use of org.geotoolkit.sml.xml.v100.Outputs in project geotoolkit by Geomatys.
the class SmlXMLBindingTest method ComponentUnmarshallMarshalingTest.
/**
* Test simple Record Marshalling.
*
* @throws java.lang.Exception
*/
@Test
public void ComponentUnmarshallMarshalingTest() throws Exception {
Unmarshaller unmarshaller = SensorMLMarshallerPool.getInstance().acquireUnmarshaller();
InputStream is = SmlXMLBindingTest.class.getResourceAsStream("/org/geotoolkit/sml/component.xml");
Object unmarshalled = unmarshaller.unmarshal(is);
if (unmarshalled instanceof JAXBElement) {
unmarshalled = ((JAXBElement) unmarshalled).getValue();
}
assertTrue(unmarshalled instanceof SensorML);
SensorML result = (SensorML) unmarshalled;
Member member = new Member();
member.setRole("urn:x-ogx:def:sensor:OGC:detector");
ComponentType component = new ComponentType();
List<JAXBElement<String>> kw = new ArrayList<JAXBElement<String>>();
kw.add(sml100Factory.createKeywordsKeywordListKeyword("piezometer"));
kw.add(sml100Factory.createKeywordsKeywordListKeyword("geosciences"));
kw.add(sml100Factory.createKeywordsKeywordListKeyword("point d'eau"));
Keywords keywords = new Keywords(new KeywordList(URI.create("urn:x-brgm:def:gcmd:keywords"), kw));
component.setKeywords(keywords);
Classifier cl1 = new Classifier("intendedApplication", new Term("eaux souterraines", URI.create("urn:x-ogc:def:classifier:OGC:application")));
CodeSpacePropertyType cs = new CodeSpacePropertyType("urn:x-brgm:def:GeoPoint:bss");
Classifier cl2 = new Classifier("sensorType", new Term(cs, "Profondeur", URI.create("urn:sensor:classifier:sensorType")));
List<Classifier> cls = new ArrayList<Classifier>();
cls.add(cl1);
cls.add(cl2);
ClassifierList claList = new ClassifierList(null, cls);
Classification classification = new Classification(claList);
component.setClassification(classification);
List<Identifier> identifiers = new ArrayList<Identifier>();
cs = new CodeSpacePropertyType("urn:x-brgm:def:sensorSystem:hydras");
Identifier id1 = new Identifier("supervisorCode", new Term(cs, "00ARGLELES_2000", URI.create("urn:x-ogc:def:identifier:OGC:modelNumber")));
Identifier id2 = new Identifier("longName", new Term("Madofil II", URI.create("urn:x-ogc:def:identifier:OGC:longname")));
identifiers.add(id1);
identifiers.add(id2);
IdentifierList identifierList = new IdentifierList(null, identifiers);
Identification identification = new Identification(identifierList);
component.setIdentification(identification);
TimePeriodType period = new TimePeriodType(new TimePositionType("2004-06-01"));
ValidTime vTime = new ValidTime(period);
component.setValidTime(vTime);
Capabilities capabilities = new Capabilities();
TimeRange timeRange = new TimeRange(Arrays.asList("1987-04-23", "now"));
DataComponentPropertyType field = new DataComponentPropertyType("periodOfData", "urn:x-brgm:def:property:periodOfData", timeRange);
DataRecordType record = new DataRecordType("urn:x-brgm:def:property:periodOfData", Arrays.asList(field));
JAXBElement<? extends AbstractDataRecordType> jbRecord = swe100Factory.createDataRecord(record);
capabilities.setAbstractDataRecord(jbRecord);
component.setCapabilities(capabilities);
Contact contact = new Contact("urn:x-ogc:def:role:manufacturer", new ResponsibleParty("IRIS"));
component.setContact(contact);
Position position = new Position("conductivitePosition", "piezometer#piezoPosition");
component.setPosition(position);
IoComponentPropertyType io = new IoComponentPropertyType("level", new ObservableProperty("urn:x-ogc:def:phenomenon:OGC:level"));
InputList inputList = new InputList(Arrays.asList(io));
Inputs inputs = new Inputs(inputList);
component.setInputs(inputs);
IoComponentPropertyType io2 = new IoComponentPropertyType("depth", new ObservableProperty("urn:x-ogc:def:phenomenon:OGC:depth"));
OutputList outputList = new OutputList(Arrays.asList(io2));
Outputs outputs = new Outputs(outputList);
component.setOutputs(outputs);
List<DataComponentPropertyType> params = new ArrayList<DataComponentPropertyType>();
UomPropertyType uom = new UomPropertyType(null, "urn:ogc:unit:minuts");
QuantityType quantity1 = new QuantityType("urn:x-ogc:def:property:frequency", uom, 60.0);
DataComponentPropertyType p1 = new DataComponentPropertyType("frequency", "urn:x-ogc:def:property:frequency", quantity1);
params.add(p1);
UomPropertyType uom2 = new UomPropertyType("m", null);
QuantityType quantity2 = new QuantityType("urn:x-ogc:def:property:precision", uom2, 0.05);
DataComponentPropertyType p2 = new DataComponentPropertyType("precision", "urn:x-ogc:def:property:precision", quantity2);
params.add(p2);
QuantityRange quantityRange = new QuantityRange(uom2, Arrays.asList(0.0, 10.0));
DataComponentPropertyType p3 = new DataComponentPropertyType("validity", "urn:x-ogc:def:property:validity", quantityRange);
params.add(p3);
ParameterList paramList = new ParameterList(params);
Parameters parameters = new Parameters(paramList);
component.setParameters(parameters);
component.setPosition(new Position("conductivitePosition", "piezometer#piezoPosition"));
component.setName(new DefaultIdentifier("Capteur Profondeur de ARGELES"));
member.setProcess(sml100Factory.createComponent(component));
SensorML expectedResult = new SensorML("1.0", Arrays.asList(member));
assertEquals(result.getMember().size(), 1);
assertTrue(result.getMember().get(0).getProcess() != null);
assertTrue(result.getMember().get(0).getProcess().getValue() instanceof ComponentType);
ComponentType resultProcess = (ComponentType) result.getMember().get(0).getProcess().getValue();
assertEquals(resultProcess.getCapabilities(), component.getCapabilities());
assertTrue(resultProcess.getContact().size() == 1);
assertEquals(resultProcess.getContact().get(0).getContactList(), component.getContact().get(0).getContactList());
assertEquals(resultProcess.getContact().get(0).getResponsibleParty().getContactInfo(), component.getContact().get(0).getResponsibleParty().getContactInfo());
assertEquals(resultProcess.getContact().get(0).getResponsibleParty().getOrganizationName(), component.getContact().get(0).getResponsibleParty().getOrganizationName());
assertEquals(resultProcess.getContact().get(0).getResponsibleParty(), component.getContact().get(0).getResponsibleParty());
assertEquals(resultProcess.getContact().get(0), component.getContact().get(0));
assertEquals(resultProcess.getContact(), component.getContact());
assertTrue(resultProcess.getClassification().size() == 1);
assertTrue(resultProcess.getClassification().get(0).getClassifierList().getClassifier().size() == 2);
assertEquals(resultProcess.getClassification().get(0).getClassifierList().getClassifier().get(0).getTerm(), component.getClassification().get(0).getClassifierList().getClassifier().get(0).getTerm());
assertEquals(resultProcess.getClassification().get(0).getClassifierList().getClassifier().get(0), component.getClassification().get(0).getClassifierList().getClassifier().get(0));
