org.opengis.parameter.ParameterValue Java Examples
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org.opengis.parameter.ParameterValue.
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Example #1
Source File: UnmodifiableParameterValueTest.java From sis with Apache License 2.0 | 6 votes |
/** * Verifies that {@link UnmodifiableParameterValue#getValue()} can clone the value. */ @Test @DependsOnMethod("testCreate") public void testGetValue() { final ParameterValue<Date> modifiable = DefaultParameterDescriptorTest .createSimpleOptional("Time reference", Date.class).createValue(); modifiable.setValue(date("1994-01-01 00:00:00")); /* * Create and validate an unmodifiable parameter, * then verify that the values are not the same. */ final DefaultParameterValue<Date> unmodifiable = assertEquivalent(modifiable); final Date t1 = modifiable.getValue(); final Date t2 = unmodifiable.getValue(); assertNotSame("Date should be cloned.", t1, t2); assertEquals(t1, t2); /* * Verify that cloning the parameter also clone its value. */ final DefaultParameterValue<Date> clone = unmodifiable.clone(); assertEquals(DefaultParameterValue.class, clone.getClass()); final Date t3 = clone.getValue(); assertNotSame(t1, t3); assertNotSame(t2, t3); assertEquals (t1, t3); }
Example #2
Source File: CC_GeneralParameterValue.java From sis with Apache License 2.0 | 6 votes |
/** * Invoked by JAXB at marshalling time for getting the actual element to write * inside the {@code <gml:parameterValue>} XML element. * This is the value or a copy of the value given in argument to the {@code wrap} method. * * @return the element to be marshalled. * * @see CC_GeneralOperationParameter#getElement() */ @XmlElements({ // We can not use @XmlElementRef because we have no public AbstractParameterValue parent class. @XmlElement(name = "ParameterValue", type = DefaultParameterValue.class), @XmlElement(name = "ParameterValueGroup", type = DefaultParameterValueGroup.class) }) public GeneralParameterValue getElement() { final GeneralParameterValue metadata = this.metadata; if (metadata instanceof DefaultParameterValue<?>) { return (DefaultParameterValue<?>) metadata; } if (metadata instanceof DefaultParameterValueGroup) { return (DefaultParameterValueGroup) metadata; } if (metadata instanceof ParameterValue) { return new DefaultParameterValue<>((ParameterValue<?>) metadata); } if (metadata instanceof ParameterValueGroup) { return new DefaultParameterValueGroup((ParameterValueGroup) metadata); } return null; // Unknown types are currently not marshalled (we may revisit that in a future SIS version). }
Example #3
Source File: DefaultConversionTest.java From sis with Apache License 2.0 | 6 votes |
/** * Asserts that at least some of the properties of the given {@code op} instance have the expected values * for an instance created by {@link #createLongitudeRotation(GeographicCRS, GeographicCRS, TemporalCRS)}. */ @SuppressWarnings("SuspiciousToArrayCall") private static void verifyProperties(final DefaultConversion op, final boolean swapSourceAxes) { assertEquals("name", "Paris to Greenwich", op.getName().getCode()); assertEquals("sourceCRS", "NTF (Paris)", op.getSourceCRS().getName().getCode()); assertEquals("targetCRS", "Back to Greenwich", op.getTargetCRS().getName().getCode()); assertEquals("method", "Longitude rotation", op.getMethod().getName().getCode()); assertEquals("parameters", "Longitude rotation", op.getParameterDescriptors().getName().getCode()); final ParameterValueGroup parameters = op.getParameterValues(); final ParameterValue<?>[] values = parameters.values().toArray(new ParameterValue<?>[1]); assertEquals("parameters", "Longitude rotation", parameters.getDescriptor().getName().getCode()); assertEquals("parameters[0]", "Longitude offset", values[0].getDescriptor().getName().getCode()); assertEquals("parameters[0]", OFFSET, values[0].doubleValue(), STRICT); assertEquals(1, values.length); final Matrix3 expected = new Matrix3(); expected.m02 = OFFSET; if (swapSourceAxes) { expected.m00 = expected.m11 = 0; expected.m01 = expected.m10 = 1; } assertMatrixEquals("Longitude rotation of a two-dimensional CRS", expected, MathTransforms.getMatrix(op.getMathTransform()), STRICT); }
Example #4
Source File: UnmodifiableParameterValueGroup.java From sis with Apache License 2.0 | 6 votes |
