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OWLClassGraph.java @ 176

リビジョン 174, 9.8 KB (コミッタ: atsuko, 10 年前)
path 探索改良＆ランキング
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1	/*
2	* To change this template, choose Tools \| Templates
3	* and open the template in the editor.
4	*/
5	package org.biohackathon.SPARQLBuilder.OWL;
6
7	/**
8	*
9	* @author atsuko
10	*/
11	import java.util.*;
12	//import java.util.LinkedList;
13	//import java.util.List;
14	//import java.util.ListIterator;
15
16	public class OWLClassGraph extends LabeledMultiDigraph{
17	String startClass;
18	String endClass;
19	int nsteps;
20	int limit;
21	int th;
22	int prunecut;
23
24	public class LinkAndPath{
25	String originalClassURI; // originalClasssURI -classLink.propertyURI-> classLink.linkedClassURL
26	ClassLink classLink;
27	List<ClassLink> path;
28	//boolean converge;
29
30	public LinkAndPath(ClassLink classLink, List<ClassLink> path){
31	this.classLink = classLink;
32	this.path = path;
33	//this.converge = false;
34	}
35
36	public LinkAndPath(ClassLink classLink, List<ClassLink> path, String originalClassURI){
37	this.classLink = classLink;
38	this.path = path;
39	this.originalClassURI = originalClassURI;
40	//this.converge = converge;
41	}
42	}
43
44	public OWLClassGraph(String startClass, String endClass){
45	super();
46	this.startClass = startClass;
47	addNode(startClass);
48	this.endClass = endClass;
49	addNode(endClass);
50	nsteps = 3;
51	limit = 1000;
52	prunecut = 100;
53	}
54
55	public Path[] getPaths(RDFSchemaAnalyzer rdfsa, boolean countLink){
56	List<List<ClassLink>> paths = null;
57	paths = searchPaths(rdfsa, countLink);
58	NavigableSet<Path> sortedpath = new TreeSet<Path>();
59	ListIterator<List<ClassLink>> pit = paths.listIterator();
60	while ( pit.hasNext() ){
61	Path path = new Path();
62	path.setStartClass(startClass);
63	List<ClassLink> crrpath = pit.next();
64	path.setClassLinks(crrpath);
65	ListIterator<ClassLink> cit = crrpath.listIterator();
66	int min = Integer.MAX_VALUE;
67	while ( cit.hasNext() ){
68	ClassLink cl = cit.next();
69	if ( cl.getNumOfLinks() < min ){
70	min = cl.getNumOfLinks();
71	}
72	}
73	path.setWidth(min);
74	sortedpath.add(path);
75	}
76	Path[] patharray = new Path[paths.size()];
77	Iterator<Path> pait = sortedpath.descendingIterator();
78	int i = 0;
79	while ( pait.hasNext() ){
80	patharray[i] = pait.next();
81	i++;
82	}
83	return patharray;
84	}
85
86	private List<List<ClassLink>> searchPaths(RDFSchemaAnalyzer rdfsa, boolean countLinks){
87	List<List<ClassLink>> paths = new ArrayList<>();
88	List<LinkAndPath> lp = new LinkedList<>();
89	lp.add(new LinkAndPath(new ClassLink("",startClass,null,Direction.both,0,0,0,0,0,false,false), new LinkedList<ClassLink>(), ""));
90	try{
91	for ( int i = 0; i < nsteps; i++ ){
92	ListIterator<LinkAndPath> lit = lp.listIterator();
93	List<LinkAndPath> nextlp = new LinkedList<>();
94	while ( lit.hasNext() ){
95	LinkAndPath crrlp = lit.next();
96	/*if ( crrlp.classLink.getLinkedClassURI().equals("http://www.biopax.org/release/biopax-level3.owl#Pathway") ){
97	System.out.println("here!");
98	}*/
99	ClassLink[] classLinks = rdfsa.getNextClass(null, crrlp.classLink.getLinkedClassURI(), limit, countLinks);
100	for ( int j = 0 ; j < classLinks.length; j++ ){
101	/*if ( classLinks[j].getLinkedClassURI().endsWith("http://www.biopax.org/release/biopax-level3.owl#BiochemicalReaction") ){
102	ClassLink cltmp = classLinks[j];
103	}*/
104	List<ClassLink> crrpath = new LinkedList<>(crrlp.path);
105	crrpath.add(classLinks[j]);
106	if ( classLinks[j].getLinkedClassURI() == null ){ continue; }
107	if ( classLinks[j].getLinkedClassURI().equals(endClass) ){
108	paths.add(new LinkedList<>(crrpath));
109	continue;
110	}
111	if ( countLinks == true && classLinks[j].getNumOfLinks() <= th){
112	continue;
113	}
114	if ( i >= 2 ){
115	if ( crrlp.classLink.getPropertyURI().equals(classLinks[j].getPropertyURI()) &&
116	crrlp.classLink.getDirection() != classLinks[j].getDirection() &&
117	crrlp.originalClassURI.equals( classLinks[j].getLinkedClassURI()) ){
