Examples with AbstractGMLType net.opengis.gml.x32.AbstractGMLType used on opensource projects

Example 1 with AbstractGMLType

use of net.opengis.gml.x32.AbstractGMLType in project arctic-sea by 52North.

the class TsmlTVPEncoderv10 method createMeasurementTimeseries.

private XmlObject createMeasurementTimeseries(AbstractObservationValue<?> observationValue) throws CodedException, EncodingException {
    TimeseriesTVPDocument measurementTimeseriesDoc = TimeseriesTVPDocument.Factory.newInstance();
    TimeseriesTVPType measurementTimeseries = measurementTimeseriesDoc.addNewTimeseriesTVP();
    ((AbstractGMLType) measurementTimeseries).setId(TIMESERIES_ID_PREFIX + observationValue.getObservationID());
    // Default value
    TimeseriesMetadata timeseriesMetadata = new MeasurementTimeseriesMetadata().setCumulative(false);
    if (observationValue.isSetValue() && observationValue.isSetMetadata() && observationValue.getMetadata().isSetTimeseriesMetadata()) {
        timeseriesMetadata = observationValue.getMetadata().getTimeseriesmetadata();
    }
    addTimeseriesMetadata(measurementTimeseries, observationValue.getPhenomenonTime().getGmlId(), timeseriesMetadata);
    TimeseriesTVPType.DefaultPointMetadata xbMetaComponent = measurementTimeseries.addNewDefaultPointMetadata();
    PointMetadataDocument xbDefMeasureMetaComponent = PointMetadataDocument.Factory.newInstance();
    PointMetadataType defaultTVPMeasurementMetadata = xbDefMeasureMetaComponent.addNewPointMetadata();
    // Default value
    InterpolationType interpolationType = InterpolationType.Continuous;
    if (observationValue.isSetValue() && observationValue.isSetDefaultPointMetadata() && observationValue.getDefaultPointMetadata().isSetDefaultTVPMeasurementMetadata() && observationValue.getDefaultPointMetadata().getDefaultTVPMeasurementMetadata().isSetInterpolationType()) {
        interpolationType = (InterpolationType) observationValue.getDefaultPointMetadata().getDefaultTVPMeasurementMetadata().getInterpolationtype();
    }
    defaultTVPMeasurementMetadata.addNewInterpolationType().setHref(interpolationType.getIdentifier());
    xbDefMeasureMetaComponent.getPointMetadata().getInterpolationType().setTitle(interpolationType.getTitle());
    String unit = addValues(measurementTimeseries, observationValue);
    // set uom
    if (unit != null && !unit.isEmpty()) {
        defaultTVPMeasurementMetadata.addNewUom().setCode(unit);
    // } else {
    // OmObservableProperty observableProperty =
    // (OmObservableProperty)
    // sosObservation.getObservationConstellation().getObservableProperty();
    // if (observableProperty.isSetUnit()) {
    // defaultTVPMeasurementMetadata.addNewUom().setCode(observableProperty.getUnit());
    // }
    }
    xbMetaComponent.set(xbDefMeasureMetaComponent);
    return measurementTimeseriesDoc;
}

Example 2 with AbstractGMLType

use of net.opengis.gml.x32.AbstractGMLType in project geotoolkit by Geomatys.

the class GMLUtilities method getGMLFromISO.