assertEquals(resultProcess.getClassification().get(0).getClassifierList().getClassifier(), component.getClassification().get(0).getClassifierList().getClassifier());
assertEquals(resultProcess.getClassification().get(0).getClassifierList(), component.getClassification().get(0).getClassifierList());
assertEquals(resultProcess.getClassification().get(0), component.getClassification().get(0));
assertEquals(resultProcess.getClassification(), component.getClassification());
assertEquals(resultProcess.getIdentification(), component.getIdentification());
assertEquals(resultProcess.getValidTime(), component.getValidTime());
assertEquals(resultProcess.getParameters(), component.getParameters());
assertEquals(resultProcess.getInputs().getInputList().getInput(), component.getInputs().getInputList().getInput());
assertEquals(resultProcess.getInputs().getInputList(), component.getInputs().getInputList());
assertEquals(resultProcess.getInputs(), component.getInputs());
assertEquals(resultProcess.getOutputs(), component.getOutputs());
assertEquals(resultProcess.getSMLLocation(), component.getSMLLocation());
assertEquals(resultProcess.getPosition(), component.getPosition());
assertEquals(resultProcess.getSpatialReferenceFrame(), component.getSpatialReferenceFrame());
assertEquals(resultProcess.getDocumentation(), component.getDocumentation());
assertEquals(resultProcess.getCharacteristics(), component.getCharacteristics());
assertEquals(resultProcess.getKeywords(), component.getKeywords());
assertEquals(resultProcess.getParameters(), component.getParameters());
assertEquals(resultProcess.getName(), component.getName());
assertEquals(resultProcess, component);
assertEquals(expectedResult.getMember().get(0), result.getMember().get(0));
assertEquals(expectedResult.getMember(), result.getMember());
assertEquals(expectedResult, result);
SensorMLMarshallerPool.getInstance().recycle(unmarshaller);
}
use of org.geotoolkit.sml.xml.v100.Outputs in project geotoolkit by Geomatys.
the class SmlXMLBindingTest method SystemUnmarshallMarshalingTest.
/**
* Test simple Record Marshalling.
*
* @throws java.lang.Exception
*/
@Test
public void SystemUnmarshallMarshalingTest() throws Exception {
Unmarshaller unmarshaller = SensorMLMarshallerPool.getInstance().acquireUnmarshaller();
InputStream is = SmlXMLBindingTest.class.getResourceAsStream("/org/geotoolkit/sml/system.xml");
Object unmarshalled = unmarshaller.unmarshal(is);
if (unmarshalled instanceof JAXBElement) {
unmarshalled = ((JAXBElement) unmarshalled).getValue();
}
assertTrue(unmarshalled instanceof SensorML);
SensorML result = (SensorML) unmarshalled;
Member member = new Member();
member.setRole("urn:x-ogx:def:sensor:OGC:detector");
SystemType system = new SystemType();
List<JAXBElement<String>> kw = new ArrayList<JAXBElement<String>>();
kw.add(sml100Factory.createKeywordsKeywordListKeyword("piezometer"));
kw.add(sml100Factory.createKeywordsKeywordListKeyword("geosciences"));
kw.add(sml100Factory.createKeywordsKeywordListKeyword("point d'eau"));
Keywords keywords = new Keywords(new KeywordList(URI.create("urn:x-brgm:def:gcmd:keywords"), kw));
system.setKeywords(keywords);
Classifier cl1 = new Classifier("intendedApplication", new Term("eaux souterraines", URI.create("urn:x-ogc:def:classifier:OGC:application")));
CodeSpacePropertyType cs = new CodeSpacePropertyType("urn:x-brgm:def:GeoPoint:bss");
Classifier cl2 = new Classifier("sensorType", new Term(cs, "piezometer", URI.create("urn:sensor:classifier:sensorType")));
CodeSpacePropertyType cs3 = new CodeSpacePropertyType("urn:x-sandre:def:mdo:identifier");
Classifier cl3 = new Classifier("waterBody", new Term(cs3, "FR6221", URI.create("urn:sensor:classifier:references")));
CodeSpacePropertyType cs4 = new CodeSpacePropertyType("urn:x-sandre:def:mdo:name");
Classifier cl4 = new Classifier("waterBody", new Term(cs4, "Multicouche pliocene et alluvions quaternaires du Roussillon", URI.create("urn:sensor:classifier:references")));
CodeSpacePropertyType cs5 = new CodeSpacePropertyType("urn:x-sandre:def:bdhrf:identifier");
Classifier cl5 = new Classifier("hydrologicalEntity", new Term(cs5, "225", URI.create("urn:sensor:classifier:references")));
CodeSpacePropertyType cs6 = new CodeSpacePropertyType("urn:x-sandre:def:bdhrf:name");
Classifier cl6 = new Classifier("hydrologicalEntity", new Term(cs6, "Pliocene du Roussillon", URI.create("urn:sensor:classifier:references")));
CodeSpacePropertyType cs7 = new CodeSpacePropertyType("urn:x-insee:def:commune:identifier");
Classifier cl7 = new Classifier("commune", new Term(cs7, "66008", URI.create("urn:sensor:classifier:references")));
CodeSpacePropertyType cs8 = new CodeSpacePropertyType("urn:x-insee:def:commune:name");
Classifier cl8 = new Classifier("commune", new Term(cs8, "ARGELES SUR MER", URI.create("urn:sensor:classifier:references")));
CodeSpacePropertyType cs9 = new CodeSpacePropertyType("urn:x-sandre:def:network:identifier");
Classifier cl9 = new Classifier("network", new Term(cs9, "600000221", URI.create("urn:sensor:classifier:references")));
CodeSpacePropertyType cs10 = new CodeSpacePropertyType("urn:x-sandre:def:network:identifier");
Classifier cl10 = new Classifier("network", new Term(cs10, "600000025", URI.create("urn:sensor:classifier:references")));
List<Classifier> cls = new ArrayList<Classifier>();
cls.add(cl1);
cls.add(cl2);
cls.add(cl3);
cls.add(cl4);
cls.add(cl5);
cls.add(cl6);
cls.add(cl7);
cls.add(cl8);
cls.add(cl9);
cls.add(cl10);
ClassifierList claList = new ClassifierList(null, cls);
Classification classification = new Classification(claList);
system.setClassification(classification);
List<Identifier> identifiers = new ArrayList<Identifier>();
cs = new CodeSpacePropertyType("urn:x-brgm:def:samplingStation:bss");
Identifier id1 = new Identifier("bssCode", new Term(cs, "10972X0137/PONT", URI.create("urn:x-ogc:def:identifier:OGC:modelNumber")));
cs = new CodeSpacePropertyType("urn:x-brgm:def:sensorSystem:hydras");
Identifier id2 = new Identifier("supervisorCode", new Term(cs, "00ARGLELES", URI.create("urn:x-ogc:def:identifier:OGC:modelNumber")));
Identifier id3 = new Identifier("longName", new Term("ARGELES", URI.create("urn:x-ogc:def:identifier:OGC:longname")));
identifiers.add(id1);
identifiers.add(id2);
identifiers.add(id3);
IdentifierList identifierList = new IdentifierList(null, identifiers);
Identification identification = new Identification(identifierList);
system.setIdentification(identification);
Capabilities capabilities = new Capabilities();
List<DataComponentPropertyType> fields = new ArrayList<DataComponentPropertyType>();
QuantityType quantity = new QuantityType("urn:x-ogc:def:property:temperature", new UomPropertyType(null, "urn:ogc:unit:degree:celsius"), 0.1);
DataComponentPropertyType field1 = new DataComponentPropertyType("resolution", "urn:x-ogc:def:property:resolution", quantity);
fields.add(field1);
QuantityRange quantityR = new QuantityRange(new UomPropertyType(null, "urn:ogc:unit:percent"), Arrays.asList(-0.5, 0.5));