/** * Creates a new unmodifiable parameter group. * * @param group the group of values to copy. * @param done an initially empty map used for protection against circular references. * * @see #create(ParameterValueGroup) */ private UnmodifiableParameterValueGroup(final ParameterValueGroup group, final Map<ParameterValueGroup,Boolean> done) { if (done.put(group, Boolean.TRUE) != null) { throw new IllegalArgumentException(Errors.format(Errors.Keys.CircularReference)); } descriptor = group.getDescriptor(); final List<GeneralParameterValue> values = group.values(); final GeneralParameterValue[] array = new GeneralParameterValue[values.size()]; for (int i=0; i<array.length; i++) { GeneralParameterValue value = values.get(i); ArgumentChecks.ensureNonNullElement("values", i, value); if (value instanceof ParameterValue<?>) { value = UnmodifiableParameterValue.create((ParameterValue<?>) value); } else if (value instanceof ParameterValueGroup) { value = new UnmodifiableParameterValueGroup((ParameterValueGroup) value, done); } array[i] = value; } this.values = UnmodifiableArrayList.wrap(array); }
Example #5
Source File: TensorValues.java From sis with Apache License 2.0 | 6 votes |
/** * Creates a matrix from this group of parameters. * This operation is allowed only for tensors of {@linkplain TensorParameters#rank() rank} 2. * * @return a matrix created from this group of parameters. */ final Matrix toMatrix() { final int numRow = dimensions[0].intValue(); final int numCol = dimensions[1].intValue(); final Matrix matrix = Matrices.createDiagonal(numRow, numCol); if (values != null) { for (int j=0; j<numRow; j++) { final ParameterValue<?>[] row = (ParameterValue<?>[]) values[j]; if (row != null) { for (int i=0; i<numCol; i++) { final ParameterValue<?> element = row[i]; if (element != null) { matrix.setElement(j, i, element.doubleValue()); } } } } } return matrix; }
Example #6
Source File: TensorValues.java From sis with Apache License 2.0 | 6 votes |
/** * Implementation of {@link #values()} which adds parameter values to the given list. * This method invokes itself recursively. */ private static void addValues(final Object[] values, final int[] actualSize, int j, final List<GeneralParameterValue> addTo) { if (values != null) { final int length = Math.min(values.length, actualSize[j]); if (++j != actualSize.length) { for (int i=0; i<length; i++) { addValues((Object[]) values[i], actualSize, j, addTo); } } else { for (int i=0; i<length; i++) { final ParameterValue<?> parameter = (ParameterValue<?>) values[i]; if (parameter != null && !isOmitted(parameter)) { addTo.add(parameter); } } } } }
Example #7
Source File: CoverageUtilities.java From hortonmachine with GNU General Public License v3.0 | 6 votes |
public static RegionMap generalParameterValues2RegionParamsMap( GeneralParameterValue[] params ) { GridGeometry2D gg = null; if (params != null) { for( int i = 0; i < params.length; i++ ) { final ParameterValue< ? > param = (ParameterValue< ? >) params[i]; final String name = param.getDescriptor().getName().getCode(); if (name.equals(AbstractGridFormat.READ_GRIDGEOMETRY2D.getName().toString())) { gg = (GridGeometry2D) param.getValue(); break; } } } if (gg == null) { throw new IllegalArgumentException("No gridgeometry present"); //$NON-NLS-1$ } RegionMap regionParams = gridGeometry2RegionParamsMap(gg); return regionParams; }
Example #8
Source File: ParametersTest.java From sis with Apache License 2.0 | 6 votes |
/** * Implementation of {@link #testValueDomain()} on a single descriptor instance. * This method test two paths: * * <ul> * <li>The special case for {@link DefaultParameterDescriptor} instances.</li> * <li>The fallback for generic cases. For that test, we wrap the descriptor in an anonymous class * for hiding the fact that the descriptor is an instance of {@code DefaultParameterDescriptor}.</li> * </ul> */ private static <T extends Comparable<? super T>> void verifyValueDomain( final Range<T> valueDomain, final ParameterDescriptor<T> descriptor) { assertEquals(valueDomain, Parameters.getValueDomain(descriptor)); assertEquals(valueDomain, Parameters.getValueDomain(new ParameterDescriptor<T>() { @Override public ReferenceIdentifier getName() {return descriptor.getName();} @Override public Collection<GenericName> getAlias() {return descriptor.getAlias();} @Override public Set<ReferenceIdentifier> getIdentifiers() {return descriptor.getIdentifiers();} @Override public InternationalString getRemarks() {return descriptor.getRemarks();} @Override public int getMinimumOccurs() {return descriptor.getMinimumOccurs();} @Override public int getMaximumOccurs() {return descriptor.getMaximumOccurs();} @Override public Class<T> getValueClass() {return descriptor.getValueClass();} @Override public Set<T> getValidValues() {return descriptor.getValidValues();} @Override public Comparable<T> getMinimumValue() {return descriptor.getMinimumValue();} @Override public Comparable<T> getMaximumValue() {return descriptor.getMaximumValue();} @Override public T getDefaultValue() {return descriptor.getDefaultValue();} @Override public Unit<?> getUnit() {return descriptor.getUnit();} @Override public ParameterValue<T> createValue() {return descriptor.createValue();} @Override public String toWKT() {return descriptor.toWKT();} })); }
