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Example 1 with Outputs

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);
}
Also used : DataRecordType(org.geotoolkit.swe.xml.v100.DataRecordType) AbstractDataRecordType(org.geotoolkit.swe.xml.v100.AbstractDataRecordType) Keywords(org.geotoolkit.sml.xml.v100.Keywords) InputList(org.geotoolkit.sml.xml.v100.InputList) ArrayList(java.util.ArrayList) Identification(org.geotoolkit.sml.xml.v100.Identification) Classifier(org.geotoolkit.sml.xml.v100.Classifier) IdentifierList(org.geotoolkit.sml.xml.v100.IdentifierList) ValidTime(org.geotoolkit.sml.xml.v100.ValidTime) UomPropertyType(org.geotoolkit.swe.xml.v100.UomPropertyType) Identifier(org.geotoolkit.sml.xml.v100.Identifier) DefaultIdentifier(org.apache.sis.metadata.iso.DefaultIdentifier) ObservableProperty(org.geotoolkit.swe.xml.v100.ObservableProperty) Classification(org.geotoolkit.sml.xml.v100.Classification) CodeSpacePropertyType(org.geotoolkit.swe.xml.v100.CodeSpacePropertyType) DataComponentPropertyType(org.geotoolkit.swe.xml.v100.DataComponentPropertyType) DefaultIdentifier(org.apache.sis.metadata.iso.DefaultIdentifier) Unmarshaller(javax.xml.bind.Unmarshaller) Member(org.geotoolkit.sml.xml.v100.Member) Inputs(org.geotoolkit.sml.xml.v100.Inputs) TimePositionType(org.geotoolkit.gml.xml.v311.TimePositionType) ComponentType(org.geotoolkit.sml.xml.v100.ComponentType) Parameters(org.geotoolkit.sml.xml.v100.Parameters) Position(org.geotoolkit.sml.xml.v100.Position) InputStream(java.io.InputStream) ClassifierList(org.geotoolkit.sml.xml.v100.ClassifierList) QuantityRange(org.geotoolkit.swe.xml.v100.QuantityRange) JAXBElement(javax.xml.bind.JAXBElement) Term(org.geotoolkit.sml.xml.v100.Term) ResponsibleParty(org.geotoolkit.sml.xml.v100.ResponsibleParty) SensorML(org.geotoolkit.sml.xml.v100.SensorML) IoComponentPropertyType(org.geotoolkit.sml.xml.v100.IoComponentPropertyType) Contact(org.geotoolkit.sml.xml.v100.Contact) TimeRange(org.geotoolkit.swe.xml.v100.TimeRange) TimePeriodType(org.geotoolkit.gml.xml.v311.TimePeriodType) QuantityType(org.geotoolkit.swe.xml.v100.QuantityType) Capabilities(org.geotoolkit.sml.xml.v100.Capabilities) KeywordList(org.geotoolkit.sml.xml.v100.KeywordList) Outputs(org.geotoolkit.sml.xml.v100.Outputs) ParameterList(org.geotoolkit.sml.xml.v100.ParameterList) OutputList(org.geotoolkit.sml.xml.v100.OutputList)