quantityR.setDefinition("urn:x-ogc:def:property:absoluteAccuracy");
DataComponentPropertyType field2 = new DataComponentPropertyType("accuracy", "urn:x-ogc:def:property:accuracy", quantityR);
fields.add(field2);
DataRecordType record = new DataRecordType("urn:x-ogc:def:property:measurementProperties", fields);
record.setDescription("Toutes les informations sur les contraintes sur les donnees");
JAXBElement<? extends AbstractDataRecordType> jbRecord = swe100Factory.createDataRecord(record);
capabilities.setAbstractDataRecord(jbRecord);
system.setCapabilities(capabilities);
AddressType address1 = new AddressType("SGR LRO-1039 Rue de Pinville-34000 Montpellier", "MONTPELLIER", null, null, null, "m.blaise@brgm.fr");
ContactInfo contactInfo1 = new ContactInfo(null, address1);
ResponsibleParty resp1 = new ResponsibleParty("BLAISE Marion (BRGM)", "BRGM", null, contactInfo1);
Contact contact1 = new Contact("urn:x-ogc:def:role:producer", resp1);
AddressType address2 = new AddressType("Hotel du Departement, B.P. 906, 66 906 Perpignan Cedex", "PERPIGNAN", null, null, null, null);
ContactInfo contactInfo2 = new ContactInfo(null, address2);
ResponsibleParty resp2 = new ResponsibleParty("ASSENS Martine (CG66)", "CONSEIL GENERAL DES PYRENEES ORIENTALES", null, contactInfo2);
Contact contact2 = new Contact("urn:x-ogc:def:role:owner", resp2);
system.setContact(Arrays.asList(contact1, contact2));
IoComponentPropertyType io = new IoComponentPropertyType("level", new ObservableProperty("urn:x-ogc:def:phenomenon:OGC:level"));
InputList inputList = new InputList(Arrays.asList(io));
Inputs inputs = new Inputs(inputList);
system.setInputs(inputs);
fields = new ArrayList<DataComponentPropertyType>();
TimeType time = new TimeType("urn:x-ogc:def:phenomenon:observationTime", new UomPropertyType(null, "urn:x-ogc:def:unit:ISO8601"));
fields.add(new DataComponentPropertyType("time", null, time));
QuantityType q = new QuantityType("urn:x-ogc:def:phenomenon:OGC:depth", new UomPropertyType("m", null), null);
fields.add(new DataComponentPropertyType("depth", null, q));
BooleanType b = new BooleanType("urn:x-ogc:def:phenomenon:BRGM:validity", null);
fields.add(new DataComponentPropertyType("validity", null, b));
DataRecordType outRecord = new DataRecordType(null, fields);
outRecord.setId("outputGroup");
IoComponentPropertyType io2 = new IoComponentPropertyType("piezoMeasurements", swe100Factory.createDataRecord(outRecord));
OutputList outputList = new OutputList(Arrays.asList(io2));
Outputs outputs = new Outputs(outputList);
system.setOutputs(outputs);
fields = new ArrayList<DataComponentPropertyType>();
q = new QuantityType("urn:x-ogc:def:property:depth", new UomPropertyType(null, "urn:ogc:unit:m"), 166.0);
fields.add(new DataComponentPropertyType("MaxDepth", null, q));
DataRecordType charRecord = new DataRecordType(null, fields);
List<DataComponentPropertyType> fields2 = new ArrayList<DataComponentPropertyType>();
fields2.add(new DataComponentPropertyType("physicalProperties", null, swe100Factory.createDataRecord(charRecord)));
DataRecordType ccharRecord = new DataRecordType("urn:x-ogc:def:property:physicalProperties", fields2);
Characteristics characteristics = new Characteristics();
characteristics.setAbstractDataRecord(swe100Factory.createDataRecord(ccharRecord));
system.setCharacteristics(characteristics);
DirectPositionType pos = new DirectPositionType("urn:ogc:crs:EPSG:27582", 2, Arrays.asList(65400.0, 1731368.0));
PointType point = new PointType("STATION_LOCALISATION", pos);
Location location = new Location(point);
system.setSMLLocation(location);
EngineeringDatumType engineeringDatum = new EngineeringDatumType("datum", "Sensor Datum", new CodeType("X, Y et Z sont orthogonal au regard d'un point de reference."));
EngineeringDatumRefType usesEngineeringDatum = new EngineeringDatumRefType(engineeringDatum);
EngineeringCRSType engineeringCRS = new EngineeringCRSType("STATION_FRAME", "Position absolue du capteur", new CoordinateSystemRefType("urn:ogc:def:crs:ogc:1.0:xyzFrame"), usesEngineeringDatum);
SpatialReferenceFrame spatialReferenceFrame = new SpatialReferenceFrame(engineeringCRS);
system.setSpatialReferenceFrame(spatialReferenceFrame);
Document doc = new Document("Fiche descriptive de la station", "text/html", Arrays.asList(new OnlineResource("http://ades.eaufrance.fr/FichePtEau.aspx?code=10972X0137/PONT")));
Documentation documentation = new Documentation(doc);
documentation.setRole("urn:ogc:role:description");
system.setDocumentation(Arrays.asList(documentation));
List<ComponentPropertyType> compos = new ArrayList<ComponentPropertyType>();
compos.add(new ComponentPropertyType("Profondeur", "urn:x-ogc:def:sensor:detector", "capteur_"));
ComponentList componentList = new ComponentList(compos);
Components components = new Components(componentList);
system.setComponents(components);
List<CoordinateType> coordinates = new ArrayList<CoordinateType>();
QuantityType xQuant = new QuantityType("urn:ogc:def:phenomenon:distance", new UomPropertyType("m", null), 0.0);
xQuant.setAxisID("X");
CoordinateType xcoord = new CoordinateType("x", xQuant);
QuantityType yQuant = new QuantityType("urn:ogc:def:phenomenon:distance", new UomPropertyType("m", null), 0.0);
yQuant.setAxisID("Y");
CoordinateType ycoord = new CoordinateType("y", yQuant);
QuantityType zQuant = new QuantityType("urn:ogc:def:phenomenon:distance", new UomPropertyType("m", null), 0.0);
zQuant.setAxisID("Z");
CoordinateType zcoord = new CoordinateType("z", zQuant);
coordinates.add(xcoord);
coordinates.add(ycoord);
coordinates.add(zcoord);
VectorType vect = new VectorType("urn:ogc:def:phenomenon:location", coordinates);
VectorPropertyType vectP = new VectorPropertyType(vect);
PositionType Sposition = new PositionType(URI.create("#REFERENCE_POINT"), URI.create("#PIEZOMETER_FRAME"), vectP, null);
Position position = new Position("piezoPosition", Sposition);
PositionList positionList = new PositionList(null, Arrays.asList(position));
Positions positions = new Positions(positionList);
system.setPositions(positions);
TemporalReferenceFrame temporalReferenceFrame = new TemporalReferenceFrame(new TemporalCRSType("temporalReference", null, null, "calendrier gregorien en heure d'ete", new TemporalCSRefType("urn:x-brgm:temporalCS:gregorian"), new TemporalDatumRefType("urn:x-brgm:temporalDatum:UniversalTime")));
system.setTemporalReferenceFrame(temporalReferenceFrame);
List<Connection> connecL = new ArrayList<Connection>();
connecL.add(new Connection("inputTolevel", new Link(null, new LinkRef("this/inputs/level"), new LinkRef("piezometer/inputs/level"))));
Connection c2 = new Connection("depthToOutput", new Link(null, new LinkRef("piezometer/outputs/depth"), new LinkRef("this/outputs/piezoMeasurements/depth")));
ArrayLink alink = new ArrayLink();
LinkRef sa = new LinkRef("piezometer/outputs/depth");
alink.setSourceArray(sa);
LinkRef si = new LinkRef("this/outputs/piezoMeasurements/depth");
alink.setSourceIndex(si);
