use of org.apache.jena.geosparql.spatial.property_functions.SpatialArguments in project jena by apache.
the class GenericCardinalPropertyFunctionTest method testExtractObjectArguments_3args_pos2_fail.
/**
* Test of extractObjectArguments method, of class
* GenericCardinalPropertyFunction.
*/
@Test(expected = ExprEvalException.class)
public void testExtractObjectArguments_3args_pos2_fail() {
Node predicate = NodeFactory.createURI(SpatialExtension.NORTH_PROP);
float lat = 0;
float lon = 1;
int limit = 10;
Literal geometry = ConvertLatLon.toLiteral(lat, lon);
List<Node> objectNodes = Arrays.asList(NodeValue.makeFloat(lat).asNode(), NodeValue.makeFloat(lon).asNode(), NodeValue.makeString("10").asNode());
PropFuncArg object = new PropFuncArg(objectNodes);
GeometryWrapper geometryWrapper = GeometryWrapper.extract(geometry);
NorthPF instance = new NorthPF();
SearchEnvelope searchEnvelope = instance.buildSearchEnvelope(geometryWrapper, SpatialIndexTestData.WGS_84_SRS_INFO);
SpatialArguments expResult = new SpatialArguments(limit, geometryWrapper, searchEnvelope);
SpatialArguments result = instance.extractObjectArguments(predicate, object, SpatialIndexTestData.WGS_84_SRS_INFO);
assertEquals(expResult, result);
}
use of org.apache.jena.geosparql.spatial.property_functions.SpatialArguments in project jena by apache.
the class GenericCardinalPropertyFunctionTest method testExtractObjectArguments_3args_pos0_fail.
/**
* Test of extractObjectArguments method, of class
* GenericCardinalPropertyFunction.
*/
@Test(expected = ExprEvalException.class)
public void testExtractObjectArguments_3args_pos0_fail() {
Node predicate = NodeFactory.createURI(SpatialExtension.NORTH_PROP);
float lat = 0;
float lon = 1;
int limit = 10;
Literal geometry = ConvertLatLon.toLiteral(lat, lon);
List<Node> objectNodes = Arrays.asList(NodeValue.makeString("e").asNode(), NodeValue.makeFloat(lon).asNode(), NodeValue.makeInteger(limit).asNode());
PropFuncArg object = new PropFuncArg(objectNodes);
GeometryWrapper geometryWrapper = GeometryWrapper.extract(geometry);
NorthPF instance = new NorthPF();
SearchEnvelope searchEnvelope = instance.buildSearchEnvelope(geometryWrapper, SpatialIndexTestData.WGS_84_SRS_INFO);
SpatialArguments expResult = new SpatialArguments(limit, geometryWrapper, searchEnvelope);
SpatialArguments result = instance.extractObjectArguments(predicate, object, SpatialIndexTestData.WGS_84_SRS_INFO);
assertEquals(expResult, result);
}
use of org.apache.jena.geosparql.spatial.property_functions.SpatialArguments in project jena by apache.
the class NearbyGeomPFTest method testExtractObjectArguments_2args.
/**
* Test of extractObjectArguments method, of class NearbyGeomPF.
*/
@Test
public void testExtractObjectArguments_2args() {
Node predicate = NodeFactory.createURI(SpatialExtension.NEARBY_GEOM_PROP);
float lat = 0;
float lon = 1;
float radius = 5;
String unitsURI = Unit_URI.KILOMETER_URL;
int limit = -1;
Literal geometry = ConvertLatLon.toLiteral(lat, lon);
List<Node> objectNodes = Arrays.asList(geometry.asNode(), NodeValue.makeFloat(radius).asNode());
PropFuncArg object = new PropFuncArg(objectNodes);
GeometryWrapper geometryWrapper = GeometryWrapper.extract(geometry);
SearchEnvelope searchEnvelope = SearchEnvelope.build(geometryWrapper, SpatialIndexTestData.WGS_84_SRS_INFO, radius, unitsURI);
NearbyGeomPF instance = new NearbyGeomPF();
SpatialArguments expResult = new SpatialArguments(limit, geometryWrapper, searchEnvelope);
SpatialArguments result = instance.extractObjectArguments(predicate, object, SpatialIndexTestData.WGS_84_SRS_INFO);
assertEquals(expResult, result);
}
use of org.apache.jena.geosparql.spatial.property_functions.SpatialArguments in project jena by apache.
the class NearbyGeomPFTest method testExtractObjectArguments_3args.
/**
* Test of extractObjectArguments method, of class NearbyGeomPF.
*/
@Test
public void testExtractObjectArguments_3args() {
Node predicate = NodeFactory.createURI(SpatialExtension.NEARBY_GEOM_PROP);
float lat = 0;
float lon = 1;
float radius = 5000;
String unitsURI = Unit_URI.METRE_URL;
int limit = -1;
Literal geometry = ConvertLatLon.toLiteral(lat, lon);
List<Node> objectNodes = Arrays.asList(geometry.asNode(), NodeValue.makeFloat(radius).asNode(), NodeFactory.createURI(unitsURI));
PropFuncArg object = new PropFuncArg(objectNodes);
GeometryWrapper geometryWrapper = GeometryWrapper.extract(geometry);
SearchEnvelope searchEnvelope = SearchEnvelope.build(geometryWrapper, SpatialIndexTestData.WGS_84_SRS_INFO, radius, unitsURI);
NearbyGeomPF instance = new NearbyGeomPF();
SpatialArguments expResult = new SpatialArguments(limit, geometryWrapper, searchEnvelope);
SpatialArguments result = instance.extractObjectArguments(predicate, object, SpatialIndexTestData.WGS_84_SRS_INFO);
assertEquals(expResult, result);
}
use of org.apache.jena.geosparql.spatial.property_functions.SpatialArguments in project jena by apache.
the class NearbyGeomPFTest method testExtractObjectArguments_4args_pos2_fail.
/**
* Test of extractObjectArguments method, of class NearbyGeomPF.
*/
@Test(expected = ExprEvalException.class)
public void testExtractObjectArguments_4args_pos2_fail() {
Node predicate = NodeFactory.createURI(SpatialExtension.NEARBY_GEOM_PROP);
float lat = 0;
float lon = 1;
float radius = 5000;
String unitsURI = Unit_URI.METRE_URL;
int limit = 10;
Literal geometry = ConvertLatLon.toLiteral(lat, lon);
List<Node> objectNodes = Arrays.asList(geometry.asNode(), NodeValue.makeString("5000").asNode(), NodeFactory.createURI(unitsURI), NodeValue.makeInteger(limit).asNode());
PropFuncArg object = new PropFuncArg(objectNodes);
GeometryWrapper geometryWrapper = GeometryWrapper.extract(geometry);
SearchEnvelope searchEnvelope = SearchEnvelope.build(geometryWrapper, SpatialIndexTestData.WGS_84_SRS_INFO, radius, unitsURI);
NearbyGeomPF instance = new NearbyGeomPF();
SpatialArguments expResult = new SpatialArguments(limit, geometryWrapper, searchEnvelope);
SpatialArguments result = instance.extractObjectArguments(predicate, object, SpatialIndexTestData.WGS_84_SRS_INFO);
// assertEquals(expResult, result);
}
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