Java Code Examples for com.bigdata.rdf.store.AbstractTripleStore#getSPORelation()
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com.bigdata.rdf.store.AbstractTripleStore#getSPORelation() .
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Example 1
Source File: TestSPOAccessPath.java From database with GNU General Public License v2.0 | 4 votes |
/** * There are 8 distinct triple pattern bindings for a triple store that * select among 3 distinct access paths. */ public void test_getAccessPath() { final AbstractTripleStore store = getStore(); // constants used for s,p,o,c when bound. 0L used when unbound. final IV<?,?> S = factory.newTermId(VTE.URI, 1); final IV<?,?> P = factory.newTermId(VTE.URI, 2); final IV<?,?> O = factory.newTermId(VTE.URI, 3); final IV<?,?> C = factory.newTermId(VTE.URI, 4); final IV<?,?> _ = factory.newTermId(VTE.URI, 0); try { final SPORelation r = store.getSPORelation(); if (store.isQuads()) { /* * For a quad store there are 16 distinct binding patterns that * select among 6 distinct access paths. there are some quad * patterns which could be mapped onto more than one access * path, but the code here checks the expected mapping. These * mappings are similar to those in YARS2, but are the mappings * generated by the "Magic" tuple logic. */ // SPOC assertEquals(SPOKeyOrder.SPOC, r.getAccessPath(_, _, _, _).getKeyOrder()); assertEquals(SPOKeyOrder.SPOC, r.getAccessPath(S, _, _, _).getKeyOrder()); assertEquals(SPOKeyOrder.SPOC, r.getAccessPath(S, P, _, _).getKeyOrder()); assertEquals(SPOKeyOrder.SPOC, r.getAccessPath(S, P, O, _).getKeyOrder()); assertEquals(SPOKeyOrder.SPOC, r.getAccessPath(S, P, O, C).getKeyOrder()); // POCS assertEquals(SPOKeyOrder.POCS, r.getAccessPath(_, P, _, _).getKeyOrder()); assertEquals(SPOKeyOrder.POCS, r.getAccessPath(_, P, O, _).getKeyOrder()); assertEquals(SPOKeyOrder.POCS, r.getAccessPath(_, P, O, C).getKeyOrder()); // OCSP assertEquals(SPOKeyOrder.OCSP, r.getAccessPath(_, _, O, _).getKeyOrder()); assertEquals(SPOKeyOrder.OCSP, r.getAccessPath(_, _, O, C).getKeyOrder()); assertEquals(SPOKeyOrder.OCSP, r.getAccessPath(S, _, O, C).getKeyOrder()); // CSPO assertEquals(SPOKeyOrder.CSPO, r.getAccessPath(_, _, _, C).getKeyOrder()); assertEquals(SPOKeyOrder.CSPO, r.getAccessPath(S, _, _, C).getKeyOrder()); assertEquals(SPOKeyOrder.CSPO, r.getAccessPath(S, P, _, C).getKeyOrder()); // PCSO assertEquals(SPOKeyOrder.PCSO, r.getAccessPath(_, P, _, C).getKeyOrder()); // SOPC assertEquals(SPOKeyOrder.SOPC, r.getAccessPath(S, _, O, _).getKeyOrder()); } else { assertEquals(SPOKeyOrder.SPO, r.getAccessPath(NULL, NULL, NULL, NULL).getKeyOrder()); assertEquals(SPOKeyOrder.SPO, r.getAccessPath(S, NULL, NULL, NULL).getKeyOrder()); assertEquals(SPOKeyOrder.SPO, r.getAccessPath(S, S, NULL, NULL) .getKeyOrder()); assertEquals(SPOKeyOrder.SPO, r.getAccessPath(S, S, S, NULL) .getKeyOrder()); assertEquals(SPOKeyOrder.POS, r.getAccessPath(NULL, S, NULL, NULL).getKeyOrder()); assertEquals(SPOKeyOrder.POS, r.getAccessPath(NULL, S, S, NULL) .getKeyOrder()); assertEquals(SPOKeyOrder.OSP, r.getAccessPath(NULL, NULL, S, NULL).getKeyOrder()); assertEquals(SPOKeyOrder.OSP, r.getAccessPath(S, NULL, S, NULL) .getKeyOrder()); } } finally { store.__tearDownUnitTest(); } }
Example 2
Source File: HistoryServiceFactory.java From database with GNU General Public License v2.0 | 4 votes |
/** * Return the pre-existing history index. * * @param tripleStore * The KB. * @return The history index and never <code>null</code>. * * @throws IllegalStateException * if the index was not configured / does not exist. */ private IIndex getHistoryIndex(final AbstractTripleStore tripleStore) { final SPORelation spoRelation = tripleStore.getSPORelation(); final String fqn = AbstractRelation.getFQN(spoRelation, SPORelation.NAME_HISTORY); ndx = spoRelation.getIndex(fqn); if (ndx == null) throw new IllegalStateException("Index not found: " + fqn); return ndx; }
Example 3
Source File: TestHistoryIndex.java From database with GNU General Public License v2.0 | 3 votes |
/** * Return the pre-existing history index. * * @param tripleStore * The KB. * @return The history index -or- <code>null</code> if it was not * configured. */ private IIndex getHistoryIndex(final AbstractTripleStore tripleStore) { final SPORelation spoRelation = tripleStore.getSPORelation(); final String fqn = AbstractRelation.getFQN(spoRelation, SPORelation.NAME_HISTORY); final IIndex ndx = spoRelation.getIndex(fqn); return ndx; }
Example 4
Source File: VoID.java From database with GNU General Public License v2.0 | 2 votes |
