/****************************************************************************** * Project: PROJ.4 * Purpose: Java/JNI wrappers for PROJ API. * Author: Martin Desruisseaux * ****************************************************************************** * Copyright (c) 2011-2018, Open Geospatial Consortium, Inc. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. ****************************************************************************** */ package org.proj4; import java.util.Objects; import java.lang.annotation.Native; /** * Wraps the PROJ {@code PJ} native data structure. * Almost every methods defined in this class are native methods delegating the work to the PROJ library. * This class is the only place where such native methods are defined. * *

In the PROJ library, the {@code PJ} structure aggregates in a single place information usually * splitted in many different ISO 19111 interfaces: {@link org.opengis.referencing.datum.Ellipsoid}, * {@link org.opengis.referencing.datum.Datum}, {@link org.opengis.referencing.datum.PrimeMeridian}, * {@link org.opengis.referencing.cs.CoordinateSystem}, {@link org.opengis.referencing.crs.CoordinateReferenceSystem} * and their sub-interfaces. The relationship with the GeoAPI methods is indicated in the * "See" tags when appropriate.

* * @author Martin Desruisseaux (Geomatys) * @version 5.1 * @since 4.8 */ public class PJ { /** * The maximal number of dimension accepted by the {@link #transform(PJ, int, double[], int, int)} method. * This upper limit is actually somewhat arbitrary. This limit exists mostly as a safety against potential misuse. */ @Native public static final int DIMENSION_MAX = 100; /** * Loads the PROJ library. */ static { System.loadLibrary("proj"); } /** * The pointer to {@code PJ} structure allocated in the C/C++ heap. This value has no meaning in Java code. * Do not modify, since this value is used by PROJ. Do not rename neither, unless you update * accordingly the C code in JNI wrappers. */ private final long ptr; /** * Creates a new {@code PJ} structure from the given PROJ definition string. * * @param definition the PROJ definition string. * @throws IllegalArgumentException if the PJ structure can not be created from the given string. */ public PJ(final String definition) throws IllegalArgumentException { Objects.requireNonNull(definition); ptr = allocatePJ(definition); if (ptr == 0) { throw new IllegalArgumentException(definition); } } /** * Creates a new {@code PJ} structure derived from an existing {@code PJ} object. * This constructor is usually for getting the * {@linkplain org.opengis.referencing.crs.ProjectedCRS#getBaseCRS() base geographic CRS} * from a {@linkplain org.opengis.referencing.crs.ProjectedCRS projected CRS}. * * @param crs the CRS (usually projected) from which to derive a new CRS. * @param type the type of the new CRS. Currently, only {@link Type#GEOGRAPHIC} is supported. * @throws IllegalArgumentException if the PJ structure can not be created. */ public PJ(final PJ crs, final Type type) throws IllegalArgumentException { Objects.requireNonNull(crs, "The CRS must be non-null."); if (type != Type.GEOGRAPHIC) { throw new IllegalArgumentException("Can not derive the " + type + " type."); } ptr = allocateGeoPJ(crs); if (ptr == 0) { throw new IllegalArgumentException(crs.getLastError()); } } /** * Allocates a PJ native data structure and returns the pointer to it. This method should be * invoked by the constructor only, and the return value must be assigned * to the {@link #ptr} field. The allocated structure is released by the {@link #finalize()} * method. * * @param definition the PROJ definition string. * @return a pointer to the PJ native data structure, or 0 if the operation failed. */ private static native long allocatePJ(String definition); /** * Allocates a PJ native data structure for the base geographic CRS of the given CRS, and * returns the pointer to it. This method should be invoked by the constructor only, and * the return value must be assigned to the {@link #ptr} field. * The allocated structure is released by the {@link #finalize()} method. * * @param projected the CRS from which to derive the base geographic CRS. * @return a pointer to the PJ native data structure, or 0 if the operation failed. */ private static native long allocateGeoPJ(PJ projected); /** * Returns the version number of the PROJ library. * * @return the PROJ release string. */ public static native String getVersion(); /** * Returns the PROJ definition string. This is the string given to the constructor, * expanded