Java Code Examples for org.opengis.referencing.crs.GeographicCRS#getCoordinateSystem()
The following examples show how to use
org.opengis.referencing.crs.GeographicCRS#getCoordinateSystem() .
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Example 1
Source File: CommonCRSTest.java From sis with Apache License 2.0 | 6 votes |
/** * Tests the {@link CommonCRS#normalizedGeographic()} method. */ @Test @DependsOnMethod("testGeographic") public void testNormalizedGeographic() { final GeographicCRS geographic = CommonCRS.WGS84.geographic(); final GeographicCRS normalized = CommonCRS.WGS84.normalizedGeographic(); Validators.validate(normalized); assertSame(geographic.getDatum(), normalized.getDatum()); /* * Compare axes. Note that axes in different order have different EPSG codes. */ final CoordinateSystem φλ = geographic.getCoordinateSystem(); final CoordinateSystem λφ = normalized.getCoordinateSystem(); assertEqualsIgnoreMetadata(φλ.getAxis(1), λφ.getAxis(0)); // Longitude assertEqualsIgnoreMetadata(φλ.getAxis(0), λφ.getAxis(1)); // Latitude assertSame("Cached value", normalized, CommonCRS.WGS84.normalizedGeographic()); }
Example 2
Source File: CommonCRSTest.java From sis with Apache License 2.0 | 6 votes |
/** * Tests the {@link CommonCRS#geographic3D()} method. */ @Test @DependsOnMethod("testGeographic") public void testGeographic3D() { final GeographicCRS crs = CommonCRS.WGS72.geographic3D(); Validators.validate(crs); assertEquals ("WGS 72", crs.getName().getCode()); assertSame (CommonCRS.WGS72.geographic().getDatum(), crs.getDatum()); assertNotSame(CommonCRS.WGS84.geographic().getDatum(), crs.getDatum()); final EllipsoidalCS cs = crs.getCoordinateSystem(); final String name = cs.getName().getCode(); assertTrue(name, name.startsWith("Ellipsoidal 3D")); assertEquals("dimension", 3, cs.getDimension()); assertAxisDirectionsEqual(name, cs, AxisDirection.NORTH, AxisDirection.EAST, AxisDirection.UP); assertSame("Cached value", crs, CommonCRS.WGS72.geographic3D()); }
Example 3
Source File: CRSBuilder.java From sis with Apache License 2.0 | 5 votes |
/** * Possibly sets {@link #datum}, {@link #coordinateSystem} and {@link #referenceSystem} * to predefined objects matching the axes defined in the netCDF file. */ @Override void setPredefinedComponents(final Decoder decoder) throws FactoryException { super.setPredefinedComponents(decoder); if (isPredefinedCS(Units.DEGREE)) { GeographicCRS crs; if (is3D()) { crs = defaultCRS.geographic3D(); if (isLongitudeFirst) { crs = DefaultGeographicCRS.castOrCopy(crs).forConvention(AxesConvention.RIGHT_HANDED); } } else if (isLongitudeFirst) { crs = defaultCRS.normalizedGeographic(); } else { crs = defaultCRS.geographic(); } referenceSystem = crs; coordinateSystem = crs.getCoordinateSystem(); datum = crs.getDatum(); } else { datum = defaultCRS.datum(); final Integer epsg = epsgCandidateCS(Units.DEGREE); if (epsg != null) try { coordinateSystem = decoder.getCSAuthorityFactory().createEllipsoidalCS(epsg.toString()); } catch (NoSuchAuthorityCodeException e) { recoverableException(e); } } }
Example 4
Source File: IdentifiedObjectFinderTest.java From sis with Apache License 2.0 | 5 votes |
/** * Tests the {@link IdentifiedObjectFinder#findSingleton(IdentifiedObject)} method. * * @throws FactoryException if the creation of a CRS failed. */ @Test public void testFindSingleton() throws FactoryException { final GeographicCRS CRS84 = factory.createGeographicCRS("CRS:84"); final IdentifiedObjectFinder finder = factory.newIdentifiedObjectFinder(); assertEquals("Newly created finder should default to full scan.", IdentifiedObjectFinder.Domain.VALID_DATASET, finder.getSearchDomain()); finder.setSearchDomain(IdentifiedObjectFinder.Domain.DECLARATION); assertSame("Should find without the need for scan, since we can use the CRS:84 identifier.", CRS84, finder.findSingleton(CRS84)); finder.setSearchDomain(IdentifiedObjectFinder.Domain.VALID_DATASET); assertSame("Allowing scanning should not make any difference for this CRS84 instance.", CRS84, finder.findSingleton(CRS84)); /* * Same test than above, using a CRS without identifier. * The intent is to force a full scan. */ final CoordinateReferenceSystem search = new DefaultGeographicCRS( Collections.singletonMap(DefaultGeographicCRS.NAME_KEY, CRS84.getName()), CRS84.getDatum(), CRS84.getCoordinateSystem()); assertEqualsIgnoreMetadata(CRS84, search); // Required condition for next test. finder.setSearchDomain(IdentifiedObjectFinder.Domain.DECLARATION); assertNull("Should not find WGS84 without a full scan, since it does not contains the CRS:84 identifier.", finder.findSingleton(search)); finder.setSearchDomain(IdentifiedObjectFinder.Domain.VALID_DATASET); assertSame("A full scan should allow us to find WGS84, since it is equals ignoring metadata to CRS:84.", CRS84, finder.findSingleton(search)); }
Example 5
Source File: ServicesForMetadata.java From sis with Apache License 2.0 | 4 votes |
