/*
* GeoTools - The Open Source Java GIS Toolkit
* http://geotools.org
*
* (C) 2004-2008, Open Source Geospatial Foundation (OSGeo)
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* This package contains documentation from OpenGIS specifications.
* OpenGIS consortium's work is fully acknowledged here.
*/
package org.geotools.referencing.cs;
import java.util.Map;
import javax.measure.converter.UnitConverter;
import javax.measure.unit.NonSI;
import javax.measure.unit.SI;
import javax.measure.unit.Unit;
import org.opengis.referencing.cs.EllipsoidalCS;
import org.opengis.referencing.cs.AxisDirection;
import org.opengis.referencing.cs.CoordinateSystemAxis;
import org.opengis.geometry.MismatchedDimensionException;
import org.geotools.resources.i18n.Errors;
import org.geotools.resources.i18n.ErrorKeys;
import org.geotools.resources.i18n.VocabularyKeys;
/**
* A two- or three-dimensional coordinate system in which position is specified by geodetic
* latitude, geodetic longitude, and (in the three-dimensional case) ellipsoidal height. An
* {@code EllipsoidalCS} shall have two or three {@linkplain #getAxis axis}.
*
* <TABLE CELLPADDING='6' BORDER='1'>
* <TR BGCOLOR="#EEEEFF"><TH NOWRAP>Used with CRS type(s)</TH></TR>
* <TR><TD>
* {@link org.geotools.referencing.crs.DefaultGeographicCRS Geographic},
* {@link org.geotools.referencing.crs.DefaultEngineeringCRS Engineering}
* </TD></TR></TABLE>
*
* @since 2.1
* @source $URL$
* @version $Id$
* @author Martin Desruisseaux (IRD)
*/
public class DefaultEllipsoidalCS extends AbstractCS implements EllipsoidalCS {
/**
* Serial number for interoperability with different versions.
*/
private static final long serialVersionUID = -1452492488902329211L;
/**
* A two-dimensional ellipsoidal CS with
* <var>{@linkplain DefaultCoordinateSystemAxis#GEODETIC_LONGITUDE geodetic longitude}</var>,
* <var>{@linkplain DefaultCoordinateSystemAxis#GEODETIC_LATITUDE geodetic latitude}</var>
* axis in decimal degrees.
*/
public static DefaultEllipsoidalCS GEODETIC_2D = new DefaultEllipsoidalCS(
name(VocabularyKeys.GEODETIC_2D),
DefaultCoordinateSystemAxis.GEODETIC_LONGITUDE,
DefaultCoordinateSystemAxis.GEODETIC_LATITUDE);
/**
* A three-dimensional ellipsoidal CS with
* <var>{@linkplain DefaultCoordinateSystemAxis#GEODETIC_LONGITUDE geodetic longitude}</var>,
* <var>{@linkplain DefaultCoordinateSystemAxis#GEODETIC_LATITUDE geodetic latitude}</var>,
* <var>{@linkplain DefaultCoordinateSystemAxis#ELLIPSOIDAL_HEIGHT ellipsoidal height}</var>
* axis.
*/
public static DefaultEllipsoidalCS GEODETIC_3D = new DefaultEllipsoidalCS(
name(VocabularyKeys.GEODETIC_3D),
DefaultCoordinateSystemAxis.GEODETIC_LONGITUDE,
DefaultCoordinateSystemAxis.GEODETIC_LATITUDE,
DefaultCoordinateSystemAxis.ELLIPSOIDAL_HEIGHT);
/**
* The axis number for longitude, latitude and height.
* Will be constructed only when first needed.
*/
private transient int longitudeAxis, latitudeAxis, heightAxis;
/**
* The unit converters for longitude, latitude and height.
* Will be constructed only when first needed.
*/
private transient UnitConverter longitudeConverter, latitudeConverter, heightConverter;
/**
* Constructs a new coordinate system with the same values than the specified one.
* This copy constructor provides a way to wrap an arbitrary implementation into a
* Geotools one or a user-defined one (as a subclass), usually in order to leverage
* some implementation-specific API. This constructor performs a shallow copy,
* i.e. the properties are not cloned.
*
* @param cs The coordinate system to copy.
*
* @since 2.2
*/
public DefaultEllipsoidalCS(final EllipsoidalCS cs) {
super(cs);
}
/**
* Constructs a two-dimensional coordinate system from a name.
*
* @param name The coordinate system name.
* @param axis0 The first axis.
* @param axis1 The second axis.
*/
public DefaultEllipsoidalCS(final String name,
final CoordinateSystemAxis axis0,
final CoordinateSystemAxis axis1)
{
super(name, new CoordinateSystemAxis[] {axis0, axis1});
}
/**
* Constructs a three-dimensional coordinate system from a name.
*
* @param name The coordinate system name.
* @param axis0 The first axis.
* @param axis1 The second axis.
* @param axis2 The third axis.
*/
public DefaultEllipsoidalCS(final String name,
final CoordinateSystemAxis axis0,
final CoordinateSystemAxis axis1,
final CoordinateSystemAxis axis2)
{
super(name, new CoordinateSystemAxis[] {axis0, axis1, axis2});
}
/**
* Constructs a two-dimensional coordinate system from a set of properties.
* The properties map is given unchanged to the
* {@linkplain AbstractCS#AbstractCS(Map,CoordinateSystemAxis[]) super-class constructor}.
*
* @param properties Set of properties. Should contains at least {@code "name"}.
* @param axis0 The first axis.
* @param axis1 The second axis.
*/
public DefaultEllipsoidalCS(final Map<String,?> properties,
final CoordinateSystemAxis axis0,
final CoordinateSystemAxis axis1)
{
super(properties, new CoordinateSystemAxis[] {axis0, axis1});
}
/**
* Constructs a three-dimensional coordinate system from a set of properties.