/**
 * @param geometry The ISO geometry to convert.
 * @return A GML 3.1.1 geometry matching given geometry definition.
 * @deprecated This method should not be used for multiple reasons:
 * <ol>
 * <li>OpenGIS definition is based on an obsolete ISO-19107 draft</li>
 * <li>The GML version is fixed and obsolete</li>
 * <li>Only partial management of geometries</li>
 * </ol>
 */
public static AbstractGeometryType getGMLFromISO(final org.opengis.geometry.Geometry geometry) {
    if (geometry instanceof Point) {
        Point point = (Point) geometry;
        PointType gmlPoint = new PointType(null, point.getDirectPosition());
        return gmlPoint;
    } else if (geometry instanceof OrientableSurface) {
        OrientableSurface surface = (OrientableSurface) geometry;
        SurfaceBoundary boundary = surface.getBoundary();
        Ring exterior = boundary.getExterior();
        List<CurvePropertyType> curves = new ArrayList<CurvePropertyType>();
        for (Primitive p : exterior.getElements()) {
            curves.add(new CurvePropertyType((CurveType) getGMLFromISO(p)));
        }
        RingType gmlExterior = new RingType();
        gmlExterior.getCurveMember().addAll(curves);
        List<Ring> interiors = boundary.getInteriors();
        List<RingType> gmlInteriors = new ArrayList<RingType>();
        for (Ring interior : interiors) {
            List<CurvePropertyType> intcurves = new ArrayList<CurvePropertyType>();
            for (Primitive p : interior.getElements()) {
                intcurves.add(new CurvePropertyType((CurveType) getGMLFromISO(p)));
            }
            RingType gmlinterior = new RingType();
            gmlinterior.getCurveMember().addAll(intcurves);
            gmlInteriors.add(gmlinterior);
        }
        PolygonType poly = new PolygonType(gmlExterior, gmlInteriors);
        return poly;
    } else if (geometry instanceof MultiSurface) {
        MultiSurface multiPrim = (MultiSurface) geometry;
        List<PolygonPropertyType> geometries = new ArrayList<PolygonPropertyType>();
        for (Geometry prim : multiPrim.getElements()) {
            PolygonType element = (PolygonType) getGMLFromISO(prim);
            PolygonPropertyType gp = new PolygonPropertyType((PolygonType) element);
            geometries.add(gp);
        }
        MultiPolygonType gmlMulti = new MultiPolygonType(null, geometries);
        return gmlMulti;
    } else if (geometry instanceof MultiCurve) {
        MultiCurve multiPrim = (MultiCurve) geometry;
        List<CurvePropertyType> geometries = new ArrayList<CurvePropertyType>();
        for (OrientableCurve prim : multiPrim.getElements()) {
            AbstractCurveType element = (AbstractCurveType) getGMLFromISO(prim);
            CurvePropertyType gp = new CurvePropertyType((AbstractCurveType) element);
            geometries.add(gp);
        }
        MultiCurveType gmlMulti = new MultiCurveType(geometries);
        return gmlMulti;
    } else if (geometry instanceof MultiPoint) {
        MultiPoint multiPrim = (MultiPoint) geometry;
        List<PointPropertyType> geometries = new ArrayList<PointPropertyType>();
        for (Point prim : multiPrim.getElements()) {
            PointType element = (PointType) getGMLFromISO(prim);
            PointPropertyType gp = new PointPropertyType((PointType) element);
            geometries.add(gp);
        }
        MultiPointType gmlMulti = new MultiPointType(null, geometries);
        return gmlMulti;
    } else if (geometry instanceof MultiPrimitive) {
        MultiPrimitive multiPrim = (MultiPrimitive) geometry;
        List<GeometryPropertyType> geometries = new ArrayList<GeometryPropertyType>();
        for (Primitive prim : multiPrim.getElements()) {
            AbstractGMLType element = getGMLFromISO(prim);
            GeometryPropertyType gp = new GeometryPropertyType((AbstractGeometryType) element);
            geometries.add(gp);
        }
        MultiGeometryType gmlMulti = new MultiGeometryType(geometries);
        return gmlMulti;
    } else if (geometry instanceof Curve) {
        Curve curve = (Curve) geometry;
        List<? extends CurveSegment> segments = curve.getSegments();
        List<LineStringSegmentType> gmlSegments = new ArrayList<LineStringSegmentType>();
        for (CurveSegment segment : segments) {