Example #9
Source File: DefaultParameterValueGroupTest.java From sis with Apache License 2.0 | 6 votes |
/** * Tests that attempts to add an invalid parameter cause an {@link InvalidParameterNameException} to be thrown. */ @Test @DependsOnMethod("testValuesAdd") public void testValuesAddWrongParameter() { final DefaultParameterValueGroup group = createGroup(10); final List<GeneralParameterValue> values = group.values(); final ParameterValue<Integer> nonExistent = new DefaultParameterDescriptor<>( singletonMap(NAME_KEY, "Optional 5"), 0, 1, Integer.class, null, null, null).createValue(); try { values.add(nonExistent); fail("“Optional 5” is not a parameter for this group."); } catch (InvalidParameterNameException e) { assertEquals("Optional 5", e.getParameterName()); final String message = e.getMessage(); assertTrue(message, message.contains("Optional 5")); assertTrue(message, message.contains("Test group")); } }
Example #10
Source File: DefaultParameterValueGroupTest.java From sis with Apache License 2.0 | 6 votes |
/** * Tests {@code DefaultParameterValueGroup.values().set(…)}. */ @Test @DependsOnMethod("testValuesGet") public void testValuesSet() { final DefaultParameterValueGroup group = new DefaultParameterValueGroup(descriptor); final List<GeneralParameterValue> values = group.values(); assertEquals("Initial size", 2, values.size()); final ParameterValue<?> p0 = (ParameterValue<?>) descriptor.descriptors().get(0).createValue(); final ParameterValue<?> p1 = (ParameterValue<?>) descriptor.descriptors().get(1).createValue(); p0.setValue(4); p1.setValue(5); assertEquals("Mandatory 1", values.set(0, p0).getDescriptor().getName().toString()); assertEquals("Mandatory 2", values.set(1, p1).getDescriptor().getName().toString()); try { values.set(2, p1); fail("Index 2 shall be out of bounds."); } catch (IndexOutOfBoundsException e) { assertNotNull(e.getMessage()); } assertEquals("size", 2, values.size()); // Size should be unchanged. assertEquals(4, ((ParameterValue<?>) values.get(0)).intValue()); assertEquals(5, ((ParameterValue<?>) values.get(1)).intValue()); }
Example #11
Source File: DefaultParameterValueGroupTest.java From sis with Apache License 2.0 | 6 votes |
/** * Tests {@code DefaultParameterValueGroup.values().get(…)} on a group expected to be pre-filled * with mandatory parameters. */ @Test public void testValuesGet() { final DefaultParameterValueGroup group = new DefaultParameterValueGroup(descriptor); final List<GeneralParameterValue> values = group.values(); assertEquals("Initial size", 2, values.size()); assertEquals(descriptor.descriptors().get(0).createValue(), values.get(0)); assertEquals(descriptor.descriptors().get(1).createValue(), values.get(1)); try { values.get(2); fail("Index 2 shall be out of bounds."); } catch (IndexOutOfBoundsException e) { assertNotNull(e.getMessage()); } assertEquals(DefaultParameterDescriptorGroupTest.DEFAULT_VALUE, ((ParameterValue<?>) values.get(0)).getValue()); assertEquals(DefaultParameterDescriptorGroupTest.DEFAULT_VALUE, ((ParameterValue<?>) values.get(1)).getValue()); }
Example #12
Source File: WKTUtilities.java From sis with Apache License 2.0 | 6 votes |
/** * Appends a {@linkplain ParameterValue parameter} in a {@code PARAMETER[…]} element. * If the supplied parameter is actually a {@linkplain ParameterValueGroup parameter group}, * all contained parameters will be flattened in a single list. * * @param parameter the parameter to append to the WKT, or {@code null} if none. * @param formatter the formatter where to append the parameter. */ public static void append(GeneralParameterValue parameter, final Formatter formatter) { if (parameter instanceof ParameterValueGroup) { boolean first = true; for (final GeneralParameterValue param : ((ParameterValueGroup) parameter).values()) { if (first) { formatter.newLine(); first = false; } append(param, formatter); } } if (parameter instanceof ParameterValue<?>) { if (!(parameter instanceof FormattableObject)) { parameter = new DefaultParameterValue<>((ParameterValue<?>) parameter); } formatter.append((FormattableObject) parameter); formatter.newLine(); } }
Example #13
Source File: UnmodifiableParameterValueTest.java From sis with Apache License 2.0 | 5 votes |
