use of org.apache.fluo.api.client.FluoClient in project incubator-rya by apache.
the class FluoQueryMetadataDAOIT method filterMetadataTest.
@Test
public void filterMetadataTest() {
final FluoQueryMetadataDAO dao = new FluoQueryMetadataDAO();
// Create the object that will be serialized.
final FilterMetadata.Builder builder = FilterMetadata.builder("nodeId");
builder.setVarOrder(new VariableOrder("e;f"));
builder.setParentNodeId("parentNodeId");
builder.setChildNodeId("childNodeId");
builder.setFilterSparql("originalSparql");
final FilterMetadata originalMetadata = builder.build();
try (FluoClient fluoClient = FluoFactory.newClient(super.getFluoConfiguration())) {
// Write it to the Fluo table.
try (Transaction tx = fluoClient.newTransaction()) {
dao.write(tx, originalMetadata);
tx.commit();
}
// Read it from the Fluo table.
FilterMetadata storedMetadata = null;
try (Snapshot sx = fluoClient.newSnapshot()) {
storedMetadata = dao.readFilterMetadata(sx, "nodeId");
}
// Ensure the deserialized object is the same as the serialized one.
assertEquals(originalMetadata, storedMetadata);
}
}
use of org.apache.fluo.api.client.FluoClient in project incubator-rya by apache.
the class InputIT method historicThenStreamedResults.
/**
* Simulates the case where a Triple is added to Rya, a new query that includes
* that triple as a historic match is inserted into Fluo, and then some new
* triple that matches the query is streamed into Fluo. The query's results
* must include both the historic result and the newly streamed result.
*/
@Test
public void historicThenStreamedResults() throws Exception {
// A query that finds people who talk to Eve and work at Chipotle.
final String sparql = "SELECT ?x WHERE { " + "?x <http://talksTo> <http://Eve>. " + "?x <http://worksAt> <http://Chipotle>." + "}";
// Triples that are loaded into Rya before the PCJ is created.
final ValueFactory vf = new ValueFactoryImpl();
final Set<Statement> historicTriples = Sets.newHashSet(vf.createStatement(vf.createURI("http://Alice"), vf.createURI("http://talksTo"), vf.createURI("http://Eve")), vf.createStatement(vf.createURI("http://Alice"), vf.createURI("http://worksAt"), vf.createURI("http://Chipotle")));
// Triples that will be streamed into Fluo after the PCJ has been created.
final Set<RyaStatement> streamedTriples = Sets.newHashSet(new RyaStatement(new RyaURI("http://Frank"), new RyaURI("http://talksTo"), new RyaURI("http://Eve")), new RyaStatement(new RyaURI("http://Frank"), new RyaURI("http://worksAt"), new RyaURI("http://Chipotle")));
// Load the historic data into Rya.
final SailRepositoryConnection ryaConn = super.getRyaSailRepository().getConnection();
for (final Statement triple : historicTriples) {
ryaConn.add(triple);
}
ryaConn.close();
// Create the PCJ table.
final Connector accumuloConn = super.getAccumuloConnector();
final PrecomputedJoinStorage pcjStorage = new AccumuloPcjStorage(accumuloConn, getRyaInstanceName());
final String pcjId = pcjStorage.createPcj(sparql);
try (FluoClient fluoClient = FluoFactory.newClient(super.getFluoConfiguration())) {
// Tell the Fluo app to maintain the PCJ.
new CreateFluoPcj().withRyaIntegration(pcjId, pcjStorage, fluoClient, accumuloConn, getRyaInstanceName());
// Ensure Alice is a match.
super.getMiniFluo().waitForObservers();
final Set<BindingSet> expected = new HashSet<>();
MapBindingSet bs = new MapBindingSet();
bs.addBinding("x", vf.createURI("http://Alice"));
expected.add(bs);
Set<BindingSet> results = new HashSet<>();
try (CloseableIterator<BindingSet> resultsIt = pcjStorage.listResults(pcjId)) {
while (resultsIt.hasNext()) {
results.add(resultsIt.next());
}
}
assertEquals(expected, results);
// Stream the data into Fluo.
new InsertTriples().insert(fluoClient, streamedTriples, Optional.<String>absent());
// Verify the end results of the query also include Frank.
super.getMiniFluo().waitForObservers();
bs = new MapBindingSet();
bs.addBinding("x", vf.createURI("http://Frank"));
expected.add(bs);
results = new HashSet<>();
try (CloseableIterator<BindingSet> resultsIt = pcjStorage.listResults(pcjId)) {
while (resultsIt.hasNext()) {
results.add(resultsIt.next());
}
}
assertEquals(expected, results);
}
}
use of org.apache.fluo.api.client.FluoClient in project incubator-rya by apache.
the class InputIT method streamedResults.