            CurveInterpolationType interpolation = CurveInterpolationType.fromValue(segment.getInterpolation().identifier());
            PointArray array = GeometricUtilities.getSamplePoints(segment);
            List<DirectPosition> positions = new ArrayList<DirectPosition>();
            for (int i = 0; i < array.size(); i++) {
                positions.add(array.getDirectPosition(i, null));
            }
            LineStringSegmentType gmlSegment = new LineStringSegmentType(segment.getNumDerivativesAtStart(), segment.getNumDerivativesAtEnd(), segment.getNumDerivativesInterior(), interpolation, positions);
            gmlSegments.add(gmlSegment);
        }
        CurveType gmlCurve = new CurveType(gmlSegments);
        return gmlCurve;
    } else if (geometry instanceof LineString) {
        LineString line = (LineString) geometry;
        PointArray array = GeometricUtilities.getSamplePoints(line);
        List<DirectPosition> positions = new ArrayList<DirectPosition>();
        for (int i = 0; i < array.size(); i++) {
            positions.add(array.getDirectPosition(i, null));
        }
        LineStringType gmlLine = new LineStringType(positions);
        return gmlLine;
    } else if (geometry instanceof Polygon) {
        Polygon polygon = (Polygon) geometry;
        SurfaceBoundary boundary = polygon.getBoundary();
        Ring exterior = boundary.getExterior();
        List<CurvePropertyType> curves = new ArrayList<CurvePropertyType>();
        for (Primitive p : exterior.getElements()) {
            curves.add(new CurvePropertyType((CurveType) getGMLFromISO(p)));
        }
        RingType gmlExterior = new RingType();
        gmlExterior.getCurveMember().addAll(curves);
        List<Ring> interiors = boundary.getInteriors();
        List<RingType> gmlInteriors = new ArrayList<RingType>();
        for (Ring interior : interiors) {
            List<CurvePropertyType> intcurves = new ArrayList<CurvePropertyType>();
            for (Primitive p : interior.getElements()) {
                intcurves.add(new CurvePropertyType((CurveType) getGMLFromISO(p)));
            }
            RingType gmlinterior = new RingType();
            gmlinterior.getCurveMember().addAll(intcurves);
            gmlInteriors.add(gmlinterior);
        }
        PolygonType gmlPolygon = new PolygonType(gmlExterior, gmlInteriors);
        return gmlPolygon;
    } else if (geometry instanceof PolyhedralSurface) {
        PolyhedralSurface polySurface = (PolyhedralSurface) geometry;
        List<PolygonPatchType> gmlPatches = new ArrayList<PolygonPatchType>();
        List<? extends Polygon> patches = polySurface.getPatches();
        for (Polygon polygon : patches) {
            SurfaceInterpolationType interpolation = SurfaceInterpolationType.fromValue(polygon.getInterpolation().identifier());
            SurfaceBoundary boundary = polygon.getBoundary();
            Ring exterior = boundary.getExterior();
            List<CurvePropertyType> curves = new ArrayList<CurvePropertyType>();
            for (Primitive p : exterior.getElements()) {
                curves.add(new CurvePropertyType((CurveType) getGMLFromISO(p)));
            }
            RingType gmlExterior = new RingType();
            gmlExterior.getCurveMember().addAll(curves);
            List<Ring> interiors = boundary.getInteriors();
            List<RingType> gmlInteriors = new ArrayList<RingType>();
            for (Ring interior : interiors) {
                List<CurvePropertyType> intcurves = new ArrayList<CurvePropertyType>();
                for (Primitive p : interior.getElements()) {
                    intcurves.add(new CurvePropertyType((CurveType) getGMLFromISO(p)));
                }
                RingType gmlinterior = new RingType();
                gmlinterior.getCurveMember().addAll(intcurves);
                gmlInteriors.add(gmlinterior);
            }
            PolygonPatchType patche = new PolygonPatchType(interpolation, gmlExterior, gmlInteriors);
            gmlPatches.add(patche);
        }
        PolygonPatchArrayPropertyType pathArray = new PolygonPatchArrayPropertyType(gmlPatches);
        PolyhedralSurfaceType gmlPolySurface = new PolyhedralSurfaceType(pathArray);
        return gmlPolySurface;
    } else {
        System.out.println("unexpected iso geometry type:" + geometry.getClass().getName());
    }
    return null;
}