/** * Creates an {@link UnmodifiableParameterValue} implementation for the given parameter * and asserts that we got a new instance equivalent to the original one. */ private static <T> DefaultParameterValue<T> assertEquivalent(final ParameterValue<T> modifiable) { final DefaultParameterValue<T> unmodifiable = DefaultParameterValue.unmodifiable(modifiable); assertNotSame("Expected a new instance.", modifiable, unmodifiable); assertTrue("New instance shall be equal to the original one.", unmodifiable.equals(modifiable, ComparisonMode.BY_CONTRACT)); return unmodifiable; }
Example #14
Source File: ParameterFormatTest.java From sis with Apache License 2.0 | 5 votes |
/** * Tests the formatting of a parameter value group with a cardinality * invalid according ISO 19111, but allowed by Apache SIS implementation. * ISO 19111 restricts {@link ParameterValue} cardinality to the [0 … 1] range, * but SIS can handle arbitrary number of occurrences (2 in this test). */ @Test @DependsOnMethod("testExtendedCardinality") public void testMultiOccurrence() { final ParameterValueGroup group = DefaultParameterDescriptorGroupTest.M1_M1_O1_O2.createValue(); group.parameter("Mandatory 2").setValue(20); final ParameterValue<?> value = group.parameter("Optional 4"); value.setValue(40); /* * Adding a second occurrence of the same parameter. * Not straightforward because not allowed by ISO 19111. */ final ParameterValue<?> secondOccurrence = value.getDescriptor().createValue(); group.values().add(secondOccurrence); secondOccurrence.setValue(50); final ParameterFormat format = new ParameterFormat(null, null); format.setContentLevel(ParameterFormat.ContentLevel.BRIEF); final String text = format.format(group); assertMultilinesEquals( "Test group\n" + "┌─────────────┬─────────┬──────────────┬───────┐\n" + "│ Name │ Type │ Value domain │ Value │\n" + "├─────────────┼─────────┼──────────────┼───────┤\n" + "│ Mandatory 1 │ Integer │ │ 10 │\n" + "│ Mandatory 2 │ Integer │ │ 20 │\n" + "│ Optional 4 │ Integer │ │ 40 │\n" + "│ ″ │ ″ │ ″ │ 50 │\n" + "└─────────────┴─────────┴──────────────┴───────┘\n", text); }
Example #15
Source File: GeographicToGeocentric.java From sis with Apache License 2.0 | 5 votes |
/** * Implementation of {@link #createMathTransform(MathTransformFactory, ParameterValueGroup)} * shared with {@link GeocentricToGeographic}. */ static MathTransform create(final MathTransformFactory factory, final Parameters values) throws FactoryException { final ParameterValue<?> semiMajor = values.parameter(Constants.SEMI_MAJOR); final Unit<Length> unit = semiMajor.getUnit().asType(Length.class); return EllipsoidToCentricTransform.createGeodeticConversion(factory, semiMajor.doubleValue(), values.parameter(Constants.SEMI_MINOR).doubleValue(unit), unit, values.intValue(DIMENSION) >= 3, EllipsoidToCentricTransform.TargetType.CARTESIAN); }
Example #16
Source File: EllipsoidToCentricTransform.java From sis with Apache License 2.0 | 5 votes |
/** * Creates a transform with the same parameters than this transform, * but expecting two-dimensional inputs instead than three-dimensional. */ final EllipsoidToCentricTransform create2D() { final ParameterValue<Double> p = context.getOrCreate(SEMI_MAJOR); final Unit<Length> unit = p.getUnit().asType(Length.class); return new EllipsoidToCentricTransform(p.doubleValue(), context.getOrCreate(SEMI_MINOR).doubleValue(unit), unit, false, getTargetType()); }
Example #17
Source File: TensorValues.java From sis with Apache License 2.0 | 5 votes |
/** * Returns the parameter value in this group for the specified name. * * @param name the name of the parameter to search for. * @return the parameter value for the given name. * @throws ParameterNotFoundException if there is no parameter for the given name. */ @Override public ParameterValue<?> parameter(String name) throws ParameterNotFoundException { name = CharSequences.trimWhitespaces(name); ArgumentChecks.ensureNonEmpty("name", name); IllegalArgumentException cause = null; int[] indices = null; try { indices = descriptors.nameToIndices(name); } catch (IllegalArgumentException exception) { cause = exception; } if (indices != null) { final int[] actualSize = size(); if (TensorParameters.isInBounds(indices, actualSize)) { return parameter(indices, actualSize); } } /* * The given name is not a matrix (or tensor) element name. * Verify if the requested parameters is one of those that * specify the matrix/tensor size ("num_row" or "num_col"). */ final int rank = descriptors.rank(); for (int i=0; i<rank; i++) { final ParameterDescriptor<Integer> param = descriptors.getDimensionDescriptor(i); if (IdentifiedObjects.isHeuristicMatchForName(param, name)) { return dimensions[i]; } } throw (ParameterNotFoundException) new ParameterNotFoundException(Resources.format( Resources.Keys.ParameterNotFound_2, getName(), name), name).initCause(cause); }