118	System.out.println("P1");
119	continue;
120	}
121	if ( checkPruning(crrlp.classLink, classLinks[j]) ){
122	System.out.println("P2");
123	continue;
124	}
125	}
126	/*
127	if ( classLinks[j].getDirection() != Direction.reverse ){
128	System.out.println("here b");
129	}*/
130
131	nextlp.add(new LinkAndPath(classLinks[j], crrpath, crrlp.classLink.getLinkedClassURI()));
132	}
133	}
134	lp = nextlp;
135	}
136	}catch(Exception e){
137	System.err.println(e);
138	}
139	return paths;
140	}
141
142	/*
143	private List<List<ClassLink>> searchPathsWithCut(OWLQueryBuilderImpl qb){
144	List<List<ClassLink>> paths = new ArrayList<>();
145	ClassLink crrLink = new ClassLink(null,startClass,Direction.both,0,0,0,0,0);
146	List<LinkAndPath> lp = new LinkedList<>();
147	lp.add(new LinkAndPath(crrLink, new LinkedList<ClassLink>()));
148	try{
149	for ( int i = 0; i < nsteps; i++ ){
150	ListIterator<LinkAndPath> lit = lp.listIterator();
151	List<LinkAndPath> nextlp = new LinkedList<>();
152	while ( lit.hasNext() ){
153	LinkAndPath crrlp = lit.next();
154	ClassLink[] classLinks = null;
155	classLinks = qb.getNextClass(null, crrlp.classLink.getLinkedClassURI(), limit, true);
156	for ( int j = 0 ; j < classLinks.length; j++ ){
157	if ( classLinks[j].getNumOfLinks() == 0 ){ continue; }
158	List<ClassLink> crrpath = new LinkedList<>(crrlp.path);
159	crrpath.add(classLinks[j]);
160	if ( classLinks[j].getLinkedClassURI().equals(endClass) ){
161	paths.add(new LinkedList<>(crrpath));
162	continue;
163	}
164	if (classLinks[j].getNumOfLinks() <= th ){
165	continue; //cut by the number of instances
166	}
167	// Divergence & Convergence Decision
168	boolean con = false;
169	boolean div = false;
170	if ( decideConvergence(classLinks[j]) ){ // convergence
171	con = true;
172	}
173	if ( decideDivergence(classLinks[j]) ){ // divergence
174	div = true;
175	}
176	if ( crrlp.converge == true && div == true ){ // converge & 縲diverge
177	continue; // cut by the differences of entropies
178	}
179	// crr & next are the same arcs
180	if ( crrlp.classLink.getPropertyURI().equals(classLinks[j].getPropertyURI()) &&
181	crrlp.classLink.getDirection() != classLinks[j].getDirection() &&
182	crrlp.originalClassURI.equals( classLinks[j].getLinkedClassURI()) ){
183	continue;
184	}
185
186	nextlp.add(new LinkAndPath(classLinks[j], crrpath, crrlp.classLink.getLinkedClassURI(), con));
187	}
188	}
189	lp = nextlp;
190	}
191	}catch(Exception e){
192	System.err.println(e);
193	}
194	return paths;
195	}
196	*/
197
198	private boolean checkPruning(ClassLink classLink1, ClassLink classLink2){
199	// true -> prune link2, false -> add link2
200	int noi1 = classLink1.getNumOfOriginInstances();
201	int nli1 = classLink1.getNumOfLinkedInstances();
202	int noi2 = classLink2.getNumOfOriginInstances();
203	int nli2 = classLink2.getNumOfLinkedInstances();
204	if ( noi1 == 0 \|\| nli1 == 0 \|\| noi2 == 0 \|\| nli2 == 0 ){
205	return true;
206	}
207	return ( noi1 / nli1 > prunecut && nli2 / noi2 > prunecut );
208	}
209
210	/* private boolean decideConvergence(ClassLink classLink){
211	double con = getValueForConvergence(classLink.getNumOfOriginInstances(),
212	classLink.getNumOfLinkedInstances(),
213	classLink.getNumOfLinks());
214	if ( con > concut ){
215	return true;
216	}
217	return false;
218	}
219	*/
220
221	/*
222	private boolean decideDivergence(ClassLink classLink){
223	double con = getValueForConvergence(classLink.getNumOfOriginInstances(),
224	classLink.getNumOfLinkedInstances(),
225	classLink.getNumOfLinks());
226	if ( con < divcut ){
227	return true;
228	}
229	return false;
230	}
231	*/
232
233	/*
234	private double getValueForConvergence(int numOfOriginInstances, int numOfLinkedInstances, int numOfLinks){
235	//return (double) numOfLinks / (double) numOfLinkedInstances ;
236	// Convergence plus, Divergence minus
237	return Math.log((double)numOfOriginInstances) - Math.log((double)numOfLinkedInstances);
238	}
239	*/
240
241	}

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