/** * Return an array of the distinct predicates in the KB ordered by their * descending frequency of use. The {@link IV}s in the returned array will * have been resolved to the corresponding {@link BigdataURI}s which can be * accessed using {@link IV#getValue()}. * * @param kb * The KB instance. */ protected static IVCount[] predicateUsage(final AbstractTripleStore kb) { final SPORelation r = kb.getSPORelation(); if (r.oneAccessPath) { // The necessary index (POS or POCS) does not exist. throw new UnsupportedOperationException(); } final boolean quads = kb.isQuads(); // the index to use for distinct predicate scan. final SPOKeyOrder keyOrder = quads ? SPOKeyOrder.POCS : SPOKeyOrder.POS; // visit distinct term identifiers for predicate position on that index. @SuppressWarnings("rawtypes") final IChunkedIterator<IV> itr = r.distinctTermScan(keyOrder); // resolve term identifiers to terms efficiently during iteration. final BigdataValueIterator itr2 = new BigdataValueIteratorImpl( kb/* resolveTerms */, itr); try { final Set<IV<?,?>> ivs = new LinkedHashSet<IV<?,?>>(); final Map<IV<?, ?>, IVCount> counts = new LinkedHashMap<IV<?, ?>, IVCount>(); while (itr2.hasNext()) { final BigdataValue term = itr2.next(); final IV<?,?> iv = term.getIV(); final long n = r.getAccessPath(null, iv, null, null) .rangeCount(false/* exact */); ivs.add(iv); counts.put(iv, new IVCount(iv, n)); } // Batch resolve IVs to Values final Map<IV<?, ?>, BigdataValue> x = kb.getLexiconRelation() .getTerms(ivs); for (Map.Entry<IV<?, ?>, BigdataValue> e : x.entrySet()) { final IVCount count = counts.get(e.getKey()); count.setValue(e.getValue()); } final IVCount[] a = counts.values().toArray( new IVCount[counts.size()]); // Order by descending count. Arrays.sort(a); return a; } finally { itr2.close(); } }
Example 5
Source File: VoID.java From database with GNU General Public License v2.0 | 2 votes |
/** * Return the predicate partition statistics for the named graph. * * @param kb * The KB instance. * @param civ * The {@link IV} of a named graph (required). * * @return The predicate partition statistics for that named graph. Only * predicate partitions which are non-empty are returned. */ protected static IVCount[] predicateUsage(final AbstractTripleStore kb, final IV<?, ?> civ, final IVCount[] predicatePartitionCounts) { final SPORelation r = kb.getSPORelation(); final boolean quads = kb.isQuads(); if (!quads) { // Named graph only valid in quads mode. throw new IllegalArgumentException(); } // The non-zero counts. final List<IVCount> counts = new LinkedList<IVCount>(); // Check the known non-empty predicate partitions. for(IVCount in : predicatePartitionCounts){ final long n = r.getAccessPath(null, in.iv, null, civ).rangeCount( false/* exact */); if (n == 0) continue; final IVCount out = new IVCount(in.iv, n); out.setValue(in.getValue()); counts.add(out); } final IVCount[] a = counts.toArray(new IVCount[counts.size()]); // Order by descending count. Arrays.sort(a); return a; }
Example 6
Source File: VoID.java From database with GNU General Public License v2.0 | 2 votes |
/** * Return the class partition statistics for the named graph. * * @param kb * The KB instance. * @param civ * The {@link IV} of a named graph (required). * * @return The class partition statistics for that named graph. Only class * partitions which are non-empty are returned. */ protected static IVCount[] classUsage(final AbstractTripleStore kb, final IV<?, ?> civ, final IVCount[] classPartitionCounts) { final SPORelation r = kb.getSPORelation(); final boolean quads = kb.isQuads(); if (!quads) { // Named graph only valid in quads mode. throw new IllegalArgumentException(); } // Resolve IV for rdf:type final BigdataURI rdfType = kb.getValueFactory().asValue(RDF.TYPE); kb.getLexiconRelation().addTerms(new BigdataValue[] { rdfType }, 1/* numTerms */, true/* readOnly */); if (rdfType.getIV() == null) { // No rdf:type assertions since rdf:type is unknown term. return new IVCount[0]; } // The non-zero counts. final List<IVCount> counts = new LinkedList<IVCount>(); // Check the known non-empty predicate partitions. for (IVCount in : classPartitionCounts) { final long n = r.getAccessPath(null, rdfType.getIV()/* p */, in.iv/* o */, civ).rangeCount(false/* exact */); if (n == 0) continue; final IVCount out = new IVCount(in.iv, n); out.setValue(in.getValue()); counts.add(out); } final IVCount[] a = counts.toArray(new IVCount[counts.size()]); // Order by descending count. Arrays.sort(a); return a; }