Example #18
Source File: TensorValues.java From sis with Apache License 2.0 | 5 votes |
/** * Constructs a copy of the given matrix parameters. * If {@code clone} is true, the new group will be a clone of the given group. * If {@code clone} is false, the new group will be initialized to default values. */ TensorValues(final TensorValues<E> other, final boolean clone) { super(other); descriptors = other.descriptors; dimensions = other.dimensions.clone(); for (int i=0; i<dimensions.length; i++) { final ParameterValue<Integer> dim = dimensions[i]; dimensions[i] = clone ? dim.clone() : dim.getDescriptor().createValue(); } if (clone) { values = clone(other.values); } }
Example #19
Source File: MapProjectionParameters.java From sis with Apache License 2.0 | 5 votes |
/** * Creates a new parameter. */ InverseFlattening(final ParameterValue<?> semiMajor, final ParameterValue<?> semiMinor) { super(DESCRIPTOR); this.semiMajor = semiMajor; this.semiMinor = semiMinor; invalidate(); }
Example #20
Source File: UnmodifiableParameterValueTest.java From sis with Apache License 2.0 | 5 votes |
/** * Tests the value returned by {@link DefaultParameterValue#unmodifiable(ParameterValue)}. */ @Test public void testCreate() { final ParameterValue<Double> modifiable = DefaultParameterDescriptorTest .createSimpleOptional("Scale factor", Double.class).createValue(); modifiable.setValue(0.9996); // Scale factor of all UTM projections. /* * Create and validate an unmodifiable parameter, * then verify that we can not modify its value. */ final DefaultParameterValue<Double> unmodifiable = assertEquivalent(modifiable); assertSame("Double instances do not need to be cloned.", modifiable.getValue(), unmodifiable.getValue()); modifiable.setValue(1.0); try { unmodifiable.setValue(1.0); fail("UnmodifiableParameterValue shall not allow modification."); } catch (UnsupportedOperationException e) { final String message = e.getMessage(); assertTrue(message, message.contains("DefaultParameterValue")); } assertEquals(1.0, modifiable.doubleValue(), STRICT); assertEquals(0.9996, unmodifiable.doubleValue(), STRICT); /* * Verify that invoking again DefaultParameterValue.unmodifiable(…) return the same instance. * Opportunistically verify that we detect null value and instances already unmodifiable. */ assertNull ( DefaultParameterValue.unmodifiable(null)); assertSame (unmodifiable, DefaultParameterValue.unmodifiable(unmodifiable)); assertNotSame(unmodifiable, assertEquivalent(modifiable)); modifiable.setValue(0.9996); // Restore our original value. assertSame (unmodifiable, assertEquivalent(modifiable)); }
Example #21
Source File: ParameterMarshallingTest.java From sis with Apache License 2.0 | 5 votes |
/** * Verifies that the given parameter value has the expected value and descriptor properties. * * @param code the expected EPSG code. * @param name the expected EPSG name. * @param alias the expected OGC alias. * @param value the expected value. * @param unit the expected unit of measurement for both the value and the descriptor. * @param descriptor the expected parameter descriptor associated to the parameter value. * @param parameter the parameter value to verify. */ private static void verifyParameter(final int code, final String name, final String alias, final double value, final Unit<?> unit, final GeneralParameterDescriptor descriptor, final GeneralParameterValue parameter) { assertInstanceOf(name, ParameterValue.class, parameter); final ParameterValue<?> p = (ParameterValue<?>) parameter; final ParameterDescriptor<?> d = p.getDescriptor(); verifyDescriptor(code, name, alias, true, d); assertSame ("descriptor", descriptor, d); assertEquals("value", value, p.doubleValue(), STRICT); assertEquals("unit", unit, p.getUnit()); assertEquals("valueClass", Double.class, d.getValueClass()); assertEquals("unit", unit, d.getUnit()); }
Example #22
Source File: ContextualParameters.java From sis with Apache License 2.0 | 5 votes |
/** * Returns the parameter value of the given name. * Before the call to {@link #completeTransform completeTransform(…)}, * this method can be used for setting parameter values like below: * * {@preformat java * parameter("Scale factor").setValue(0.9996); // Scale factor of Universal Transverse Mercator (UTM) projections. * } * * After the call to {@code completeTransform(…)}, the returned parameters are read-only. * * @param name the name of the parameter to search. * @return the parameter value for the given name. * @throws ParameterNotFoundException if there is no parameter of the given name. */ @Override public synchronized ParameterValue<?> parameter(final String name) throws ParameterNotFoundException { final GeneralParameterDescriptor desc = descriptor.descriptor(name); if (!