GravityFieldFactory.java
/* Copyright 2002-2020 CS GROUP
* Licensed to CS GROUP (CS) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* CS licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
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package org.orekit.forces.gravity.potential;
import java.util.List;
import org.hipparchus.util.FastMath;
import org.hipparchus.util.Precision;
import org.orekit.annotation.DefaultDataContext;
import org.orekit.data.DataContext;
import org.orekit.errors.OrekitException;
import org.orekit.errors.OrekitMessages;
/** Factory used to read gravity field files in several supported formats.
* @author Fabien Maussion
* @author Pascal Parraud
* @author Luc Maisonobe
*/
public class GravityFieldFactory {
/* These constants were left here instead of being moved to LazyLoadedGravityFields
* because they are public.
*/
/** Default regular expression for ICGEM files. */
public static final String ICGEM_FILENAME = "^(.*\\.gfc)|(g(\\d)+_eigen[-_](\\w)+_coef)$";
/** Default regular expression for SHM files. */
public static final String SHM_FILENAME = "^eigen[-_](\\w)+_coef$";
/** Default regular expression for EGM files. */
public static final String EGM_FILENAME = "^egm\\d\\d_to\\d.*$";
/** Default regular expression for GRGS files. */
public static final String GRGS_FILENAME = "^grim\\d_.*$";
/** Default regular expression for FES Cnm, Snm tides files. */
public static final String FES_CNM_SNM_FILENAME = "^fes(\\d)+_Cnm-Snm.dat$";
/** Default regular expression for FES C hat and epsilon tides files. */
public static final String FES_CHAT_EPSILON_FILENAME = "^fes(\\d)+.dat$";
/** Default regular expression for FES Hf tides files. */
public static final String FES_HF_FILENAME = "^hf-fes(\\d)+.dat$";
/** Private constructor.
* <p>This class is a utility class, it should neither have a public
* nor a default constructor. This private constructor prevents
* the compiler from generating one automatically.</p>
*/
private GravityFieldFactory() {
}
/* Data loading methods. */
/**
* Get the instance of {@link GravityFields} that is called by the static methods of
* this class.
*
* @return the gravity fields used by this factory.
* @since 10.1
*/
@DefaultDataContext
public static LazyLoadedGravityFields getGravityFields() {
return DataContext.getDefault().getGravityFields();
}
/** Add a reader for gravity fields.
* @param reader custom reader to add for the gravity field
* @see #addDefaultPotentialCoefficientsReaders()
* @see #clearPotentialCoefficientsReaders()
*/
@DefaultDataContext
public static void addPotentialCoefficientsReader(final PotentialCoefficientsReader reader) {
getGravityFields().addPotentialCoefficientsReader(reader);
}
/** Add the default readers for gravity fields.
* <p>
* The default READERS supports ICGEM, SHM, EGM and GRGS formats with the
* default names {@link #ICGEM_FILENAME}, {@link #SHM_FILENAME}, {@link
* #EGM_FILENAME}, {@link #GRGS_FILENAME} and don't allow missing coefficients.
* </p>
* @see #addPotentialCoefficientsReader(PotentialCoefficientsReader)
* @see #clearPotentialCoefficientsReaders()
*/
@DefaultDataContext
public static void addDefaultPotentialCoefficientsReaders() {
getGravityFields().addDefaultPotentialCoefficientsReaders();
}
/** Clear gravity field readers.
* @see #addPotentialCoefficientsReader(PotentialCoefficientsReader)
* @see #addDefaultPotentialCoefficientsReaders()
*/
@DefaultDataContext
public static void clearPotentialCoefficientsReaders() {
getGravityFields().clearPotentialCoefficientsReaders();
}
/** Add a reader for ocean tides.
* @param reader custom reader to add for the gravity field
* @see #addDefaultPotentialCoefficientsReaders()
* @see #clearPotentialCoefficientsReaders()
*/
@DefaultDataContext
public static void addOceanTidesReader(final OceanTidesReader reader) {
getGravityFields().addOceanTidesReader(reader);
}
/** Configure ocean load deformation coefficients.