Example 2 with Outputs

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);
}
Also used : Connections(org.geotoolkit.sml.xml.v100.Connections) LayerPropertyType(org.geotoolkit.sml.xml.v100.LayerPropertyType) InterfaceDefinition(org.geotoolkit.sml.xml.v100.InterfaceDefinition) ArrayList(java.util.ArrayList) SystemType(org.geotoolkit.sml.xml.v100.SystemType) InterfaceList(org.geotoolkit.sml.xml.v100.InterfaceList) IdentifierList(org.geotoolkit.sml.xml.v100.IdentifierList) EngineeringDatumType(org.geotoolkit.gml.xml.v311.EngineeringDatumType) Document(org.geotoolkit.sml.xml.v100.Document) Components(org.geotoolkit.sml.xml.v100.Components) VectorPropertyType(org.geotoolkit.swe.xml.v100.VectorPropertyType) Rights(org.geotoolkit.sml.xml.v100.Rights) Identifier(org.geotoolkit.sml.xml.v100.Identifier) DefaultIdentifier(org.apache.sis.metadata.iso.DefaultIdentifier) ObservableProperty(org.geotoolkit.swe.xml.v100.ObservableProperty) Classification(org.geotoolkit.sml.xml.v100.Classification) ContactInfo(org.geotoolkit.sml.xml.v100.ContactInfo) Unmarshaller(javax.xml.bind.Unmarshaller) Member(org.geotoolkit.sml.xml.v100.Member) Position(org.geotoolkit.sml.xml.v100.Position) ClassifierList(org.geotoolkit.sml.xml.v100.ClassifierList) CoordinateSystemRefType(org.geotoolkit.gml.xml.v311.CoordinateSystemRefType) Documentation(org.geotoolkit.sml.xml.v100.Documentation) TemporalCRSType(org.geotoolkit.gml.xml.v311.TemporalCRSType) JAXBElement(javax.xml.bind.JAXBElement) Term(org.geotoolkit.sml.xml.v100.Term) ArrayLink(org.geotoolkit.sml.xml.v100.ArrayLink) IoComponentPropertyType(org.geotoolkit.sml.xml.v100.IoComponentPropertyType) OnlineResource(org.geotoolkit.sml.xml.v100.OnlineResource) QuantityType(org.geotoolkit.swe.xml.v100.QuantityType) EngineeringDatumRefType(org.geotoolkit.gml.xml.v311.EngineeringDatumRefType) Outputs(org.geotoolkit.sml.xml.v100.Outputs) EngineeringCRSType(org.geotoolkit.gml.xml.v311.EngineeringCRSType) Link(org.geotoolkit.sml.xml.v100.Link) ArrayLink(org.geotoolkit.sml.xml.v100.ArrayLink) OutputList(org.geotoolkit.sml.xml.v100.OutputList) DataRecordType(org.geotoolkit.swe.xml.v100.DataRecordType) AbstractDataRecordType(org.geotoolkit.swe.xml.v100.AbstractDataRecordType) Keywords(org.geotoolkit.sml.xml.v100.Keywords) Category(org.geotoolkit.swe.xml.v100.Category) InputList(org.geotoolkit.sml.xml.v100.InputList) DirectPositionType(org.geotoolkit.gml.xml.v311.DirectPositionType) IoComponentPropertyType(org.geotoolkit.sml.xml.v100.IoComponentPropertyType) DataComponentPropertyType(org.geotoolkit.swe.xml.v100.DataComponentPropertyType) ComponentPropertyType(org.geotoolkit.sml.xml.v100.ComponentPropertyType) ConnectionList(org.geotoolkit.sml.xml.v100.ConnectionList) PositionList(org.geotoolkit.sml.xml.v100.PositionList) TemporalDatumRefType(org.geotoolkit.gml.xml.v311.TemporalDatumRefType) LegalConstraint(org.geotoolkit.sml.xml.v100.LegalConstraint) Identification(org.geotoolkit.sml.xml.v100.Identification) ComponentList(org.geotoolkit.sml.xml.v100.ComponentList) Classifier(org.geotoolkit.sml.xml.v100.Classifier) TemporalReferenceFrame(org.geotoolkit.sml.xml.v100.TemporalReferenceFrame) TemporalCSRefType(org.geotoolkit.gml.xml.v311.TemporalCSRefType) TimeType(org.geotoolkit.swe.xml.v100.TimeType) UomPropertyType(org.geotoolkit.swe.xml.v100.UomPropertyType) SpatialReferenceFrame(org.geotoolkit.sml.xml.v100.SpatialReferenceFrame) CoordinateType(org.geotoolkit.swe.xml.v100.CoordinateType) VectorType(org.geotoolkit.swe.xml.v100.VectorType) CodeSpacePropertyType(org.geotoolkit.swe.xml.v100.CodeSpacePropertyType) DataComponentPropertyType(org.geotoolkit.swe.xml.v100.DataComponentPropertyType) DefaultIdentifier(org.apache.sis.metadata.iso.DefaultIdentifier) Inputs(org.geotoolkit.sml.xml.v100.Inputs) LinkRef(org.geotoolkit.sml.xml.v100.LinkRef) InputStream(java.io.InputStream) BooleanType(org.geotoolkit.swe.xml.v100.BooleanType) Connection(org.geotoolkit.sml.xml.v100.Connection) QuantityRange(org.geotoolkit.swe.xml.v100.QuantityRange) ResponsibleParty(org.geotoolkit.sml.xml.v100.ResponsibleParty) SensorML(org.geotoolkit.sml.xml.v100.SensorML) Contact(org.geotoolkit.sml.xml.v100.Contact) TimePositionType(org.geotoolkit.gml.xml.v311.TimePositionType) DirectPositionType(org.geotoolkit.gml.xml.v311.DirectPositionType) PositionType(org.geotoolkit.swe.xml.v100.PositionType) Interfaces(org.geotoolkit.sml.xml.v100.Interfaces) Characteristics(org.geotoolkit.sml.xml.v100.Characteristics) Capabilities(org.geotoolkit.sml.xml.v100.Capabilities) KeywordList(org.geotoolkit.sml.xml.v100.KeywordList) Positions(org.geotoolkit.sml.xml.v100.Positions) PointType(org.geotoolkit.gml.xml.v311.PointType) CodeType(org.geotoolkit.gml.xml.v311.CodeType) AddressType(org.geotoolkit.sml.xml.v100.AddressType) Interface(org.geotoolkit.sml.xml.v100.Interface) Location(org.geotoolkit.sml.xml.v100.Location)

