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source: src/main/java/weka/clusterers/forMetisMQI/graph/Subgraph.java @ 18

Last change on this file since 18 was 18, checked in by gnappo, 14 years ago
Implementato raffinamento KL in metis; implementata ottimizzazione di mqi sulla conduttanza.
File size: 6.3 KB

Line
1	package weka.clusterers.forMetisMQI.graph;
2
3	import java.util.ArrayList;
4	import java.util.HashMap;
5	import java.util.HashSet;
6	import java.util.Iterator;
7	import java.util.List;
8	import java.util.Set;
9	import java.util.SortedSet;
10	import java.util.TreeSet;
11	import java.util.Map.Entry;
12
13	import edu.uci.ics.jung.algorithms.filters.FilterUtils;
14
15
16	public class Subgraph {
17
18	private UndirectedGraph g = null;
19
20	private Set<Node> nodes = null;
21
22	private HashMap<Node,Integer> ID = null;
23	private HashMap<Node,Integer> ED = null;
24	private HashMap<Integer,List<Node>> bucketGain = null;
25	private SortedSet<Integer> gainSet = null;
26	private boolean recomputeGain = true;
27
28	public Subgraph(UndirectedGraph g){
29	this.g = g;
30	nodes = new HashSet<Node>();
31	ID = new HashMap<Node,Integer>();
32	ED = new HashMap<Node,Integer>();
33	bucketGain = new HashMap<Integer, List<Node>>();
34	gainSet = new TreeSet<Integer>();
35	}
36
37	public Subgraph(UndirectedGraph g, Set<Node> nodes) {
38	this.g = g;
39	this.nodes = new HashSet<Node>();
40	this.ID = new HashMap<Node,Integer>();
41	this.ED = new HashMap<Node,Integer>();
42	this.bucketGain = new HashMap<Integer, List<Node>>();
43	this.gainSet = new TreeSet<Integer>();
44	Iterator<Node> nodesIterator = nodes.iterator();
45	while(nodesIterator.hasNext()) {
46	addVertex(nodesIterator.next());
47	}
48	}
49
50	public UndirectedGraph getGraph() {
51	return g;
52	}
53
54	/**
55	* Adds to the subgraph the node u iff u belongs to the graph.
56	* @param u
57	*/
58	public void addVertex(Node u) {
59	if(g.containsVertex(u)) {
60	nodes.add(u);
61	ID.put(u, 0);
62	ED.put(u, 0);
63	recomputeGain = true;
64	}
65	}
66
67	private void computeDegree() {
68	Iterator<Node> subgraphIterator = nodes.iterator();
69	while(subgraphIterator.hasNext()) {
70	Node u = subgraphIterator.next();
71	Iterator<Node> nborsIterator = g.getNeighbors(u).iterator();
72	int newID = 0;
73	int newED = 0;
74	while(nborsIterator.hasNext()) {
75	Node v = nborsIterator.next();
76	if(contains(v))
77	newID = newID + g.findEdge(u, v).getWeight();
78	else
79	newED = newED + g.findEdge(u, v).getWeight();
80	}
81	ID.put(u, newID);
82	ED.put(u, newED);
83	}
84	}
85
86	private void computeGain() {
87	bucketGain.clear();
88	gainSet.clear();
89	ID.clear();
90	ED.clear();
91	computeDegree();
92	Iterator<Node> subgraphIterator = nodes.iterator();
93	while(subgraphIterator.hasNext()) {
94	Node u = subgraphIterator.next();
95	int gainU = ED.get(u) - ID.get(u);
96	if(!bucketGain.containsKey(gainU)) {
97	bucketGain.put(gainU, new ArrayList<Node>());
98	}
99	bucketGain.get(gainU).add(u);
100	gainSet.add(gainU);
101	}
102	recomputeGain = false;
103	}
104
105	public Node getCandidate() {
106	return getCandidate(new HashSet<Node>());
107	}
108
109	/**
110	*
111	* @param marked
112	* @return the candidate node for swap or <code>null</code> if there aren't available nodes.
113	*/
114	public Node getCandidate(Set<Node> marked) {
115	if(recomputeGain)
116	computeGain();
117	Node candidate = null;
118	Iterator<Integer> iterator = ((TreeSet<Integer>)gainSet).descendingIterator();
119	while(iterator.hasNext() && (candidate == null)) {
120	int gain = iterator.next();
121	Iterator<Node> nodes = bucketGain.get(gain).iterator();