* @param oldc ocean load deformation coefficients
* @see #getOceanLoadDeformationCoefficients()
*/
@DefaultDataContext
public static void configureOceanLoadDeformationCoefficients(final OceanLoadDeformationCoefficients oldc) {
getGravityFields().configureOceanLoadDeformationCoefficients(oldc);
}
/** Get the configured ocean load deformation coefficients.
* <p>
* If {@link #configureOceanLoadDeformationCoefficients(OceanLoadDeformationCoefficients)
* configureOceanLoadDeformationCoefficients} has never been called, the default
* value will be the {@link OceanLoadDeformationCoefficients#IERS_2010 IERS 2010}
* coefficients.
* </p>
* @return ocean load deformation coefficients
* @see #configureOceanLoadDeformationCoefficients(OceanLoadDeformationCoefficients)
*/
@DefaultDataContext
public static OceanLoadDeformationCoefficients getOceanLoadDeformationCoefficients() {
return getGravityFields().getOceanLoadDeformationCoefficients();
}
/** Add the default READERS for ocean tides.
* <p>
* The default READERS supports files similar to the fes2004_Cnm-Snm.dat and
* fes2004.dat as published by IERS, using the {@link
* #configureOceanLoadDeformationCoefficients(OceanLoadDeformationCoefficients)
* configured} ocean load deformation coefficients, which by default are the
* IERS 2010 coefficients, which are limited to degree 6. If higher degree
* coefficients are needed, the {@link
* #configureOceanLoadDeformationCoefficients(OceanLoadDeformationCoefficients)
* configureOceanLoadDeformationCoefficients} method can be called prior to
* loading the ocean tides model with the {@link
* OceanLoadDeformationCoefficients#GEGOUT high degree coefficients} computed
* by Pascal Gégout.
* </p>
* <p>
* WARNING: the files referenced in the published conventions have some errors.
* These errors have been corrected and the updated files can be found here:
* <a href="http://tai.bipm.org/iers/convupdt/convupdt_c6.html">
* http://tai.bipm.org/iers/convupdt/convupdt_c6.html</a>.
* </p>
* @see #addPotentialCoefficientsReader(PotentialCoefficientsReader)
* @see #clearPotentialCoefficientsReaders()
* @see #configureOceanLoadDeformationCoefficients(OceanLoadDeformationCoefficients)
* @see #getOceanLoadDeformationCoefficients()
*/
@DefaultDataContext
public static void addDefaultOceanTidesReaders() {
getGravityFields().addDefaultOceanTidesReaders();
}
/** Clear ocean tides readers.
* @see #addPotentialCoefficientsReader(PotentialCoefficientsReader)
* @see #addDefaultPotentialCoefficientsReaders()
*/
@DefaultDataContext
public static void clearOceanTidesReaders() {
getGravityFields().clearOceanTidesReaders();
}
/** Get the constant gravity field coefficients provider from the first supported file.
* <p>
* If no {@link PotentialCoefficientsReader} has been added by calling {@link
* #addPotentialCoefficientsReader(PotentialCoefficientsReader)
* addPotentialCoefficientsReader} or if {@link #clearPotentialCoefficientsReaders()
* clearPotentialCoefficientsReaders} has been called afterwards, the {@link
* #addDefaultPotentialCoefficientsReaders() addDefaultPotentialCoefficientsReaders}
* method will be called automatically.
* </p>
* @param degree maximal degree
* @param order maximal order
* @return a gravity field coefficients provider containing already loaded data
* @since 6.0
* @see #getNormalizedProvider(int, int)
*/
@DefaultDataContext
public static NormalizedSphericalHarmonicsProvider getConstantNormalizedProvider(final int degree,
final int order) {
return getGravityFields().getConstantNormalizedProvider(degree, order);
}
/** Get the gravity field coefficients provider from the first supported file.
* <p>
* If no {@link PotentialCoefficientsReader} has been added by calling {@link
* #addPotentialCoefficientsReader(PotentialCoefficientsReader)
* addPotentialCoefficientsReader} or if {@link #clearPotentialCoefficientsReaders()
* clearPotentialCoefficientsReaders} has been called afterwards, the {@link
* #addDefaultPotentialCoefficientsReaders() addDefaultPotentialCoefficientsReaders}
* method will be called automatically.