/**
* Ensure streamed matches are included in the result.
*/
@Test
public void streamedResults() throws Exception {
// A query that finds people who talk to Eve and work at Chipotle.
final String sparql = "SELECT ?x WHERE { " + "?x <http://talksTo> <http://Eve>. " + "?x <http://worksAt> <http://Chipotle>." + "}";
// Triples that will be streamed into Fluo after the PCJ has been created.
final Set<RyaStatement> streamedTriples = Sets.newHashSet(new RyaStatement(new RyaURI("http://Alice"), new RyaURI("http://talksTo"), new RyaURI("http://Eve")), new RyaStatement(new RyaURI("http://Bob"), new RyaURI("http://talksTo"), new RyaURI("http://Eve")), new RyaStatement(new RyaURI("http://Charlie"), new RyaURI("http://talksTo"), new RyaURI("http://Eve")), new RyaStatement(new RyaURI("http://Eve"), new RyaURI("http://helps"), new RyaURI("http://Kevin")), new RyaStatement(new RyaURI("http://Bob"), new RyaURI("http://worksAt"), new RyaURI("http://Chipotle")), new RyaStatement(new RyaURI("http://Charlie"), new RyaURI("http://worksAt"), new RyaURI("http://Chipotle")), new RyaStatement(new RyaURI("http://Eve"), new RyaURI("http://worksAt"), new RyaURI("http://Chipotle")), new RyaStatement(new RyaURI("http://David"), new RyaURI("http://worksAt"), new RyaURI("http://Chipotle")));
// The expected results of the SPARQL query once the PCJ has been computed.
final ValueFactory vf = new ValueFactoryImpl();
final Set<BindingSet> expected = new HashSet<>();
MapBindingSet bs = new MapBindingSet();
bs.addBinding("x", vf.createURI("http://Bob"));
expected.add(bs);
bs = new MapBindingSet();
bs.addBinding("x", vf.createURI("http://Charlie"));
expected.add(bs);
// Create the PCJ table.
final Connector accumuloConn = super.getAccumuloConnector();
final PrecomputedJoinStorage pcjStorage = new AccumuloPcjStorage(accumuloConn, getRyaInstanceName());
final String pcjId = pcjStorage.createPcj(sparql);
try (FluoClient fluoClient = FluoFactory.newClient(super.getFluoConfiguration())) {
// Tell the Fluo app to maintain the PCJ.
new CreateFluoPcj().withRyaIntegration(pcjId, pcjStorage, fluoClient, accumuloConn, getRyaInstanceName());
// Ensure the query has no results yet.
super.getMiniFluo().waitForObservers();
try (CloseableIterator<BindingSet> resultsIt = pcjStorage.listResults(pcjId)) {
assertFalse(resultsIt.hasNext());
}
// Stream the data into Fluo.
new InsertTriples().insert(fluoClient, streamedTriples, Optional.<String>absent());
// Verify the end results of the query match the expected results.
super.getMiniFluo().waitForObservers();
final HashSet<BindingSet> results = new HashSet<>();
try (CloseableIterator<BindingSet> resultsIt = pcjStorage.listResults(pcjId)) {
while (resultsIt.hasNext()) {
results.add(resultsIt.next());
}
}
assertEquals(expected, results);
}
}
use of org.apache.fluo.api.client.FluoClient in project incubator-rya by apache.
the class KafkaRyaSubGraphExportIT method loadRyaStatements.
protected String loadRyaStatements(final String sparql, final Collection<RyaStatement> statements) throws Exception {
requireNonNull(sparql);
requireNonNull(statements);
FluoClient client = null;
try {
CreateFluoPcj createPcj = new CreateFluoPcj();
client = new FluoClientImpl(super.getFluoConfiguration());
String id = createPcj.createPcj(sparql, client).getQueryId();
AccumuloRyaDAO dao = getRyaDAO();
dao.add(statements.iterator());
// Wait for the Fluo application to finish computing the end result.
super.getMiniFluo().waitForObservers();
// FluoITHelper.printFluoTable(client);
return id;
} finally {
if (client != null) {
client.close();
}
}
}
use of org.apache.fluo.api.client.FluoClient in project incubator-rya by apache.
the class RyaExportIT method resultsExported.