* The properties map is given unchanged to the
* {@linkplain AbstractCS#AbstractCS(Map,CoordinateSystemAxis[]) super-class constructor}.
*
* @param properties Set of properties. Should contains at least {@code "name"}.
* @param axis0 The first axis.
* @param axis1 The second axis.
* @param axis2 The third axis.
*/
public DefaultEllipsoidalCS(final Map<String,?> properties,
final CoordinateSystemAxis axis0,
final CoordinateSystemAxis axis1,
final CoordinateSystemAxis axis2)
{
super(properties, new CoordinateSystemAxis[] {axis0, axis1, axis2});
}
/**
* For {@link #usingUnit} usage only.
*/
private DefaultEllipsoidalCS(final Map<String,?> properties, final CoordinateSystemAxis[] axis) {
super(properties, axis);
}
/**
* Returns {@code true} if the specified axis direction is allowed for this coordinate
* system. The default implementation accepts only the following directions:
* {@link AxisDirection#NORTH NORTH}, {@link AxisDirection#SOUTH SOUTH},
* {@link AxisDirection#EAST EAST}, {@link AxisDirection#WEST WEST},
* {@link AxisDirection#UP UP} and {@link AxisDirection#DOWN DOWN}.
*/
@Override
protected boolean isCompatibleDirection(AxisDirection direction) {
direction = direction.absolute();
return AxisDirection.NORTH.equals(direction) ||
AxisDirection.EAST .equals(direction) ||
AxisDirection.UP .equals(direction);
}
/**
* Returns {@code true} if the specified unit is compatible with
* {@linkplain NonSI#DEGREE_ANGLE decimal degrees} (or {@linkplain SI#METER meters} in the
* special case of height). This method is invoked at construction time for checking units
* compatibility.
*
* @since 2.2
*/
@Override
protected boolean isCompatibleUnit(AxisDirection direction, final Unit<?> unit) {
direction = direction.absolute();
final Unit<?> expected = AxisDirection.UP.equals(direction) ? SI.METER : NonSI.DEGREE_ANGLE;
return expected.isCompatible(unit);
}
/**
* Update the converters.
*/
private void update() {
for (int i=getDimension(); --i>=0;) {
final CoordinateSystemAxis axis = getAxis(i);
final AxisDirection direction = axis.getDirection().absolute();
final Unit<?> unit = axis.getUnit();
if (AxisDirection.EAST.equals(direction)) {
longitudeAxis = i;
longitudeConverter = unit.getConverterTo(NonSI.DEGREE_ANGLE);
continue;
}
if (AxisDirection.NORTH.equals(direction)) {
latitudeAxis = i;
latitudeConverter = unit.getConverterTo(NonSI.DEGREE_ANGLE);
continue;
}
if (AxisDirection.UP.equals(direction)) {
heightAxis = i;
heightConverter = unit.getConverterTo(SI.METER);
continue;
}
// Should not happen, since 'isCompatibleDirection'
// has already checked axis directions.
throw new AssertionError(direction);
}
}
/**
* Returns the longitude found in the specified coordinate point,
* always in {@linkplain NonSI#DEGREE_ANGLE decimal degrees}.
*
* @param coordinates The coordinate point expressed in this coordinate system.
* @return The longitude in the specified array, in {@linkplain NonSI#DEGREE_ANGLE decimal degrees}.
* @throws MismatchedDimensionException is the coordinate point doesn't have the expected dimension.
*/
public double getLongitude(final double[] coordinates)
throws MismatchedDimensionException
{
ensureDimensionMatch("coordinates", coordinates);
if (longitudeConverter == null) {
update();
}
return longitudeConverter.convert(coordinates[longitudeAxis]);
}
/**
* Returns the latitude found in the specified coordinate point,
* always in {@linkplain NonSI#DEGREE_ANGLE decimal degrees}.
*
* @param coordinates The coordinate point expressed in this coordinate system.
* @return The latitude in the specified array, in {@linkplain NonSI#DEGREE_ANGLE decimal degrees}.
* @throws MismatchedDimensionException is the coordinate point doesn't have the expected dimension.
*/
public double getLatitude(final double[] coordinates)
throws MismatchedDimensionException
{
ensureDimensionMatch("coordinates", coordinates);
if (latitudeConverter == null) {
update();
}
return latitudeConverter.convert(coordinates[latitudeAxis]);
}
/**
* Returns the height found in the specified coordinate point,
* always in {@linkplain SI#METER meters}.
*
* @param coordinates The coordinate point expressed in this coordinate system.
* @return The height in the specified array, in {@linkplain SI#METER meters}.
* @throws MismatchedDimensionException is the coordinate point doesn't have the expected
* dimension.
*/
public double getHeight(final double[] coordinates)
throws MismatchedDimensionException
{
ensureDimensionMatch("coordinates", coordinates);
if (heightConverter == null) {
update();
if (heightConverter == null) {
throw new IllegalStateException(Errors.format(ErrorKeys.NOT_THREE_DIMENSIONAL_CS));
}
}
return heightConverter.convert(coordinates[heightAxis]);
}
/**
* Returns a new coordinate system with the same properties than the current one except for
* axis units.
*
* @param unit The unit for the new axis.
* @return A coordinate system with axis using the specified units.
* @throws IllegalArgumentException If the specified unit is incompatible with the expected one.
*
* @todo Current implementation can't work for 3D coordinate systems.
*
* @since 2.2
*/
public DefaultEllipsoidalCS usingUnit(final Unit<?> unit) throws IllegalArgumentException {
final CoordinateSystemAxis[] axis = axisUsingUnit(unit);
if (axis == null) {
return this;
}
return new DefaultEllipsoidalCS(getProperties(this, null), axis);
}
}