \\--> -------------> "<< endl;
137
138	cout << "dfs from s ..." << endl;
139	DfsIterator5< Graph, Graph::NodeMap<bool> > dfs(G);
140	dfs.pushAndSetReached(s);
141	while (!dfs.finished()) {
142	++dfs;
143	//cout << "edge: ";
144	if (G.valid(dfs)) {
145	cout << edge_name[dfs] << /endl/", " <<
146	node_name[G.aNode(dfs)] <<
147	(dfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") <<
148	node_name[G.bNode(dfs)] <<
149	(dfs.isBNodeNewlyReached() ? ": is newly reached." :
150	": is not newly reached.");
151	} else {
152	cout << "invalid" << /endl/", " <<
153	node_name[dfs.aNode()] <<
154	(dfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") <<
155
156	"invalid.";
157	}
158	cout << endl;
159	}
160	}
161
162
163	{
164	typedef RevGraphWrapper<const Graph> GW;
165	GW gw(G);
166
167	EdgeNameMap< GW, Graph::NodeMap<string> > edge_name(gw, node_name);
168
169	cout << "bfs and dfs iterator demo on the reversed directed graph" << endl;
170	for(GW::NodeIt n(gw); gw.valid(n); gw.next(n)) {
171	cout << node_name[GW::Node(n)] << ": ";
172	cout << "out edges: ";
173	for(GW::OutEdgeIt e(gw, n); gw.valid(e); gw.next(e))
174	cout << edge_name[e] << " ";
175	cout << "in edges: ";
176	for(GW::InEdgeIt e(gw, n); gw.valid(e); gw.next(e))
177	cout << edge_name[e] << " ";
178	cout << endl;
179	}
180
181	cout << "bfs from t ..." << endl;
182	BfsIterator5< GW, GW::NodeMap<bool> > bfs(gw);
183	bfs.pushAndSetReached(t);
184	while (!bfs.finished()) {
185	//cout << "edge: ";
186	if (gw.valid(GW::OutEdgeIt(bfs))) {
187	cout << edge_name[GW::OutEdgeIt(bfs)] << /endl/", " <<
188	node_name[gw.aNode(bfs)] <<
189	(bfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") <<
190	node_name[gw.bNode(bfs)] <<
191	(bfs.isBNodeNewlyReached() ? ": is newly reached." :
192	": is not newly reached.");
193	} else {
194	cout << "invalid" << /endl/", " <<
195	node_name[bfs.aNode()] <<
196	(bfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") <<
197
198	"invalid.";
199	}
200	cout << endl;
201	++bfs;
202	}
203
204	cout << " /--> -------------> "<< endl;
205	cout << " / /-- v1 <-\\ /---- v3-\\ "<< endl;
206	cout << " / \| \| / /-> \\ "<< endl;
207	cout << " / \| \| / \| ^ \\ "<< endl;
208	cout << "s \| \| / \| \| \\-> t "<< endl;
209	cout << " \\ \| \| / \| \| /-> "<< endl;
210	cout << " \\ \| --/ / \| \| / "<< endl;
211	cout << " \\ \\-> v2 <--/ \\-- v4 -/ "<< endl;
212	cout << " \\--> -------------> "<< endl;
213
214	cout << "dfs from t ..." << endl;
215	DfsIterator5< GW, GW::NodeMap<bool> > dfs(gw);
216	dfs.pushAndSetReached(t);
217	while (!dfs.finished()) {
218	++dfs;
219	//cout << "edge: ";
220	if (gw.valid(GW::OutEdgeIt(dfs))) {
221	cout << edge_name[GW::OutEdgeIt(dfs)] << /endl/", " <<
222	node_name[gw.aNode(dfs)] <<
223	(dfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") <<
224	node_name[gw.bNode(dfs)] <<
225	(dfs.isBNodeNewlyReached() ? ": is newly reached." :
226	": is not newly reached.");
227	} else {
228	cout << "invalid" << /endl/", " <<
229	node_name[dfs.aNode()] <<
230	(dfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") <<
231
232	"invalid.";
233	}
234	cout << endl;
235	}
236	}
237
238	{
239	typedef UndirGraphWrapper<const Graph> GW;
240	GW gw(G);
241
242	EdgeNameMap< GW, Graph::NodeMap<string> > edge_name(gw, node_name);
243
244	cout << "bfs and dfs iterator demo on the undirected graph" << endl;
245	for(GW::NodeIt n(gw); gw.valid(n); gw.next(n)) {
246	cout << node_name[GW::Node(n)] << ": ";
247	cout << "out edges: ";
248	for(GW::OutEdgeIt e(gw, n); gw.valid(e); gw.next(e))
249	cout << edge_name[e] << " ";
250	cout << "in edges: ";
251	for(GW::InEdgeIt e(gw, n); gw.valid(e); gw.next(e))
252	cout << edge_name[e] << " ";
253	cout << endl;
254	}
255	// for(GW::EdgeIt e=gw.first<GW::EdgeIt>(); gw.valid(e); gw.next(e)) {
256	// cout << edge_name.get(e) << " ";
257	// }
258	// cout << endl;
259
260	cout << "bfs from t ..." << endl;
261	BfsIterator5< GW, GW::NodeMap<bool> > bfs(gw);
262	bfs.pushAndSetReached(t);
263	while (!bfs.finished()) {
264	//cout << "edge: ";
265	if (gw.valid(GW::OutEdgeIt(bfs))) {
266	cout << edge_name[GW::OutEdgeIt(bfs)] << /endl/", " <<
267	node_name[gw.aNode(bfs)] <<
268	(bfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") <<
269	node_name[gw.bNode(bfs)] <<
270	(bfs.isBNodeNewlyReached() ? ": is newly reached." :
271	": is not newly reached.");
272	} else {
273	cout << "invalid" << /endl/", " <<
274	node_name[bfs.aNode()] <<
275	(bfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") <<
276
277	"invalid.";
278	}
279	cout << endl;
280	++bfs;
281	}
282
283	cout << " /--> -------------> "<< endl;
284	cout << " / /-- v1 <-\\ /---- v3-\\ "<< endl;
285	cout << " / \| \| / /-> \\ "<< endl;
286	cout << " / \| \| / \| ^ \\ "<< endl;
287	cout << "s \| \| / \| \| \\-> t "<< endl;
288	cout << " \\ \| \| / \| \| /-> "<< endl;
289	cout << " \\ \| --/ / \| \| / "<< endl;
290	cout << " \\ \\-> v2 <--/ \\-- v4 -/ "<< endl;
291	cout << " \\--> -------------> "<< endl;
292
293	cout << "dfs from t ..." << endl;
294	DfsIterator5< GW, GW::NodeMap<bool> > dfs(gw);
295	dfs.pushAndSetReached(t);
296	while (!dfs.finished()) {
297	++dfs;
298	//cout << "edge: ";
299	if (gw.valid(GW::OutEdgeIt(dfs))) {
300	cout << edge_name[GW::OutEdgeIt(dfs)] << /endl/", " <<
301	node_name[gw.aNode(dfs)] <<
302	(dfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") <<
303	node_name[gw.bNode(dfs)] <<
304	(dfs.isBNodeNewlyReached() ? ": is newly reached." :
305	": is not newly reached.");
306	} else {
307	cout << "invalid" << /endl/", " <<
308	node_name[dfs.aNode()] <<
309	(dfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") <<
310
311	"invalid.";
312	}
313	cout << endl;
314	}
315	}
316
317	return 0;
318	}

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