Example 3 with Outputs

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;
}
Also used : ArrayList(java.util.ArrayList) SystemType(org.geotoolkit.sml.xml.v100.SystemType) History(org.geotoolkit.sml.xml.v100.History) Classification(org.geotoolkit.sml.xml.v100.Classification) DataSourceType(org.geotoolkit.sml.xml.v100.DataSourceType) Member(org.geotoolkit.sml.xml.v100.Member) Documentation(org.geotoolkit.sml.xml.v100.Documentation) AbstractProcessType(org.geotoolkit.sml.xml.v100.AbstractProcessType) Keywords(org.geotoolkit.sml.xml.v100.Keywords) LegalConstraint(org.geotoolkit.sml.xml.v100.LegalConstraint) Identification(org.geotoolkit.sml.xml.v100.Identification) ComponentType(org.geotoolkit.sml.xml.v100.ComponentType) Contact(org.geotoolkit.sml.xml.v100.Contact) Characteristics(org.geotoolkit.sml.xml.v100.Characteristics) Capabilities(org.geotoolkit.sml.xml.v100.Capabilities) ProcessModelType(org.geotoolkit.sml.xml.v100.ProcessModelType) ProcessChainType(org.geotoolkit.sml.xml.v100.ProcessChainType)

Example 4 with Outputs

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);
}
Also used : DataRecordType(org.geotoolkit.swe.xml.v100.DataRecordType) AbstractDataRecordType(org.geotoolkit.swe.xml.v100.AbstractDataRecordType) Marshaller(javax.xml.bind.Marshaller) ComponentType(org.geotoolkit.sml.xml.v100.ComponentType) IoComponentPropertyType(org.geotoolkit.sml.xml.v100.IoComponentPropertyType) DataComponentPropertyType(org.geotoolkit.swe.xml.v100.DataComponentPropertyType) ComponentPropertyType(org.geotoolkit.sml.xml.v100.ComponentPropertyType) ArrayList(java.util.ArrayList) BooleanType(org.geotoolkit.swe.xml.v100.BooleanType) ComponentList(org.geotoolkit.sml.xml.v100.ComponentList) ProcessMethodType(org.geotoolkit.sml.xml.v100.ProcessMethodType) IoComponentPropertyType(org.geotoolkit.sml.xml.v100.IoComponentPropertyType) MethodPropertyType(org.geotoolkit.sml.xml.v100.MethodPropertyType) TimeType(org.geotoolkit.swe.xml.v100.TimeType) UomPropertyType(org.geotoolkit.swe.xml.v100.UomPropertyType) ObjectFactory(org.geotoolkit.sml.xml.v100.ObjectFactory) StringWriter(java.io.StringWriter) QuantityType(org.geotoolkit.swe.xml.v100.QuantityType) Outputs(org.geotoolkit.sml.xml.v100.Outputs) DataComponentPropertyType(org.geotoolkit.swe.xml.v100.DataComponentPropertyType) OutputList(org.geotoolkit.sml.xml.v100.OutputList)