@Test
public void resultsExported() throws Exception {
final String sparql = "SELECT ?customer ?worker ?city " + "{ " + "FILTER(?customer = <http://Alice>) " + "FILTER(?city = <http://London>) " + "?customer <http://talksTo> ?worker. " + "?worker <http://livesIn> ?city. " + "?worker <http://worksAt> <http://Chipotle>. " + "}";
// Triples that will be streamed into Fluo after the PCJ has been created.
final ValueFactory vf = new ValueFactoryImpl();
final Set<RyaStatement> streamedTriples = Sets.newHashSet(new RyaStatement(new RyaURI("http://Alice"), new RyaURI("http://talksTo"), new RyaURI("http://Bob")), new RyaStatement(new RyaURI("http://Bob"), new RyaURI("http://livesIn"), new RyaURI("http://London")), new RyaStatement(new RyaURI("http://Bob"), new RyaURI("http://worksAt"), new RyaURI("http://Chipotle")), new RyaStatement(new RyaURI("http://Alice"), new RyaURI("http://talksTo"), new RyaURI("http://Charlie")), new RyaStatement(new RyaURI("http://Charlie"), new RyaURI("http://livesIn"), new RyaURI("http://London")), new RyaStatement(new RyaURI("http://Charlie"), new RyaURI("http://worksAt"), new RyaURI("http://Chipotle")), new RyaStatement(new RyaURI("http://Alice"), new RyaURI("http://talksTo"), new RyaURI("http://David")), new RyaStatement(new RyaURI("http://David"), new RyaURI("http://livesIn"), new RyaURI("http://London")), new RyaStatement(new RyaURI("http://David"), new RyaURI("http://worksAt"), new RyaURI("http://Chipotle")), new RyaStatement(new RyaURI("http://Alice"), new RyaURI("http://talksTo"), new RyaURI("http://Eve")), new RyaStatement(new RyaURI("http://Eve"), new RyaURI("http://livesIn"), new RyaURI("http://Leeds")), new RyaStatement(new RyaURI("http://Eve"), new RyaURI("http://worksAt"), new RyaURI("http://Chipotle")), new RyaStatement(new RyaURI("http://Frank"), new RyaURI("http://talksTo"), new RyaURI("http://Alice")), new RyaStatement(new RyaURI("http://Frank"), new RyaURI("http://livesIn"), new RyaURI("http://London")), new RyaStatement(new RyaURI("http://Frank"), new RyaURI("http://worksAt"), new RyaURI("http://Chipotle")));
// The expected results of the SPARQL query once the PCJ has been computed.
final Set<BindingSet> expected = new HashSet<>();
MapBindingSet bs = new MapBindingSet();
bs.addBinding("customer", vf.createURI("http://Alice"));
bs.addBinding("worker", vf.createURI("http://Bob"));
bs.addBinding("city", vf.createURI("http://London"));
expected.add(bs);
bs = new MapBindingSet();
bs.addBinding("customer", vf.createURI("http://Alice"));
bs.addBinding("worker", vf.createURI("http://Charlie"));
bs.addBinding("city", vf.createURI("http://London"));
expected.add(bs);
bs = new MapBindingSet();
bs.addBinding("customer", vf.createURI("http://Alice"));
bs.addBinding("worker", vf.createURI("http://David"));
bs.addBinding("city", vf.createURI("http://London"));
expected.add(bs);
// Create the PCJ table.
final Connector accumuloConn = super.getAccumuloConnector();
final PrecomputedJoinStorage pcjStorage = new AccumuloPcjStorage(accumuloConn, getRyaInstanceName());
final String pcjId = pcjStorage.createPcj(sparql);
try (FluoClient fluoClient = FluoFactory.newClient(super.getFluoConfiguration())) {
// Tell the Fluo app to maintain the PCJ.
new CreateFluoPcj().withRyaIntegration(pcjId, pcjStorage, fluoClient, accumuloConn, getRyaInstanceName());
// Stream the data into Fluo.
new InsertTriples().insert(fluoClient, streamedTriples, Optional.<String>absent());
// Fetch the exported results from Accumulo once the observers finish working.
super.getMiniFluo().waitForObservers();
// Fetch expected results from the PCJ table that is in Accumulo.
final Set<BindingSet> results = Sets.newHashSet(pcjStorage.listResults(pcjId));
// Verify the end results of the query match the expected results.
assertEquals(expected, results);
}
}
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