use of org.openrdf.model.Statement in project incubator-rya by apache.
the class GeoIndexerTest method testDcSearchWithContext.
@Test
public void testDcSearchWithContext() throws Exception {
// test a ring around dc
try (final GeoMesaGeoIndexer f = new GeoMesaGeoIndexer()) {
f.setConf(conf);
final ValueFactory vf = new ValueFactoryImpl();
final Resource subject = vf.createURI("foo:subj");
final URI predicate = GeoConstants.GEO_AS_WKT;
final Value object = vf.createLiteral("Point(-77.03524 38.889468)", GeoConstants.XMLSCHEMA_OGC_WKT);
final Resource context = vf.createURI("foo:context");
final Statement statement = new ContextStatementImpl(subject, predicate, object, context);
f.storeStatement(convertStatement(statement));
f.flush();
final double[] IN = { -78, 39, -77, 39, -77, 38, -78, 38, -78, 39 };
final LinearRing r1 = gf.createLinearRing(new PackedCoordinateSequence.Double(IN, 2));
final Polygon p1 = gf.createPolygon(r1, new LinearRing[] {});
// query with correct context
Assert.assertEquals(Sets.newHashSet(statement), getSet(f.queryWithin(p1, new StatementConstraints().setContext(context))));
// query with wrong context
Assert.assertEquals(Sets.newHashSet(), getSet(f.queryWithin(p1, new StatementConstraints().setContext(vf.createURI("foo:context2")))));
}
}
use of org.openrdf.model.Statement in project incubator-rya by apache.
the class GeoIndexerTest method testDcSearchWithSubjectAndContext.
@Test
public void testDcSearchWithSubjectAndContext() throws Exception {
// test a ring around dc
try (final GeoMesaGeoIndexer f = new GeoMesaGeoIndexer()) {
f.setConf(conf);
final ValueFactory vf = new ValueFactoryImpl();
final Resource subject = vf.createURI("foo:subj");
final URI predicate = GeoConstants.GEO_AS_WKT;
final Value object = vf.createLiteral("Point(-77.03524 38.889468)", GeoConstants.XMLSCHEMA_OGC_WKT);
final Resource context = vf.createURI("foo:context");
final Statement statement = new ContextStatementImpl(subject, predicate, object, context);
f.storeStatement(convertStatement(statement));
f.flush();
final double[] IN = { -78, 39, -77, 39, -77, 38, -78, 38, -78, 39 };
final LinearRing r1 = gf.createLinearRing(new PackedCoordinateSequence.Double(IN, 2));
final Polygon p1 = gf.createPolygon(r1, new LinearRing[] {});
// query with correct context subject
Assert.assertEquals(Sets.newHashSet(statement), getSet(f.queryWithin(p1, new StatementConstraints().setContext(context).setSubject(subject))));
// query with wrong context
Assert.assertEquals(Sets.newHashSet(), getSet(f.queryWithin(p1, new StatementConstraints().setContext(vf.createURI("foo:context2")))));
// query with wrong subject
Assert.assertEquals(Sets.newHashSet(), getSet(f.queryWithin(p1, new StatementConstraints().setSubject(vf.createURI("foo:subj2")))));
}
}
use of org.openrdf.model.Statement in project incubator-rya by apache.
the class GeoIndexerTest method testDcSearchWithSubject.
@Test
public void testDcSearchWithSubject() throws Exception {
// test a ring around dc
try (final GeoMesaGeoIndexer f = new GeoMesaGeoIndexer()) {
f.setConf(conf);
final ValueFactory vf = new ValueFactoryImpl();
final Resource subject = vf.createURI("foo:subj");
final URI predicate = GeoConstants.GEO_AS_WKT;
final Value object = vf.createLiteral("Point(-77.03524 38.889468)", GeoConstants.XMLSCHEMA_OGC_WKT);
final Resource context = vf.createURI("foo:context");
final Statement statement = new ContextStatementImpl(subject, predicate, object, context);
f.storeStatement(convertStatement(statement));
f.flush();
final double[] IN = { -78, 39, -77, 39, -77, 38, -78, 38, -78, 39 };
final LinearRing r1 = gf.createLinearRing(new PackedCoordinateSequence.Double(IN, 2));
final Polygon p1 = gf.createPolygon(r1, new LinearRing[] {});
// query with correct subject
Assert.assertEquals(Sets.newHashSet(statement), getSet(f.queryWithin(p1, new StatementConstraints().setSubject(subject))));
// query with wrong subject
Assert.assertEquals(Sets.newHashSet(), getSet(f.queryWithin(p1, new StatementConstraints().setSubject(vf.createURI("foo:subj2")))));
}
}
use of org.openrdf.model.Statement in project incubator-rya by apache.
the class GeoIndexerTest method testDcSearchWithPredicate.