LinkRef da = new LinkRef("this/outputs/piezoMeasurements/depth");
alink.setDestinationArray(da);
LinkRef di = new LinkRef("this/outputs/piezoMeasurements/depth");
alink.getDestinationIndex().add(di);
c2.setArrayLink(alink);
connecL.add(c2);
ConnectionList connectionList = new ConnectionList(connecL);
Connections connections = new Connections(connectionList);
system.setConnections(connections);
LayerPropertyType applicationLayer = new LayerPropertyType(new Category("urn:ogc:def:protocol:applicationLink", "urn:x-brgm:def:protocol:hydrasIRIS"));
LayerPropertyType dataLinkLayer = new LayerPropertyType(new Category("urn:ogc:def:protocol:dataLink", "urn:x-brgm:def:dataLink:RTC"));
InterfaceDefinition definition = new InterfaceDefinition(null, applicationLayer, dataLinkLayer);
Interface i1 = new Interface("RS-232", definition);
List<Interface> interfaceL = new ArrayList<Interface>();
interfaceL.add(i1);
InterfaceList interfaceList = new InterfaceList(null, interfaceL);
Interfaces interfaces = new Interfaces(interfaceList);
system.setInterfaces(interfaces);
Rights rights = new Rights(true, true, new Documentation(new Document("Donnees sous copyright du BRGM")));
LegalConstraint legalConstraint = new LegalConstraint(rights);
system.setLegalConstraint(legalConstraint);
system.setDescription("information about the piezometer");
system.setName(new DefaultIdentifier("Piezometer Test"));
member.setProcess(sml100Factory.createSystem(system));
SensorML expectedResult = new SensorML("1.0", Arrays.asList(member));
assertEquals(result.getMember().size(), 1);
assertTrue(result.getMember().get(0).getProcess() != null);
assertTrue(result.getMember().get(0).getProcess().getValue() instanceof SystemType);
SystemType resultProcess = (SystemType) result.getMember().get(0).getProcess().getValue();
assertEquals(resultProcess.getCapabilities().size(), system.getCapabilities().size());
assertTrue(resultProcess.getCapabilities().get(0).getAbstractDataRecord().getValue() instanceof DataRecordType);
DataRecordType resultRecord = (DataRecordType) resultProcess.getCapabilities().get(0).getAbstractDataRecord().getValue();
DataRecordType expRecord = (DataRecordType) system.getCapabilities().get(0).getAbstractDataRecord().getValue();
assertEquals(resultRecord.getField().get(0), expRecord.getField().get(0));
assertEquals(resultRecord.getField().get(1), expRecord.getField().get(1));
assertEquals(resultRecord.getField(), expRecord.getField());
assertEquals(resultProcess.getCapabilities().get(0).getAbstractDataRecord().getValue(), system.getCapabilities().get(0).getAbstractDataRecord().getValue());
assertEquals(resultProcess.getCapabilities().get(0), system.getCapabilities().get(0));
assertEquals(resultProcess.getCapabilities(), system.getCapabilities());
assertTrue(resultProcess.getContact().size() == 2);
assertEquals(resultProcess.getContact().get(0).getContactList(), system.getContact().get(0).getContactList());
assertEquals(resultProcess.getContact().get(0).getResponsibleParty().getContactInfo(), system.getContact().get(0).getResponsibleParty().getContactInfo());
assertEquals(resultProcess.getContact().get(0).getResponsibleParty().getOrganizationName(), system.getContact().get(0).getResponsibleParty().getOrganizationName());
assertEquals(resultProcess.getContact().get(0).getResponsibleParty(), system.getContact().get(0).getResponsibleParty());
assertEquals(resultProcess.getContact().get(0), system.getContact().get(0));
assertEquals(resultProcess.getContact(), system.getContact());
assertTrue(resultProcess.getClassification().size() == 1);
assertTrue(resultProcess.getClassification().get(0).getClassifierList().getClassifier().size() == 10);
assertEquals(resultProcess.getClassification().get(0).getClassifierList().getClassifier().get(0).getTerm(), system.getClassification().get(0).getClassifierList().getClassifier().get(0).getTerm());
assertEquals(resultProcess.getClassification().get(0).getClassifierList().getClassifier().get(0), system.getClassification().get(0).getClassifierList().getClassifier().get(0));
assertEquals(resultProcess.getClassification().get(0).getClassifierList().getClassifier(), system.getClassification().get(0).getClassifierList().getClassifier());
assertEquals(resultProcess.getClassification().get(0).getClassifierList(), system.getClassification().get(0).getClassifierList());
assertEquals(resultProcess.getClassification().get(0), system.getClassification().get(0));
assertEquals(resultProcess.getClassification(), system.getClassification());
assertEquals(resultProcess.getIdentification(), system.getIdentification());
assertEquals(resultProcess.getValidTime(), system.getValidTime());
assertEquals(resultProcess.getParameters(), system.getParameters());
assertEquals(resultProcess.getInputs().getInputList().getInput(), system.getInputs().getInputList().getInput());
assertEquals(resultProcess.getInputs().getInputList(), system.getInputs().getInputList());
assertEquals(resultProcess.getInputs(), system.getInputs());
assertEquals(resultProcess.getOutputs(), system.getOutputs());
assertEquals(resultProcess.getSMLLocation(), system.getSMLLocation());
assertEquals(resultProcess.getPosition(), system.getPosition());
assertEquals(resultProcess.getSpatialReferenceFrame(), system.getSpatialReferenceFrame());
assertEquals(resultProcess.getDocumentation(), system.getDocumentation());
assertEquals(resultProcess.getCharacteristics(), system.getCharacteristics());
assertEquals(resultProcess.getComponents(), system.getComponents());
assertEquals(resultProcess.getPositions(), system.getPositions());
assertEquals(resultProcess.getTemporalReferenceFrame(), system.getTemporalReferenceFrame());
assertEquals(resultProcess.getConnections().getConnectionList().getConnection().get(0), system.getConnections().getConnectionList().getConnection().get(0));
assertEquals(resultProcess.getConnections().getConnectionList().getConnection().get(1), system.getConnections().getConnectionList().getConnection().get(1));
assertEquals(resultProcess.getConnections().getConnectionList().getConnection(), system.getConnections().getConnectionList().getConnection());
assertEquals(resultProcess.getConnections().getConnectionList(), system.getConnections().getConnectionList());
assertEquals(resultProcess.getConnections(), system.getConnections());
assertEquals(resultProcess.getInterfaces(), system.getInterfaces());
assertEquals(resultProcess.getLegalConstraint(), system.getLegalConstraint());
assertEquals(resultProcess.getKeywords(), system.getKeywords());
assertEquals(resultProcess.getId(), system.getId());
assertEquals(resultProcess.getName(), system.getName());
assertEquals(resultProcess, system);
assertEquals(expectedResult.getMember().get(0), result.getMember().get(0));
assertEquals(expectedResult.getMember(), result.getMember());
assertEquals(expectedResult, result);
SensorMLMarshallerPool.getInstance().recycle(unmarshaller);
}
use of org.geotoolkit.sml.xml.v100.Outputs in project geotoolkit by Geomatys.