/** * Implementation of the public {@code setBounds(…, DefaultGeographicBoundingBox, …)} methods for * the horizontal extent. If the {@code crs} argument is null, then it is caller's responsibility * to ensure that the given envelope is two-dimensional. * * <p>If {@code findOpCaller} is non-null, then this method will be executed in optional mode: * some failures will cause this method to return {@code null} instead than throwing an exception. * Note that {@link TransformException} may still be thrown but not directly by this method. * Warning may be logged, but in such case this method presumes that public caller is the named * method from {@link Envelopes} — typically {@link Envelopes#findOperation(Envelope, Envelope)}.</p> * * @param envelope the source envelope. * @param target the target bounding box, or {@code null} for creating it automatically. * @param crs the envelope CRS, or {@code null} if unknown. * @param normalizedCRS the horizontal component of the given CRS, or null if the {@code crs} argument is null. * @param findOpCaller non-null for replacing some (not all) exceptions by {@code null} return value. * @return the bounding box or {@code null} on failure. Never {@code null} if {@code findOpCaller} argument is {@code null}. * @throws TransformException if the given envelope can not be transformed. */ private static DefaultGeographicBoundingBox setGeographicExtent(Envelope envelope, DefaultGeographicBoundingBox target, final CoordinateReferenceSystem crs, final GeographicCRS normalizedCRS, final String findOpCaller) throws TransformException { if (normalizedCRS != null) { // No need to check for dimension, since GeodeticCRS can not have less than 2. final CoordinateSystem cs1 = crs.getCoordinateSystem(); final CoordinateSystem cs2 = normalizedCRS.getCoordinateSystem(); if (!Utilities.equalsIgnoreMetadata(cs2.getAxis(0), cs1.getAxis(0)) || !Utilities.equalsIgnoreMetadata(cs2.getAxis(1), cs1.getAxis(1))) { final CoordinateOperation operation; final CoordinateOperationFactory factory = CoordinateOperations.factory(); try { operation = factory.createOperation(crs, normalizedCRS); } catch (FactoryException e) { if (findOpCaller != null) { // See javadoc for the assumption that optional mode is used by Envelopes.findOperation(…). Logging.recoverableException(Logging.getLogger(Modules.REFERENCING), Envelopes.class, findOpCaller, e); return null; } throw new TransformException(Resources.format(Resources.Keys.CanNotTransformEnvelopeToGeodetic), e); } envelope = Envelopes.transform(operation, envelope); } } /* * At this point, the envelope should use (longitude, latitude) coordinates in degrees. * The envelope may cross the anti-meridian if the envelope implementation is an Apache SIS one. * For other implementations, the longitude range may be conservatively expanded to [-180 … 180]°. */ double westBoundLongitude, eastBoundLongitude; double southBoundLatitude, northBoundLatitude; if (envelope instanceof AbstractEnvelope) { final AbstractEnvelope ae = (AbstractEnvelope) envelope; westBoundLongitude = ae.getLower(0); eastBoundLongitude = ae.getUpper(0); // Cross anti-meridian if eastBoundLongitude < westBoundLongitude. southBoundLatitude = ae.getLower(1); northBoundLatitude = ae.getUpper(1); } else { westBoundLongitude = envelope.getMinimum(0); eastBoundLongitude = envelope.getMaximum(0); // Expanded to [-180 … 180]° if it was crossing the anti-meridian. southBoundLatitude = envelope.getMinimum(1); northBoundLatitude = envelope.getMaximum(1); } /* * The envelope transformation at the beginning of this method intentionally avoided to apply datum shift. * This implies that the prime meridian has not been changed and may be something else than Greenwich. * We need to take it in account manually. * * Note that there is no need to normalize the longitudes back to the [-180 … +180]° range after the rotation, or * to verify if the longitude span is 360°. Those verifications will be done automatically by target.setBounds(…). */ if (normalizedCRS != null) { final double rotation = CRS.getGreenwichLongitude(normalizedCRS); westBoundLongitude += rotation; eastBoundLongitude += rotation; } /* * In the particular case where this method is invoked (indirectly) for Envelopes.findOperation(…) purposes, * replace NaN values by the whole world. We do that only for Envelopes.findOperation(…) since we know that * the geographic bounding box will be used for choosing a CRS, and a conservative approach is to select the * CRS valid in the widest area. If this method is invoked for other usages, then we keep NaN values because * we don't know the context (union, intersection, something else?). */ if (findOpCaller != null) { if (Double.isNaN(southBoundLatitude)) southBoundLatitude = Latitude.MIN_VALUE; if (Double.isNaN(northBoundLatitude)) northBoundLatitude = Latitude.MAX_VALUE; if (Double.isNaN(eastBoundLongitude) || Double.isNaN(westBoundLongitude)) { // Conservatively set the two bounds because may be spanning the anti-meridian. eastBoundLongitude = Longitude.MIN_VALUE; westBoundLongitude = Longitude.MAX_VALUE; } } if (target == null) { target = new DefaultGeographicBoundingBox(); } target.setBounds(westBoundLongitude, eastBoundLongitude, southBoundLatitude, northBoundLatitude); target.setInclusion(Boolean.TRUE); return target; }