/** * Tests all map projection creation. * * @throws FactoryException If a CRS can not be created. */ @Test public void testMapProjections() throws FactoryException { out.println(); out.println("Testing classification names"); out.println("----------------------------"); final CRSFactory crsFactory = ReferencingFactoryFinder.getCRSFactory(null); final MathTransformFactory mtFactory = ReferencingFactoryFinder.getMathTransformFactory(null); final Collection<OperationMethod> methods = mtFactory.getAvailableMethods(Projection.class); final Map<String, ?> dummyName = Collections.singletonMap("name", "Test"); for (final OperationMethod method : methods) { final String classification = method.getName().getCode(); final ParameterValueGroup param = mtFactory.getDefaultParameters(classification); try { param.parameter("semi_major").setValue(6377563.396); param.parameter("semi_minor").setValue(6356256.909237285); } catch (IllegalArgumentException e) { // Above parameters do not exists. Ignore. } final MathTransform mt; try { mt = mtFactory.createParameterizedTransform(param); } catch (FactoryException e) { // Probably not a map projection. This test is mostly about projection, so ignore. continue; } catch (UnsupportedOperationException e) { continue; } if (mt instanceof MapProjection) { /* * Tests map projection properties. Some tests are ommitted for south-oriented * map projections, since they are implemented as a concatenation of their North- * oriented variants with an affine transform. */ out.println(classification); final boolean skip = classification.equalsIgnoreCase("Transverse Mercator (South Orientated)") || classification.equalsIgnoreCase("Equidistant_Cylindrical"); if (!skip) { assertEquals( classification, ((MapProjection) mt).getParameterDescriptors().getName().getCode()); } final ProjectedCRS projCRS = crsFactory.createProjectedCRS( dummyName, DefaultGeographicCRS.WGS84, new DefiningConversion(dummyName, method, mt), DefaultCartesianCS.PROJECTED); final Conversion conversion = projCRS.getConversionFromBase(); assertSame(mt, conversion.getMathTransform()); final OperationMethod projMethod = conversion.getMethod(); assertEquals(classification, projMethod.getName().getCode()); } } }
/** * Tests the creation of new coordinate reference systems. * * @throws FactoryException if a coordinate reference system can't be created. */ @Test public void testCreation() throws FactoryException { out.println(); out.println("Testing CRS creations"); out.println("---------------------"); out.println(); out.println("create Coodinate Reference System....1: "); final DatumFactory datumFactory = ReferencingFactoryFinder.getDatumFactory(null); final CSFactory csFactory = ReferencingFactoryFinder.getCSFactory(null); final CRSFactory crsFactory = ReferencingFactoryFinder.getCRSFactory(null); final MathTransformFactory mtFactory = ReferencingFactoryFinder.getMathTransformFactory(null); final Ellipsoid airy1830; final Unit<Length> meters = SI.METER; airy1830 = datumFactory.createEllipsoid(name("Airy1830"), 6377563.396, 6356256.910, meters); out.println(); out.println("create Coodinate Reference System....2: "); out.println(airy1830.toWKT()); final PrimeMeridian greenwich; final Unit<Angle> degrees = NonSI.DEGREE_ANGLE; greenwich = datumFactory.createPrimeMeridian(name("Greenwich"), 0, degrees); out.println(); out.println("create Coodinate Reference System....3: "); out.println(greenwich.toWKT()); // NOTE: we could use the following pre-defined constant instead: // DefaultPrimeMeridian.GREENWICH; final GeodeticDatum datum; datum = datumFactory.createGeodeticDatum(name("Airy1830"), airy1830, greenwich); out.println(); out.println("create Coodinate Reference System....4: "); out.println(datum.toWKT()); // NOTE: we could use the following pre-defined constant instead: // DefaultEllipsoidalCS.GEODETIC_2D; final EllipsoidalCS ellCS; ellCS = csFactory.createEllipsoidalCS( name("Ellipsoidal"), csFactory.createCoordinateSystemAxis( name("Longitude"), "long", AxisDirection.EAST, degrees), csFactory.createCoordinateSystemAxis( name("Latitude"), "lat", AxisDirection.NORTH, degrees)); out.println(); out.println("create Coodinate Reference System....5: "); out.println(ellCS); // No WKT for coordinate systems final GeographicCRS geogCRS; geogCRS = crsFactory.createGeographicCRS(name("Airy1830"), datum, ellCS); out.println(); out.println("create Coodinate Reference System....6: "); out.println(geogCRS.toWKT()); final MathTransform p; final ParameterValueGroup param = mtFactory.getDefaultParameters("Transverse_Mercator"); param.parameter("semi_major").setValue(airy1830.getSemiMajorAxis()); param.parameter("semi_minor").setValue(airy1830.getSemiMinorAxis()); param.parameter("central_meridian").setValue(49); param.parameter("latitude_of_origin").setValue(-2); param.parameter("false_easting").setValue(400000); param.parameter("false_northing").setValue(-100000); out.println(); out.println("create Coodinate System....7: "); out.println(param); // NOTE: we could use the following pre-defined constant instead: // DefaultCartesianCS.PROJECTED; final CartesianCS cartCS; cartCS = csFactory.createCartesianCS( name("Cartesian"), csFactory.createCoordinateSystemAxis(name("Easting"), "x", AxisDirection.EAST, meters), csFactory.createCoordinateSystemAxis( name("Northing"), "y", AxisDirection.NORTH, meters)); out.println(); out.println("create Coodinate Reference System....8: "); out.println(cartCS); // No WKT for coordinate systems final Hints hints = new Hints(); hints.put(Hints.DATUM_FACTORY, datumFactory); hints.put(Hints.CS_FACTORY, csFactory); hints.put(Hints.CRS_FACTORY, crsFactory); hints.put(Hints.MATH_TRANSFORM_FACTORY, mtFactory); final ReferencingFactoryContainer container = new ReferencingFactoryContainer(hints); assertSame(datumFactory, container.getDatumFactory()); assertSame(csFactory, container.getCSFactory()); assertSame(crsFactory, container.getCRSFactory()); assertSame(mtFactory, container.getMathTransformFactory()); final Conversion conversion = new DefiningConversion("GBN grid", param); final ProjectedCRS projCRS = crsFactory.createProjectedCRS( name("Great_Britian_National_Grid"), geogCRS, conversion, cartCS); out.println(); out.println("create Coodinate System....9: "); out.println(projCRS.toWKT()); }