the class SmlXMLFactory method convertTo101.
public static org.geotoolkit.sml.xml.v101.SensorML convertTo101(final org.geotoolkit.sml.xml.v100.SensorML sensor) {
List<org.geotoolkit.sml.xml.v101.SensorML.Member> newMembers = new ArrayList<org.geotoolkit.sml.xml.v101.SensorML.Member>();
for (Member oldMember : sensor.getMember()) {
final org.geotoolkit.sml.xml.v101.AbstractProcessType newProcess;
if (oldMember.getRealProcess() instanceof System) {
newProcess = new org.geotoolkit.sml.xml.v101.SystemType();
} else if (oldMember.getRealProcess() instanceof Component) {
newProcess = new org.geotoolkit.sml.xml.v101.ComponentType();
} else if (oldMember.getRealProcess() instanceof AbstractDataSource) {
newProcess = new org.geotoolkit.sml.xml.v101.DataSourceType();
} else if (oldMember.getRealProcess() instanceof AbstractProcessModel) {
newProcess = new org.geotoolkit.sml.xml.v101.ProcessModelType();
} else if (oldMember.getRealProcess() instanceof ComponentArray) {
newProcess = new org.geotoolkit.sml.xml.v101.ComponentArrayType();
} else {
throw new IllegalArgumentException("Other sensor type than system, component, processModel, processChain, componentArray or datasource are not yet convertible");
}
AbstractProcessType oldProcess = (AbstractProcessType) oldMember.getRealProcess();
// id
newProcess.setId(oldProcess.getId());
// name
newProcess.setName(oldProcess.getName());
// srsName
newProcess.setSrsName(oldProcess.getSrsName());
// description
newProcess.setDescription(oldProcess.getDescription());
// boundedBy
newProcess.setBoundedBy(oldProcess.getBoundedBy());
// capabilities
List<org.geotoolkit.sml.xml.v101.Capabilities> newCapabilities = new ArrayList<org.geotoolkit.sml.xml.v101.Capabilities>();
for (Capabilities oldCapa : oldProcess.getCapabilities()) {
newCapabilities.add(new org.geotoolkit.sml.xml.v101.Capabilities(oldCapa));
}
newProcess.setCapabilities(newCapabilities);
// characteristics
List<org.geotoolkit.sml.xml.v101.Characteristics> newCharacteristics = new ArrayList<org.geotoolkit.sml.xml.v101.Characteristics>();
for (Characteristics oldChar : oldProcess.getCharacteristics()) {
newCharacteristics.add(new org.geotoolkit.sml.xml.v101.Characteristics(oldChar));
}
newProcess.setCharacteristics(newCharacteristics);
// Classification
List<org.geotoolkit.sml.xml.v101.Classification> newClassification = new ArrayList<org.geotoolkit.sml.xml.v101.Classification>();
for (Classification oldClass : oldProcess.getClassification()) {
newClassification.add(new org.geotoolkit.sml.xml.v101.Classification(oldClass));
}
newProcess.setClassification(newClassification);
// Contact
List<org.geotoolkit.sml.xml.v101.Contact> newContact = new ArrayList<org.geotoolkit.sml.xml.v101.Contact>();
for (Contact oldContact : oldProcess.getContact()) {
newContact.add(new org.geotoolkit.sml.xml.v101.Contact(oldContact));
}
newProcess.setContact(newContact);
// Contact
List<org.geotoolkit.sml.xml.v101.Documentation> newDocumentation = new ArrayList<org.geotoolkit.sml.xml.v101.Documentation>();
for (Documentation oldDoc : oldProcess.getDocumentation()) {
newDocumentation.add(new org.geotoolkit.sml.xml.v101.Documentation(oldDoc));
}
newProcess.setDocumentation(newDocumentation);
// History
List<org.geotoolkit.sml.xml.v101.History> newHistory = new ArrayList<org.geotoolkit.sml.xml.v101.History>();
for (History oldhist : oldProcess.getHistory()) {
newHistory.add(new org.geotoolkit.sml.xml.v101.History(oldhist));
}
newProcess.setHistory(newHistory);
// Identification
List<org.geotoolkit.sml.xml.v101.Identification> newIdentification = new ArrayList<org.geotoolkit.sml.xml.v101.Identification>();
for (Identification oldIdent : oldProcess.getIdentification()) {
newIdentification.add(new org.geotoolkit.sml.xml.v101.Identification(oldIdent));
}
newProcess.setIdentification(newIdentification);
// keywords
List<org.geotoolkit.sml.xml.v101.Keywords> newKeywords = new ArrayList<org.geotoolkit.sml.xml.v101.Keywords>();
for (Keywords oldKeyw : oldProcess.getKeywords()) {
newKeywords.add(new org.geotoolkit.sml.xml.v101.Keywords(oldKeyw));
}
newProcess.setKeywords(newKeywords);
// legal constraint
List<org.geotoolkit.sml.xml.v101.LegalConstraint> newLegalConstraints = new ArrayList<org.geotoolkit.sml.xml.v101.LegalConstraint>();
for (LegalConstraint oldcons : oldProcess.getLegalConstraint()) {
newLegalConstraints.add(new org.geotoolkit.sml.xml.v101.LegalConstraint(oldcons));
}
newProcess.setLegalConstraint(newLegalConstraints);
// security constraint
if (oldProcess.getSecurityConstraint() != null) {
newProcess.setSecurityConstraint(new org.geotoolkit.sml.xml.v101.SecurityConstraint(oldProcess.getSecurityConstraint()));
}
// validTime
if (oldProcess.getValidTime() != null) {
newProcess.setValidTime(oldProcess.getValidTime());
}
if (oldProcess instanceof AbstractComponent) {
AbstractComponent newAbsComponent = (AbstractComponent) newProcess;
AbstractComponent oldAbsComponent = (AbstractComponent) oldProcess;
// Inputs
if (oldAbsComponent.getInputs() != null) {
newAbsComponent.setInputs(oldAbsComponent.getInputs());
}
// outputs
if (oldAbsComponent.getOutputs() != null) {
newAbsComponent.setOutputs(oldAbsComponent.getOutputs());
}
// parameters
if (oldAbsComponent.getParameters() != null) {
newAbsComponent.setParameters(oldAbsComponent.getParameters());
}
}
if (oldProcess instanceof AbstractDerivableComponent) {