(desc instanceof ParameterDescriptor<?>)) { throw parameterNotFound(name); } /* * Search for existing parameter instance. This implementation does not scale, but should be okay since * the amount of parameters is typically very small (rarely more than 6 parameters in map projections). */ for (int i=0; i < values.length; i++) { ParameterValue<?> p = values[i]; if (p == null) { values[i] = p = new ContextualParameter<>((ParameterDescriptor<?>) desc); return p; } if (p.getDescriptor() == desc) { // Identity comparison should be okay here. return p; } } /* * We may reach this point if map projection construction is completed (i.e. 'completeTransform(…)' has * been invoked) and the user asks for a parameter which is not one of the parameters that we retained. * Returns a parameter initialized to the default value, which is the actual value (otherwise we would * have stored that parameter). Note: we do not bother making the parameter immutable for performance * reason. If the user invokes a setter method on the returned parameter, he may get a false impression * that this ContextualParameters is still modifiable. We presume that such scenario would be rare. */ if (isFrozen) { return ((ParameterDescriptor<?>) desc).createValue(); } /* * Should never reach this point. If it happen anyway, this means that the descriptor now accepts * more parameters than what it declared at ContextualParameteres construction time, or that some * ParameterDescriptor instances changed. */ throw new ParameterNotFoundException(Errors.format(Errors.Keys.UnexpectedChange_1, descriptor.getName()), name); }
Example #23
Source File: MapProjectionParametersTest.java From sis with Apache License 2.0 | 5 votes |
/** * Tests the standard parallel dynamic parameter. */ @Test public void testStandardParallel() { final MapProjectionDescriptor descriptor = createDescriptor(2); final ParameterValueGroup parameters = descriptor.createValue(); final ParameterValue<?> p = parameters.parameter(STANDARD_PARALLEL); final ParameterValue<?> p1 = parameters.parameter(STANDARD_PARALLEL_1); final ParameterValue<?> p2 = parameters.parameter(STANDARD_PARALLEL_2); assertSame(p, parameters.parameter(STANDARD_PARALLEL)); assertSame(p1, parameters.parameter(STANDARD_PARALLEL_1)); assertSame(p2, parameters.parameter(STANDARD_PARALLEL_2)); assertNotSame(p1, p2); assertNotSame(p1, p); assertNotSame(p2, p); /* Empty */ assertArrayEquals(new double[] { }, p.doubleValueList(), 0.0); p1.setValue(40); assertArrayEquals(new double[] {40 }, p.doubleValueList(), 0.0); p2.setValue(60); assertArrayEquals(new double[] {40,60}, p.doubleValueList(), 0.0); p.setValue(new double[] {30,40}); assertEquals(30, p1.doubleValue(), 0.0); assertEquals(40, p2.doubleValue(), 0.0); p.setValue(new double[] {45}); assertEquals(45, p1.doubleValue(), 0.0); assertEquals(Double.NaN, p2.doubleValue(), 0.0); }
Example #24
Source File: ContextualParametersTest.java From sis with Apache License 2.0 | 5 votes |
/** * Tests {@link ContextualParameters#parameter(String)} and {@link ContextualParameters#values()}. */ @Test public void testParameters() { final ContextualParameters p = create(1, 1); assertTrue("values().isEmpty()", p.values().isEmpty()); assertTrue("normalize.isIdentity()", p.getMatrix(ContextualParameters.MatrixRole.NORMALIZATION).isIdentity()); assertTrue("denormalize.isIdentity()", p.getMatrix(ContextualParameters.MatrixRole.DENORMALIZATION).isIdentity()); assertTrue("normalize.isIdentity()", p.getMatrix(ContextualParameters.MatrixRole.INVERSE_NORMALIZATION).isIdentity()); assertTrue("denormalize.isIdentity()", p.getMatrix(ContextualParameters.MatrixRole.INVERSE_DENORMALIZATION).isIdentity()); final ParameterValue<?> p1 = p.parameter("Mandatory 1"); final ParameterValue<?> p2 = p.parameter("Mandatory 2"); try { p.parameter("Mandatory 3"); fail("Shall not find a non-existent parameter."); } catch (ParameterNotFoundException e) { // This is the expected exception. final String message = e.getMessage(); assertTrue(message, message.contains("Mandatory 3")); } assertNotSame(p1, p2); assertSame(p1, p.parameter("Mandatory 1")); assertSame(p2, p.parameter("Mandatory 2")); assertEquals("values().size()", 2, p.values().size()); assertArrayEquals("values.toArray()", new ParameterValue<?>[] {p1, p2}, p.values().toArray()); }
Example #25
Source File: DefaultTransformationTest.java From sis with Apache License 2.0 | 5 votes |