with as much information as possible. * * @return the PROJ definition string. */ public native String getDefinition(); /** * Returns the Coordinate Reference System type. * * @return the CRS type. */ public native Type getType(); /** * The coordinate reference system (CRS) type returned by {@link PJ#getType()}. * In the PROJ library, a CRS can only be geographic, geocentric or projected, * without distinction between 2D and 3D CRS. * * @author Martin Desruisseaux (Geomatys) * @version 5.1 * @since 4.8 */ public static enum Type { /* * IMPLEMENTATION NOTE: Do not rename those fields, unless you update the * native C code accordingly. */ /** * The CRS is of type {@link org.opengis.referencing.crs.GeographicCRS}. * The CRS can be two-dimensional or three-dimensional. */ GEOGRAPHIC, /** * The CRS is of type {@link org.opengis.referencing.crs.GeocentricCRS}. * The CRS can only be three-dimensional. */ GEOCENTRIC, /** * The CRS is of type {@link org.opengis.referencing.crs.ProjectedCRS}. * The CRS can be two-dimensional or three-dimensional. */ PROJECTED } /** * Returns the value stored in the {@code a_orig} PJ field. * * @return the axis length stored in {@code a_orig}. * * @see org.opengis.referencing.datum.Ellipsoid#getSemiMajorAxis() */ public native double getSemiMajorAxis(); /** * Returns the value computed from PJ fields by {@code √((a_orig)² × (1 - es_orig))}. * * @return the axis length computed by {@code √((a_orig)² × (1 - es_orig))}. * * @see org.opengis.referencing.datum.Ellipsoid#getSemiMinorAxis() */ public native double getSemiMinorAxis(); /** * Returns the square of the ellipsoid eccentricity (ε²). The eccentricity * is related to axis length by ε=√(1-(b/a)²). The * eccentricity of a sphere is zero. * * @return the eccentricity. * * @see org.opengis.referencing.datum.Ellipsoid#isSphere() * @see org.opengis.referencing.datum.Ellipsoid#getInverseFlattening() */ public native double getEccentricitySquared(); /** * Returns an array of character indicating the direction of each axis. Directions are * characters like {@code 'e'} for East, {@code 'n'} for North and {@code 'u'} for Up. * * @return the axis directions. * * @see org.opengis.referencing.cs.CoordinateSystemAxis#getDirection() */ public native char[] getAxisDirections(); /** * Longitude of the prime meridian measured from the Greenwich meridian, positive eastward. * * @return the prime meridian longitude, in degrees. * * @see org.opengis.referencing.datum.PrimeMeridian#getGreenwichLongitude() */ public native double getGreenwichLongitude(); /** * Returns the conversion factor from the linear units to metres. * * @param vertical {@code false} for the conversion factor of horizontal axes, * or {@code true} for the conversion factor of the vertical axis. * @return the conversion factor to metres for the given axis. */ public native double getLinearUnitToMetre(boolean vertical); /** * Transforms in-place the coordinates in the given array. * The coordinates array shall contain (x,y,z,…) tuples, * where the z and any additional dimensions are optional. * Note that any dimension after the z value are ignored. * *

Input and output units:

* * * @param target the target CRS. * @param dimension the dimension of each coordinate value. Must be in the [2-{@value #DIMENSION_MAX}] range. * @param coordinates the coordinates to transform, as a sequence of (x,y,<z>,…) tuples. * @param offset offset of the first coordinate in the given array. * @param numPts number of points to transform. * @throws NullPointerException if the {@code target} or {@code coordinates} argument is null. * @throws IndexOutOfBoundsException if the {@code offset} or {@code numPts} arguments are invalid. * @throws PJException if the operation failed for another reason (provided by PROJ). * * @see org.opengis.referencing.operation.MathTransform#transform(double[], int, double[], int, int) */ public native void transform(PJ target, int dimension, double[] coordinates, int offset, int numPts) throws PJException; /** * Returns a description of the last error that occurred, or {@code null} if none. * * @return the last error that occurred, or {@code null}. */ public native String getLastError(); /** * Returns the string representation of the PJ structure. * * @return the string representation. */ @Override public native String toString(); /** * Deallocates the native PJ data structure. * This method should be invoked exactly once, only by the garbage collector, */ @Override @SuppressWarnings({"deprecation", "FinalizeDeclaration"}) protected final native void finalize(); }