org.geotoolkit.sml.xml.v101.AbstractDerivableComponentType newDerComponent = (org.geotoolkit.sml.xml.v101.AbstractDerivableComponentType) newProcess;
AbstractDerivableComponent oldDerComponent = (AbstractDerivableComponent) oldProcess;
// Position
if (oldDerComponent.getPosition() != null) {
newDerComponent.setPosition(oldDerComponent.getPosition());
}
if (oldDerComponent.getSMLLocation() != null) {
newDerComponent.setSMLLocation(oldDerComponent.getSMLLocation());
}
if (oldDerComponent.getInterfaces() != null) {
newDerComponent.setInterfaces(new org.geotoolkit.sml.xml.v101.Interfaces(oldDerComponent.getInterfaces()));
}
if (oldDerComponent.getSpatialReferenceFrame() != null) {
newDerComponent.setSpatialReferenceFrame(new org.geotoolkit.sml.xml.v101.SpatialReferenceFrame(oldDerComponent.getSpatialReferenceFrame()));
}
if (oldDerComponent.getTemporalReferenceFrame() != null) {
newDerComponent.setTemporalReferenceFrame(new org.geotoolkit.sml.xml.v101.TemporalReferenceFrame(oldDerComponent.getTemporalReferenceFrame()));
}
if (oldDerComponent.getTimePosition() != null) {
newDerComponent.setTimePosition(new org.geotoolkit.sml.xml.v101.TimePosition(oldDerComponent.getTimePosition()));
}
}
if (oldProcess instanceof AbstractPureProcess) {
org.geotoolkit.sml.xml.v101.AbstractPureProcessType newAbsPuProc = (org.geotoolkit.sml.xml.v101.AbstractPureProcessType) newProcess;
AbstractPureProcess oldAbsPuProc = (AbstractPureProcess) oldProcess;
// Inputs
if (oldAbsPuProc.getInputs() != null) {
newAbsPuProc.setInputs(new org.geotoolkit.sml.xml.v101.Inputs(oldAbsPuProc.getInputs()));
}
// outputs
if (oldAbsPuProc.getOutputs() != null) {
newAbsPuProc.setOutputs(new org.geotoolkit.sml.xml.v101.Outputs(oldAbsPuProc.getOutputs()));
}
// parameters
if (oldAbsPuProc.getParameters() != null) {
newAbsPuProc.setParameters(new org.geotoolkit.sml.xml.v101.Parameters(oldAbsPuProc.getParameters()));
}
}
if (oldMember.getRealProcess() instanceof System) {
SystemType oldSystem = (SystemType) oldMember.getRealProcess();
org.geotoolkit.sml.xml.v101.SystemType newSystem = (org.geotoolkit.sml.xml.v101.SystemType) newProcess;
// components
if (oldSystem.getComponents() != null) {
newSystem.setComponents(new org.geotoolkit.sml.xml.v101.Components(oldSystem.getComponents()));
}
// positions
if (oldSystem.getPositions() != null) {
newSystem.setPositions(new org.geotoolkit.sml.xml.v101.Positions(oldSystem.getPositions()));
}
// connections
if (oldSystem.getConnections() != null) {
newSystem.setConnections(new org.geotoolkit.sml.xml.v101.Connections(oldSystem.getConnections()));
}
} else if (oldMember.getRealProcess() instanceof Component) {
ComponentType oldComponent = (ComponentType) oldMember.getRealProcess();
org.geotoolkit.sml.xml.v101.ComponentType newCompo = (org.geotoolkit.sml.xml.v101.ComponentType) newProcess;
// method
if (oldComponent.getMethod() != null) {
newCompo.setMethod(new org.geotoolkit.sml.xml.v101.MethodPropertyType(oldComponent.getMethod()));
}
} else if (oldMember.getRealProcess() instanceof AbstractDataSource) {
DataSourceType oldDataSource = (DataSourceType) oldMember.getRealProcess();
org.geotoolkit.sml.xml.v101.DataSourceType newDataSource = (org.geotoolkit.sml.xml.v101.DataSourceType) newProcess;
if (oldDataSource.getDataDefinition() != null) {
newDataSource.setDataDefinition(new org.geotoolkit.sml.xml.v101.DataDefinition(oldDataSource.getDataDefinition()));
}
if (oldDataSource.getValues() != null) {
newDataSource.setValues(new org.geotoolkit.sml.xml.v101.Values(oldDataSource.getValues()));
}
if (oldDataSource.getObservationReference() != null) {
newDataSource.setObservationReference(new org.geotoolkit.sml.xml.v101.ObservationReference(oldDataSource.getObservationReference()));
}
} else if (oldMember.getRealProcess() instanceof AbstractProcessModel) {
ProcessModelType oldProcessModel = (ProcessModelType) oldMember.getRealProcess();
org.geotoolkit.sml.xml.v101.ProcessModelType newProcessModel = (org.geotoolkit.sml.xml.v101.ProcessModelType) newProcess;
if (oldProcessModel.getMethod() != null) {
newProcessModel.setMethod(new org.geotoolkit.sml.xml.v101.MethodPropertyType(oldProcessModel.getMethod()));
}
} else if (oldMember.getRealProcess() instanceof AbstractProcessChain) {
ProcessChainType oldProcessChain = (ProcessChainType) oldMember.getRealProcess();
org.geotoolkit.sml.xml.v101.ProcessChainType newProcessChain = (org.geotoolkit.sml.xml.v101.ProcessChainType) newProcess;
// components
if (oldProcessChain.getComponents() != null) {
newProcessChain.setComponents(new org.geotoolkit.sml.xml.v101.Components(oldProcessChain.getComponents()));
}
// connections
if (oldProcessChain.getConnections() != null) {
newProcessChain.setConnections(new org.geotoolkit.sml.xml.v101.Connections(oldProcessChain.getConnections()));
}
} else if (oldMember.getRealProcess() instanceof ComponentArray) {
// nothing to do
} else {
throw new IllegalArgumentException("Other sensor type than system ,component, processModel, processChain, componentArray or datasource are not yet convertible");
}
newMembers.add(new org.geotoolkit.sml.xml.v101.SensorML.Member(newProcess));
}
org.geotoolkit.sml.xml.v101.SensorML result = new org.geotoolkit.sml.xml.v101.SensorML("1.0.1", newMembers);
return result;
}
use of org.geotoolkit.sml.xml.v100.Outputs in project geotoolkit by Geomatys.
the class SmlXMLBindingTest method marshallMarshalingTest.