/** * Asserts that at least some of the properties of the given {@code op} instance have the expected values * for an instance created by {@link #createGeocentricTranslation()}. */ @SuppressWarnings("SuspiciousToArrayCall") private static void verifyProperties(final DefaultTransformation op) { assertEquals("name", "Tokyo to JGD2000 (GSI)", op.getName().getCode()); assertEquals("sourceCRS", "Tokyo 1918", op.getSourceCRS().getName().getCode()); assertEquals("targetCRS", "JGD2000", op.getTargetCRS().getName().getCode()); assertEquals("method", "Geocentric translations", op.getMethod().getName().getCode()); assertEquals("parameters", "Geocentric translations", op.getParameterDescriptors().getName().getCode()); final ParameterValueGroup parameters = op.getParameterValues(); final ParameterValue<?>[] values = parameters.values().toArray(new ParameterValue<?>[3]); assertEquals("parameters", "Geocentric translations", parameters.getDescriptor().getName().getCode()); assertEquals("parameters[0]", "X-axis translation", values[0] .getDescriptor().getName().getCode()); assertEquals("parameters[1]", "Y-axis translation", values[1] .getDescriptor().getName().getCode()); assertEquals("parameters[2]", "Z-axis translation", values[2] .getDescriptor().getName().getCode()); assertEquals("parameters[0]", -146.414, values[0].doubleValue(), STRICT); assertEquals("parameters[1]", 507.337, values[1].doubleValue(), STRICT); assertEquals("parameters[2]", 680.507, values[2].doubleValue(), STRICT); assertEquals(3, values.length); final Matrix m = MathTransforms.getMatrix(op.getMathTransform()); assertNotNull("transform", m); for (int j=m.getNumRow(); --j >= 0;) { for (int i=m.getNumCol(); --i >= 0;) { double expected = (i == j) ? 1 : 0; if (i == 2) switch (j) { case 0: expected = -146.414; break; case 1: expected = 507.337; break; case 2: expected = 680.507; break; } assertEquals(expected, m.getElement(j,i), STRICT); } } }
Example #26
Source File: SingleOperationMarshallingTest.java From sis with Apache License 2.0 | 5 votes |
/** * Tests unmarshalling of a defining conversion. * * @throws JAXBException if an error occurred during marshalling or unmarshalling. */ @Test @DependsOnMethod("testOperationMethod") public void testConversionUnmarshalling() throws JAXBException { final DefaultConversion c = unmarshalFile(DefaultConversion.class, "Conversion.xml"); assertEquals("name", "World Mercator", c.getName().getCode()); assertEquals("identifier", "3395", getSingleton(c.getIdentifiers()).getCode()); assertEquals("scope", "Very small scale mapping.", String.valueOf(c.getScope())); assertNull ("operationVersion", c.getOperationVersion()); final GeographicBoundingBox e = (GeographicBoundingBox) getSingleton(c.getDomainOfValidity().getGeographicElements()); assertEquals("eastBoundLongitude", +180, e.getEastBoundLongitude(), STRICT); assertEquals("westBoundLongitude", -180, e.getWestBoundLongitude(), STRICT); assertEquals("northBoundLatitude", 84, e.getNorthBoundLatitude(), STRICT); assertEquals("southBoundLatitude", -80, e.getSouthBoundLatitude(), STRICT); // This is a defining conversion, so we do not expect CRS. assertNull("sourceCRS", c.getSourceCRS()); assertNull("targetCRS", c.getTargetCRS()); assertNull("interpolationCRS", c.getInterpolationCRS()); assertNull("mathTransform", c.getMathTransform()); // The most difficult part. final OperationMethod method = c.getMethod(); assertNotNull("method", method); verifyMethod(method); final ParameterValueGroup parameters = c.getParameterValues(); assertNotNull("parameters", parameters); final Iterator<GeneralParameterValue> it = parameters.values().iterator(); verifyParameter(method, parameters, -0.0, (ParameterValue<?>) it.next()); verifyParameter(method, parameters, -90.0, (ParameterValue<?>) it.next()); assertFalse("Unexpected parameter.", it.hasNext()); Validators.validate(c); }
Example #27
Source File: SingleOperationMarshallingTest.java From sis with Apache License 2.0 | 5 votes |
/** * Verify a parameter value. The descriptor is expected to be the same instance than the descriptors * defined in the {@link ParameterValueGroup} and in the {@link OperationMethod}. * * @param method the method of the enclosing operation. * @param group the group which contain the given parameter. * @param expectedValue the expected parameter value. * @param parameter the parameter to verify. */ private static void verifyParameter(final OperationMethod method, final ParameterValueGroup group, final double expectedValue, final ParameterValue<?> parameter) { final ParameterDescriptor<?> descriptor = parameter.getDescriptor(); final String name = descriptor.getName().getCode(); assertSame("parameterValues.descriptor", descriptor, group.getDescriptor().descriptor(name)); assertSame("method.descriptor", descriptor, method.getParameters().descriptor(name)); assertEquals("value", expectedValue, parameter.doubleValue(), STRICT); }