Example 3 with AbstractGMLType

use of net.opengis.gml.x32.AbstractGMLType in project arctic-sea by 52North.

the class TsmlTVPEncoderv10 method createMeasurementTimeseries.

/**
 * Create a XML MeasurementTimeseries object from SOS observation for
 * om:result
 *
 * @param sosObservation
 *            SOS observation
 *
 * @return XML MeasurementTimeseries object
 * @throws EncodingException
 *
 * @throws CodedException
 *             if the encoding fails
 */
private XmlObject createMeasurementTimeseries(OmObservation sosObservation) throws OwsExceptionReport, EncodingException {
    TimeseriesTVPDocument measurementTimeseriesDoc = TimeseriesTVPDocument.Factory.newInstance();
    TimeseriesTVPType measurementTimeseries = measurementTimeseriesDoc.addNewTimeseriesTVP();
    ((AbstractGMLType) measurementTimeseries).setId(TIMESERIES_ID_PREFIX + sosObservation.getObservationID());
    // Default value
    TimeseriesMetadata timeseriesMetadata = new MeasurementTimeseriesMetadata().setCumulative(false);
    if (sosObservation.isSetValue() && sosObservation.getValue().isSetValue() && sosObservation.getValue().getValue().getClass().isAssignableFrom(TVPValue.class) && sosObservation.getObservationConstellation().isSetMetadata() && sosObservation.getObservationConstellation().getMetadata().isSetTimeseriesMetadata()) {
        timeseriesMetadata = sosObservation.getObservationConstellation().getMetadata().getTimeseriesmetadata();
    }
    addTimeseriesMetadata(measurementTimeseries, sosObservation.getPhenomenonTime().getGmlId(), timeseriesMetadata);
    TimeseriesTVPType.DefaultPointMetadata xbMetaComponent = measurementTimeseries.addNewDefaultPointMetadata();
    PointMetadataDocument xbDefMeasureMetaComponent = PointMetadataDocument.Factory.newInstance();
    PointMetadataType defaultTVPMeasurementMetadata = xbDefMeasureMetaComponent.addNewPointMetadata();
    // Default value
    InterpolationType interpolationType = InterpolationType.Continuous;
    if (sosObservation.isSetValue() && sosObservation.getValue().isSetValue() && sosObservation.getValue().getValue().getClass().isAssignableFrom(TVPValue.class) && sosObservation.getObservationConstellation().isSetDefaultPointMetadata() && sosObservation.getObservationConstellation().getDefaultPointMetadata().isSetDefaultTVPMeasurementMetadata() && sosObservation.getObservationConstellation().getDefaultPointMetadata().getDefaultTVPMeasurementMetadata().isSetInterpolationType()) {
        interpolationType = (InterpolationType) sosObservation.getObservationConstellation().getDefaultPointMetadata().getDefaultTVPMeasurementMetadata().getInterpolationtype();
    }
    defaultTVPMeasurementMetadata.addNewInterpolationType().setHref(interpolationType.getIdentifier());
    xbDefMeasureMetaComponent.getPointMetadata().getInterpolationType().setTitle(interpolationType.getTitle());
    // set aggregationDuration
    if (sosObservation.getObservationConstellation().getDefaultPointMetadata().getDefaultTVPMeasurementMetadata().isSetAggregationDuration()) {
        GDurationBuilder gDurationBuilder = new GDurationBuilder(sosObservation.getObservationConstellation().getDefaultPointMetadata().getDefaultTVPMeasurementMetadata().getAggregationDuration());
        xbDefMeasureMetaComponent.getPointMetadata().setAggregationDuration(gDurationBuilder.toGDuration());
    }
    String unit = addValues(measurementTimeseries, sosObservation.getValue());
    // set uom
    if (unit != null && !unit.isEmpty()) {
        defaultTVPMeasurementMetadata.addNewUom().setCode(unit);
    } else {
        OmObservableProperty observableProperty = (OmObservableProperty) sosObservation.getObservationConstellation().getObservableProperty();
        if (observableProperty.isSetUnit()) {
            defaultTVPMeasurementMetadata.addNewUom().setCode(observableProperty.getUnit());
        }
    }
    xbMetaComponent.set(xbDefMeasureMetaComponent);
    return measurementTimeseriesDoc;
}