/**
* Test simple Record Marshalling.
*
* @throws java.lang.Exception
*/
@Test
public void marshallMarshalingTest() throws Exception {
ObjectFactory factory = new ObjectFactory();
List<DataComponentPropertyType> fields = new ArrayList<DataComponentPropertyType>();
TimeType time = new TimeType("urn:x-ogc:def:phenomenon:observationTime", new UomPropertyType(null, "urn:x-ogc:def:unit:ISO8601"));
fields.add(new DataComponentPropertyType("time", null, time));
QuantityType q = new QuantityType("urn:x-ogc:def:phenomenon:OGC:depth", new UomPropertyType("m", null), null);
fields.add(new DataComponentPropertyType("depth", null, q));
BooleanType b = new BooleanType("urn:x-ogc:def:phenomenon:BRGM:validity", null);
fields.add(new DataComponentPropertyType("validity", null, b));
DataRecordType outRecord = new DataRecordType(null, fields);
IoComponentPropertyType io2 = new IoComponentPropertyType("piezoMeasurements", swe100Factory.createDataRecord(outRecord));
OutputList outputList = new OutputList(Arrays.asList(io2));
Outputs outputs = new Outputs(outputList);
Marshaller marshaller = SensorMLMarshallerPool.getInstance().acquireMarshaller();
StringWriter sw = new StringWriter();
marshaller.marshal(outputs, sw);
String result = sw.toString();
// System.out.println("result:" + result);
ComponentType component = new ComponentType();
ProcessMethodType process = new ProcessMethodType();
component.setMethod(new MethodPropertyType(process));
List<ComponentPropertyType> cpl = new ArrayList<ComponentPropertyType>();
ComponentList cl = new ComponentList(cpl);
sw = new StringWriter();
marshaller.marshal(factory.createComponent(component), sw);
result = sw.toString();
// System.out.println("result:" + result);
SensorMLMarshallerPool.getInstance().recycle(marshaller);
}
use of org.geotoolkit.sml.xml.v100.Outputs in project geotoolkit by Geomatys.
the class SmlXMLBindingTest method SystemMarshalingTest.
/**
* Test simple Record Marshalling.
*
* @throws java.lang.Exception
*/
@Test
public void SystemMarshalingTest() throws Exception {
SensorML.Member member = new SensorML.Member();
SystemType system = new SystemType();
system.setId("urn-ogc-object-feature-Sensor-IFREMER-13471-09-CTD-1");
List<String> kw = new ArrayList<String>();
kw.add("OCEANS");
kw.add("OCEANS:OCEAN TEMPERATURE");
kw.add("OCEANS:OCEAN PRESSURE");
kw.add("OCEANS:SALINITY/DENSITY");
kw.add("Instruments/Sensors:In Situ/Laboratory Instruments:Conductivity Sensors");
Keywords keywords = new Keywords(new KeywordList(URI.create("urn:x-nasa:def:gcmd:keywords"), kw));
system.setKeywords(keywords);
CodeSpacePropertyType cs = new CodeSpacePropertyType("urn:x-ogc:dictionary::sensorTypes");
Classifier cl2 = new Classifier("sensorType", new Term(cs, "CTD", "urn:x-ogc:def:classifier:OGC:sensorType"));
List<Classifier> cls = new ArrayList<Classifier>();
cls.add(cl2);
ClassifierList claList = new ClassifierList(null, cls);
Classification classification = new Classification(claList);
system.setClassification(classification);
List<Identifier> identifiers = new ArrayList<Identifier>();
Identifier id1 = new Identifier("uniqueID", new Term("urn:ogc:object:feature:Sensor:IFREMER:13471-09-CTD-1", "urn:ogc:def:identifierType:OGC:uniqueID"));
Identifier id2 = new Identifier("shortName", new Term("Microcat_CT_SBE37", "urn:x-ogc:def:identifier:OGC:shortName"));
cs = new CodeSpacePropertyType("urn:x-ogc:def:identifier:SBE:modelNumber");
Identifier id3 = new Identifier("modelNumber", new Term(cs, "", "urn:x-ogc:def:identifier:OGC:modelNumber"));
cs = new CodeSpacePropertyType("urn:x-ogc:def:identifier:SBE:serialNumber");
Identifier id4 = new Identifier("serialNumber", new Term(cs, "", "urn:x-ogc:def:identifier:OGC:serialNumber"));
identifiers.add(id1);
identifiers.add(id2);
identifiers.add(id3);
identifiers.add(id4);
IdentifierList identifierList = new IdentifierList(null, identifiers);
Identification identification = new Identification(identifierList);
system.setIdentification(identification);
Address address1 = new Address("1808 136th Place NE", "Bellevue", "Washington", "98005", "USA", null);
Phone phone1 = new Phone("+1 (425) 643-9866", "+1 (425) 643-9954");
ContactInfo contactInfo1 = new ContactInfo(phone1, address1);
contactInfo1.setOnlineResource(new OnlineResource("http://www.seabird.com"));
ResponsibleParty resp1 = new ResponsibleParty(null, "Sea-Bird Electronics, Inc.", null, contactInfo1);
Contact contact1 = new Contact(null, resp1);
contact1.setArcrole("urn:x-ogc:def:classifiers:OGC:contactType:manufacturer");
system.setContact(Arrays.asList(contact1));
List<ComponentPropertyType> compos = new ArrayList<ComponentPropertyType>();
ComponentType compo1 = new ComponentType();
compo1.setId("urn-ogc-object-feature-Sensor-IFREMER-13471-1017-PSAL-2.0");
List<IoComponentPropertyType> ios1 = new ArrayList<IoComponentPropertyType>();
ios1.add(new IoComponentPropertyType("CNDC", new ObservableProperty("urn:x-ogc:def:phenomenon:OGC:CNDC")));
ios1.add(new IoComponentPropertyType("TEMP", new ObservableProperty("urn:x-ogc:def:phenomenon:OGC:TEMP")));
ios1.add(new IoComponentPropertyType("PRES", new ObservableProperty("urn:x-ogc:def:phenomenon:OGC:PRES")));
Inputs inputs1 = new Inputs(ios1);
compo1.setInputs(inputs1);
QuantityType q = new QuantityType("urn:x-ogc:def:phenomenon:OGC:PSAL", new UomPropertyType("P.S.U", null), null);
q.setParameterName(new CodeType("#sea_water_electrical_conductivity", "http://cf-pcmdi.llnl.gov/documents/cf-standard-names/standard-name-table/11/standard-name-table"));
IoComponentPropertyType io1 = new IoComponentPropertyType("computedPSAL", q);
Outputs outputs1 = new Outputs(Arrays.asList(io1));
compo1.setOutputs(outputs1);
compos.add(new ComponentPropertyType("IFREMER-13471-1017-PSAL-2.0", sml101Factory.createComponent(compo1)));
ComponentType compo2 = new ComponentType();
compo2.setId("urn-ogc-object-feature-Sensor-IFREMER-13471-1017-CNDC-2.0");
List<IoComponentPropertyType> ios2 = new ArrayList<IoComponentPropertyType>();
ios2.add(new IoComponentPropertyType("CNDC", new ObservableProperty("urn:x-ogc:def:phenomenon:OGC:CNDC")));
Inputs inputs2 = new Inputs(ios2);