Example #28
Source File: GeodeticObjectParserTest.java From sis with Apache License 2.0 | 5 votes |
/** * Tests the parsing of a projected CRS using angular values in grads instead than degrees * and in lengths in kilometres instead than metres. * * @throws ParseException if the parsing failed. */ @Test @DependsOnMethod({"testGeographicWithParisMeridian", "testProjectedCRS"}) public void testProjectedWithGradUnits() throws ParseException { String wkt = "PROJCS[“NTF (Paris) / Lambert zone II”," + " GEOGCS[“NTF (Paris)”," + " DATUM[“Nouvelle Triangulation Française (Paris)”," + " SPHEROID[“Clarke 1880 (IGN)”, 6378249.2, 293.4660212936269]," + " TOWGS84[-168,-60,320,0,0,0,0]]," + " PRIMEM[“Paris”, 2.5969213, AUTHORITY[“EPSG”, “8903”]]," + // In grads. " UNIT[“grad”, 0.01570796326794897]]," + " PROJECTION[“Lambert Conformal Conic (1SP)”]," + // Intentional swapping of "Conformal" and "Conic". " PARAMETER[“latitude_of_origin”, 52.0]," + // In grads. " PARAMETER[“scale_factor”, 0.99987742]," + " PARAMETER[“false_easting”, 600.0]," + " PARAMETER[“false_northing”, 2200.0]," + " UNIT[“km”,1000]]"; validateParisFranceII(parse(ProjectedCRS.class, wkt), 0, true); /* * Parse again using Convention.WKT1_COMMON_UNITS and ignoring AXIS[…] elements. * See the comment in 'testGeographicWithParisMeridian' method for a discussion. * The new aspect tested by this method is that the unit should be ignored * for the parameters in addition to the prime meridian. */ wkt = wkt.replace("2.5969213", "2.33722917"); // Convert unit in prime meridian. wkt = wkt.replace("52.0", "46.8"); // Convert unit in “latitude_of_origin” parameter. wkt = wkt.replace("600.0", "600000"); // Convert unit in “false_easting” parameter. wkt = wkt.replace("2200.0", "2200000"); // Convert unit in “false_northing” parameter. newParser(Convention.WKT1_IGNORE_AXES); final ProjectedCRS crs = parse(ProjectedCRS.class, wkt); assertNameAndIdentifierEqual("NTF (Paris) / Lambert zone II", 0, crs); verifyProjectedCS(crs.getCoordinateSystem(), Units.KILOMETRE); final PrimeMeridian pm = verifyNTF(crs.getDatum(), true); assertEquals("angularUnit", Units.DEGREE, pm.getAngularUnit()); assertEquals("greenwichLongitude", 2.33722917, pm.getGreenwichLongitude(), STRICT); final ParameterValue<?> param = verifyNTF(crs.getConversionFromBase().getParameterValues()); assertEquals("angularUnit", Units.DEGREE, param.getUnit()); assertEquals("latitude_of_origin", 46.8, param.doubleValue(), STRICT); }
Example #29
Source File: GeodeticObjectParserTest.java From sis with Apache License 2.0 | 5 votes |
/** * Verifies the parameters of a “NTF (Paris) / Lambert zone II” projection. */ private static void validateParisFranceII(final ProjectedCRS crs, final int identifier, final boolean hasToWGS84) { assertNameAndIdentifierEqual("NTF (Paris) / Lambert zone II", identifier, crs); verifyProjectedCS(crs.getCoordinateSystem(), Units.KILOMETRE); final PrimeMeridian pm = verifyNTF(crs.getDatum(), hasToWGS84); assertEquals("angularUnit", Units.GRAD, pm.getAngularUnit()); assertEquals("greenwichLongitude", 2.5969213, pm.getGreenwichLongitude(), STRICT); final ParameterValue<?> param = verifyNTF(crs.getConversionFromBase().getParameterValues()); assertEquals("angularUnit", Units.GRAD, param.getUnit()); assertEquals("latitude_of_origin", 52.0, param.doubleValue(), STRICT); }
Example #30
Source File: GeodeticObjectParserTest.java From sis with Apache License 2.0 | 5 votes |
/** * Verifies the parameter values for a projected CRS which is expected to be “NTF (Paris) / Lambert zone II”. * This is used by the methods in this class which test a CRS using less frequently used units and prime meridian. * * @return the latitude of origin, to be verified by the caller because the unit of measurement depends on the test. */ private static ParameterValue<?> verifyNTF(final ParameterValueGroup param) { assertEquals("Lambert Conic Conformal (1SP)", param.getDescriptor().getName().getCode()); assertEquals("semi_major", 6378249.2, param.parameter("semi_major" ).doubleValue(Units.METRE), STRICT); assertEquals("semi_minor", 6356515.0, param.parameter("semi_minor" ).doubleValue(Units.METRE), 1E-12); assertEquals("central_meridian", 0.0, param.parameter("central_meridian").doubleValue(Units.DEGREE), STRICT); assertEquals("scale_factor", 0.99987742, param.parameter("scale_factor" ).doubleValue(Units.UNITY), STRICT); assertEquals("false_easting", 600000.0, param.parameter("false_easting" ).doubleValue(Units.METRE), STRICT); assertEquals("false_northing", 2200000.0, param.parameter("false_northing" ).doubleValue(Units.METRE), STRICT); return param.parameter("latitude_of_origin"); }