Example 5 with Outputs

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);
}
Also used : Address(org.geotoolkit.sml.xml.v101.Address) Node(org.w3c.dom.Node) ArrayList(java.util.ArrayList) SystemType(org.geotoolkit.sml.xml.v101.SystemType) InterfaceList(org.geotoolkit.sml.xml.v101.InterfaceList) IdentifierList(org.geotoolkit.sml.xml.v101.IdentifierList) Attr(org.w3c.dom.Attr) Components(org.geotoolkit.sml.xml.v101.Components) Identifier(org.geotoolkit.sml.xml.v101.Identifier) ObservableProperty(org.geotoolkit.swe.xml.v101.ObservableProperty) Classification(org.geotoolkit.sml.xml.v101.Classification) ContactInfo(org.geotoolkit.sml.xml.v101.ContactInfo) Parameters(org.geotoolkit.sml.xml.v101.Parameters) ClassifierList(org.geotoolkit.sml.xml.v101.ClassifierList) Term(org.geotoolkit.sml.xml.v101.Term) IoComponentPropertyType(org.geotoolkit.sml.xml.v101.IoComponentPropertyType) OnlineResource(org.geotoolkit.sml.xml.v101.OnlineResource) QuantityType(org.geotoolkit.swe.xml.v101.QuantityType) Outputs(org.geotoolkit.sml.xml.v101.Outputs) ParameterList(org.geotoolkit.sml.xml.v101.ParameterList) DataRecordType(org.geotoolkit.swe.xml.v101.DataRecordType) Keywords(org.geotoolkit.sml.xml.v101.Keywords) DataComponentPropertyType(org.geotoolkit.swe.xml.v101.DataComponentPropertyType) ComponentPropertyType(org.geotoolkit.sml.xml.v101.ComponentPropertyType) IoComponentPropertyType(org.geotoolkit.sml.xml.v101.IoComponentPropertyType) Identification(org.geotoolkit.sml.xml.v101.Identification) ComponentList(org.geotoolkit.sml.xml.v101.ComponentList) Classifier(org.geotoolkit.sml.xml.v101.Classifier) UomPropertyType(org.geotoolkit.swe.xml.v101.UomPropertyType) StringWriter(java.io.StringWriter) Phone(org.geotoolkit.sml.xml.v101.Phone) DocumentComparator(org.apache.sis.test.xml.DocumentComparator) CodeSpacePropertyType(org.geotoolkit.swe.xml.v101.CodeSpacePropertyType) DataComponentPropertyType(org.geotoolkit.swe.xml.v101.DataComponentPropertyType) Inputs(org.geotoolkit.sml.xml.v101.Inputs) ComponentType(org.geotoolkit.sml.xml.v101.ComponentType) Marshaller(javax.xml.bind.Marshaller) InputStream(java.io.InputStream) QuantityRange(org.geotoolkit.swe.xml.v101.QuantityRange) ResponsibleParty(org.geotoolkit.sml.xml.v101.ResponsibleParty) SensorML(org.geotoolkit.sml.xml.v101.SensorML) MethodPropertyType(org.geotoolkit.sml.xml.v101.MethodPropertyType) Contact(org.geotoolkit.sml.xml.v101.Contact) Interfaces(org.geotoolkit.sml.xml.v101.Interfaces) KeywordList(org.geotoolkit.sml.xml.v101.KeywordList) CodeType(org.geotoolkit.gml.xml.v311.CodeType) Interface(org.geotoolkit.sml.xml.v101.Interface)

Aggregations

ArrayList (java.util.ArrayList)6 InputStream (java.io.InputStream)4 CodeType (org.geotoolkit.gml.xml.v311.CodeType)3 StringWriter (java.io.StringWriter)2 JAXBElement (javax.xml.bind.JAXBElement)2 Marshaller (javax.xml.bind.Marshaller)2 Unmarshaller (javax.xml.bind.Unmarshaller)2 DefaultIdentifier (org.apache.sis.metadata.iso.DefaultIdentifier)2 TimePositionType (org.geotoolkit.gml.xml.v311.TimePositionType)2 Capabilities (org.geotoolkit.sml.xml.v100.Capabilities)2 Classification (org.geotoolkit.sml.xml.v100.Classification)2 Classifier (org.geotoolkit.sml.xml.v100.Classifier)2 ClassifierList (org.geotoolkit.sml.xml.v100.ClassifierList)2 ComponentType (org.geotoolkit.sml.xml.v100.ComponentType)2 Contact (org.geotoolkit.sml.xml.v100.Contact)2 Identification (org.geotoolkit.sml.xml.v100.Identification)2 Identifier (org.geotoolkit.sml.xml.v100.Identifier)2 IdentifierList (org.geotoolkit.sml.xml.v100.IdentifierList)2 InputList (org.geotoolkit.sml.xml.v100.InputList)2 Inputs (org.geotoolkit.sml.xml.v100.Inputs)2