compo2.setInputs(inputs2);
QuantityType q2 = new QuantityType("urn:x-ogc:def:phenomenon:OGC:CNDC", new UomPropertyType("mhos/m", null), null);
q2.setParameterName(new CodeType("#sea_water_electrical_conductivity", "http://cf-pcmdi.llnl.gov/documents/cf-standard-names/standard-name-table/11/standard-name-table"));
IoComponentPropertyType io2 = new IoComponentPropertyType("measuredCNDC", q2);
Outputs outputs2 = new Outputs(Arrays.asList(io2));
compo2.setOutputs(outputs2);
compos.add(new ComponentPropertyType("IFREMER-13471-1017-CNDC-2.0", sml101Factory.createComponent(compo2)));
ComponentType compo3 = new ComponentType();
compo3.setId("urn-ogc-object-feature-Sensor-IFREMER-13471-1017-PRES-2.0");
compo3.setDescription("Conductivity detector connected to the SBE37SMP Recorder");
List<IoComponentPropertyType> ios3 = new ArrayList<IoComponentPropertyType>();
ios3.add(new IoComponentPropertyType("PRES", new ObservableProperty("urn:x-ogc:def:phenomenon:OGC:PRES")));
Inputs inputs3 = new Inputs(ios3);
compo3.setInputs(inputs3);
UomPropertyType uom3 = new UomPropertyType("dBar", null);
uom3.setTitle("decibar=10000 pascals");
QuantityType q3 = new QuantityType("urn:x-ogc:def:phenomenon:OGC:PRES", uom3, null);
q3.setParameterName(new CodeType("#sea_water_pressure", "http://cf-pcmdi.llnl.gov/documents/cf-standard-names/standard-name-table/11/standard-name-table"));
IoComponentPropertyType io3 = new IoComponentPropertyType("measuredPRES", q3);
Outputs outputs3 = new Outputs(Arrays.asList(io3));
compo3.setOutputs(outputs3);
compos.add(new ComponentPropertyType("IFREMER-13471-1017-PRES-2.0", sml101Factory.createComponent(compo3)));
ComponentType compo4 = new ComponentType();
compo4.setId("urn-ogc-object-feature-Sensor-IFREMER-13471-1017-TEMP-2.0");
compo4.setDescription(" Temperature detector connected to the SBE37SMP Recorder");
List<IoComponentPropertyType> ios4 = new ArrayList<IoComponentPropertyType>();
ios4.add(new IoComponentPropertyType("TEMP", new ObservableProperty("urn:x-ogc:def:phenomenon:OGC:TEMP")));
Inputs inputs4 = new Inputs(ios4);
compo4.setInputs(inputs4);
UomPropertyType uom4 = new UomPropertyType("Cel", null);
uom4.setTitle("Celsius degree");
QuantityType q4 = new QuantityType("urn:x-ogc:def:phenomenon:OGC:TEMP", uom4, null);
q4.setParameterName(new CodeType("#sea_water_temperature", "http://cf-pcmdi.llnl.gov/documents/cf-standard-names/standard-name-table/11/standard-name-table"));
IoComponentPropertyType io4 = new IoComponentPropertyType("measuredTEMP", q4);
Outputs outputs4 = new Outputs(Arrays.asList(io4));
compo4.setOutputs(outputs4);
List<DataComponentPropertyType> params4 = new ArrayList<DataComponentPropertyType>();
List<DataComponentPropertyType> fields4 = new ArrayList<DataComponentPropertyType>();
QuantityRange qr = new QuantityRange(new UomPropertyType("Cel", null), Arrays.asList(-5.0, 35.0));
qr.setDefinition("urn:x-ogc:def:sensor:dynamicRange");
fields4.add(new DataComponentPropertyType("dynamicRange", null, qr));
QuantityType qr2 = new QuantityType("urn:x-ogc:def:sensor:gain", null, 1.0);
fields4.add(new DataComponentPropertyType("gain", null, qr2));
QuantityType qr3 = new QuantityType("urn:x-ogc:def:sensor:offset", null, 0.0);
fields4.add(new DataComponentPropertyType("offset", null, qr3));
DataRecordType record = new DataRecordType("urn:x-ogc:def:sensor:linearCalibration", fields4);
DataComponentPropertyType recordProp = new DataComponentPropertyType(record, "calibration");
recordProp.setRole("urn:x-ogc:def:sensor:steadyState");
params4.add(recordProp);
params4.add(new DataComponentPropertyType("accuracy", "urn:x-ogc:def:sensor:OGC:accuracy", new QuantityType("urn:x-ogc:def:sensor:OGC:absoluteAccuracy", new UomPropertyType("Cel", null), 0.0020)));
ParameterList parameterList4 = new ParameterList(params4);
Parameters parameters4 = new Parameters(parameterList4);
compo4.setParameters(parameters4);
compo4.setMethod(new MethodPropertyType("urn:x-ogc:def:process:1.0:detector"));
compos.add(new ComponentPropertyType("IFREMER-13471-1017-TEMP-2.0", sml101Factory.createComponent(compo4)));
ComponentList componentList = new ComponentList(compos);
Components components = new Components(componentList);
system.setComponents(components);
Interface i1 = new Interface("RS232", null);
List<Interface> interfaceL = new ArrayList<Interface>();
interfaceL.add(i1);
InterfaceList interfaceList = new InterfaceList(null, interfaceL);
Interfaces interfaces = new Interfaces(interfaceList);
system.setInterfaces(interfaces);
system.setDescription("The SBE 37-SMP MicroCAT is a high-accuracy conductivity and temperature (pressure optional) recorder with internal battery and memory, serial communication or Inductive Modem and pump (optional). Designed for moorings or other long duration, fixed-site deployments, the MicroCAT includes a standard serial interface and nonvolatile FLASH memory. Construction is of titanium and other non-corroding materials to ensure long life with minimum maintenance, and depth capability is 7000 meters (23,000 feet).");
member.setProcess(sml101Factory.createSystem(system));
SensorML sensor = new SensorML("1.0.1", Arrays.asList(member));
Marshaller m = SensorMLMarshallerPool.getInstance().acquireMarshaller();
StringWriter sw = new StringWriter();
m.marshal(sensor, sw);
String result = sw.toString();
InputStream in = SmlXMLBindingTest.class.getResourceAsStream("/org/geotoolkit/sml/system101.xml");
StringWriter out = new StringWriter();
byte[] buffer = new byte[1024];
int size;
while ((size = in.read(buffer, 0, 1024)) > 0) {
out.write(new String(buffer, 0, size));
}
String expResult = out.toString();
final DocumentComparator comparator = new DocumentComparator(expResult, result) {
@Override
protected strictfp void compareAttributeNode(Attr expected, Node actual) {
super.compareAttributeNode(expected, actual);
}
};
comparator.ignoredAttributes.add("http://www.w3.org/2000/xmlns:*");
comparator.ignoredAttributes.add("http://www.w3.org/2001/XMLSchema-instance:schemaLocation");
comparator.compare();
SensorMLMarshallerPool.getInstance().recycle(m);
}
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