122	while(nodes.hasNext() && (candidate == null)) {
123	Node u = nodes.next();
124	if(!marked.contains(u))
125	candidate = u;
126	}
127	}
128	return candidate;
129	}
130
131	public int gain(Node u){
132	if(recomputeGain)
133	computeGain();
134	return ED.get(u) - ID.get(u);
135	}
136
137	public void removeVertex(Node u) {
138	if(recomputeGain)
139	computeGain();
140	int gainU = gain(u);
141	nodes.remove(u);
142	ID.remove(u);
143	ED.remove(u);
144	List<Node> l = bucketGain.get(gainU);
145	l.remove(l.indexOf(u));
146	if(l.size() == 0) {
147	bucketGain.remove(gainU);
148	gainSet.remove(gainU);
149	}
150	recomputeGain = true;
151	}
152
153	public int getVertexCount() {
154	return nodes.size();
155	}
156
157	public Edge findEdge(Node v1, Node v2) {
158	Edge e = null;
159	if(contains(v1) && contains(v2))
160	e = g.findEdge(v1, v2);
161	return e;
162	}
163
164	public int getWeight(Node u, Node v) {
165	int ret = -1;
166	if(containsEdge(u,v))
167	ret = g.findEdge(u, v).getWeight();
168	return ret;
169	}
170
171	public Iterator<Node> iterator() {
172	return nodes.iterator();
173	}
174
175	public boolean containsEdge(Node u, Node v) {
176	return contains(u) && contains(v) && g.containsEdge(u, v);
177	}
178
179	public boolean contains(Node u) {
180	return nodes.contains(u);
181	}
182
183	public List<Node> getNeighbors(Node u) {
184	List<Node> neighbors = new ArrayList<Node>();
185	Iterator<Node> iterator = g.getNeighbors(u).iterator();
186	while(iterator.hasNext()) {
187	Node v = iterator.next();
188	if(contains(v) && containsEdge(u, v))
189	neighbors.add(v);
190	}
191	return neighbors;
192	}
193
194	public int getExternalDegree() {
195	if(recomputeGain)
196	computeGain();
197	int acc = 0;
198	Iterator<Integer> it = ED.values().iterator();
199	while(it.hasNext())
200	acc = acc + it.next();
201	return acc;
202	}
203
204	@Override
205	public String toString() {
206	if(getVertexCount() == 0)
207	return "[]";
208	StringBuffer out =new StringBuffer("[");
209	Iterator<Node> it = nodes.iterator();
210	while(it.hasNext()) {
211	Node u = it.next();
212	out.append(u.toString() + ",");
213	}
214	out.setLength(out.length() - 1);
215	out.append("]");
216	return out.toString();
217	}
218
219	public List<Node> getBoundary() {
220	if(recomputeGain)
221	computeGain();
222	Iterator<Entry<Node,Integer>> EDIterator = ED.entrySet().iterator();
223	List<Node> boundary = new ArrayList<Node>();
224	while(EDIterator.hasNext()) {
225	Entry<Node,Integer> entry = EDIterator.next();
226	if(entry.getValue() > 0)
227	boundary.add(entry.getKey());
228	}
229	return boundary;
230	}
231
232	private Subgraph() {
233
234	}
235
236	@Override
237	public Subgraph clone() {
238	Subgraph clone = new Subgraph();
239	clone.g = g.clone();
240
241	clone.nodes = new HashSet<Node>();
242	Iterator<Node> graphIterator =clone.g.getVertices().iterator();
243	while(graphIterator.hasNext()) {
244	Node u = graphIterator.next();
245	if(contains(u))
246	clone.nodes.add(u);
247	}
248
249	clone.bucketGain = new HashMap<Integer, List<Node>>();
250	clone.gainSet = new TreeSet<Integer>();
251	clone.ID = new HashMap<Node, Integer>();
252	clone.ED = new HashMap<Node, Integer>();
253
254	clone.computeGain();
255
256	return clone;
257	}
258
259	public UndirectedGraph createInducedSubgraph() {
260	return FilterUtils.createInducedSubgraph(nodes,g);
261	}
262
263	public int totalDegree() {
264	int result = 0;
265	Iterator<Node> nodeIterator = iterator();
266	while(nodeIterator.hasNext()) {
267	int degree = g.degree(nodeIterator.next());
268	result += degree;
269	}
270	return result;
271	}
272	}

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