@Test
public void testDcSearchWithPredicate() throws Exception {
// test a ring around dc
try (final GeoMesaGeoIndexer f = new GeoMesaGeoIndexer()) {
f.setConf(conf);
final ValueFactory vf = new ValueFactoryImpl();
final Resource subject = vf.createURI("foo:subj");
final URI predicate = GeoConstants.GEO_AS_WKT;
final Value object = vf.createLiteral("Point(-77.03524 38.889468)", GeoConstants.XMLSCHEMA_OGC_WKT);
final Resource context = vf.createURI("foo:context");
final Statement statement = new ContextStatementImpl(subject, predicate, object, context);
f.storeStatement(convertStatement(statement));
f.flush();
final double[] IN = { -78, 39, -77, 39, -77, 38, -78, 38, -78, 39 };
final LinearRing r1 = gf.createLinearRing(new PackedCoordinateSequence.Double(IN, 2));
final Polygon p1 = gf.createPolygon(r1, new LinearRing[] {});
// query with correct Predicate
Assert.assertEquals(Sets.newHashSet(statement), getSet(f.queryWithin(p1, new StatementConstraints().setPredicates(Collections.singleton(predicate)))));
// query with wrong predicate
Assert.assertEquals(Sets.newHashSet(), getSet(f.queryWithin(p1, new StatementConstraints().setPredicates(Collections.singleton(vf.createURI("other:pred"))))));
}
}
use of org.openrdf.model.Statement in project incubator-rya by apache.
the class GeoIndexerTest method testPrimeMeridianSearch.
@Test
public void testPrimeMeridianSearch() throws Exception {
try (final GeoMesaGeoIndexer f = new GeoMesaGeoIndexer()) {
f.setConf(conf);
final ValueFactory vf = new ValueFactoryImpl();
final Resource subject = vf.createURI("foo:subj");
final URI predicate = GeoConstants.GEO_AS_WKT;
final Value object = vf.createLiteral("Point(0 0)", GeoConstants.XMLSCHEMA_OGC_WKT);
final Resource context = vf.createURI("foo:context");
final Statement statement = new ContextStatementImpl(subject, predicate, object, context);
f.storeStatement(convertStatement(statement));
f.flush();
final double[] ONE = { 1, 1, -1, 1, -1, -1, 1, -1, 1, 1 };
final double[] TWO = { 2, 2, -2, 2, -2, -2, 2, -2, 2, 2 };
final double[] THREE = { 3, 3, -3, 3, -3, -3, 3, -3, 3, 3 };
final LinearRing r1 = gf.createLinearRing(new PackedCoordinateSequence.Double(ONE, 2));
final LinearRing r2 = gf.createLinearRing(new PackedCoordinateSequence.Double(TWO, 2));
final LinearRing r3 = gf.createLinearRing(new PackedCoordinateSequence.Double(THREE, 2));
final Polygon p1 = gf.createPolygon(r1, new LinearRing[] {});
final Polygon p2 = gf.createPolygon(r2, new LinearRing[] {});
final Polygon p3 = gf.createPolygon(r3, new LinearRing[] {});
Assert.assertEquals(Sets.newHashSet(statement), getSet(f.queryWithin(p1, EMPTY_CONSTRAINTS)));
Assert.assertEquals(Sets.newHashSet(statement), getSet(f.queryWithin(p2, EMPTY_CONSTRAINTS)));
Assert.assertEquals(Sets.newHashSet(statement), getSet(f.queryWithin(p3, EMPTY_CONSTRAINTS)));
// Test a ring with a hole in it
final Polygon p3m2 = gf.createPolygon(r3, new LinearRing[] { r2 });
Assert.assertEquals(Sets.newHashSet(), getSet(f.queryWithin(p3m2, EMPTY_CONSTRAINTS)));
// test a ring outside the point
final double[] OUT = { 3, 3, 1, 3, 1, 1, 3, 1, 3, 3 };
final LinearRing rOut = gf.createLinearRing(new PackedCoordinateSequence.Double(OUT, 2));
final Polygon pOut = gf.createPolygon(rOut, new LinearRing[] {});
Assert.assertEquals(Sets.newHashSet(), getSet(f.queryWithin(pOut, EMPTY_CONSTRAINTS)));
}
}
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