* </p>
* @param degree maximal degree
* @param order maximal order
* @return a gravity field coefficients provider containing already loaded data
* @since 6.0
* @see #getConstantNormalizedProvider(int, int)
*/
@DefaultDataContext
public static NormalizedSphericalHarmonicsProvider getNormalizedProvider(final int degree,
final int order) {
return getGravityFields().getNormalizedProvider(degree, order);
}
/** Get the constant gravity field coefficients provider from the first supported file.
* <p>
* If no {@link PotentialCoefficientsReader} has been added by calling {@link
* #addPotentialCoefficientsReader(PotentialCoefficientsReader)
* addPotentialCoefficientsReader} or if {@link #clearPotentialCoefficientsReaders()
* clearPotentialCoefficientsReaders} has been called afterwards, the {@link
* #addDefaultPotentialCoefficientsReaders() addDefaultPotentialCoefficientsReaders}
* method will be called automatically.
* </p>
* @param degree maximal degree
* @param order maximal order
* @return a gravity field coefficients provider containing already loaded data
* @since 6.0
* @see #getUnnormalizedProvider(int, int)
*/
@DefaultDataContext
public static UnnormalizedSphericalHarmonicsProvider getConstantUnnormalizedProvider(final int degree,
final int order) {
return getGravityFields().getConstantUnnormalizedProvider(degree, order);
}
/** Get the gravity field coefficients provider from the first supported file.
* <p>
* If no {@link PotentialCoefficientsReader} has been added by calling {@link
* #addPotentialCoefficientsReader(PotentialCoefficientsReader)
* addPotentialCoefficientsReader} or if {@link #clearPotentialCoefficientsReaders()
* clearPotentialCoefficientsReaders} has been called afterwards, the {@link
* #addDefaultPotentialCoefficientsReaders() addDefaultPotentialCoefficientsReaders}
* method will be called automatically.
* </p>
* @param degree maximal degree
* @param order maximal order
* @return a gravity field coefficients provider containing already loaded data
* @since 6.0
* @see #getConstantUnnormalizedProvider(int, int)
*/
@DefaultDataContext
public static UnnormalizedSphericalHarmonicsProvider getUnnormalizedProvider(final int degree,
final int order) {
return getGravityFields().getUnnormalizedProvider(degree, order);
}
/** Read a gravity field coefficients provider from the first supported file.
* <p>
* If no {@link PotentialCoefficientsReader} has been added by calling {@link
* #addPotentialCoefficientsReader(PotentialCoefficientsReader)
* addPotentialCoefficientsReader} or if {@link #clearPotentialCoefficientsReaders()
* clearPotentialCoefficientsReaders} has been called afterwards, the {@link
* #addDefaultPotentialCoefficientsReaders() addDefaultPotentialCoefficientsReaders}
* method will be called automatically.
* </p>
* @param maxParseDegree maximal degree to parse
* @param maxParseOrder maximal order to parse
* @return a reader containing already loaded data
* @since 6.0
*/
@DefaultDataContext
public static PotentialCoefficientsReader readGravityField(final int maxParseDegree,
final int maxParseOrder) {
return getGravityFields().readGravityField(maxParseDegree, maxParseOrder);
}
/** Get the ocean tides waves from the first supported file.
* <p>
* If no {@link OceanTidesReader} has been added by calling {@link
* #addOceanTidesReader(OceanTidesReader)
* addOceanTidesReader} or if {@link #clearOceanTidesReaders()
* clearOceanTidesReaders} has been called afterwards, the {@link
* #addDefaultOceanTidesReaders() addDefaultOceanTidesReaders}
* method will be called automatically.
* </p>
* <p><span style="color:red">
* WARNING: as of 2013-11-17, there seem to be an inconsistency when loading
* one or the other file, for wave Sa (Doodson number 56.554) and P1 (Doodson
* number 163.555). The sign of the coefficients are different. We think the
* problem lies in the input files from IERS and not in the conversion (which
* works for all other waves), but cannot be sure. For this reason, ocean
* tides are still considered experimental at this date.
* </span></p>
* @param degree maximal degree
* @param order maximal order
* @return list of tides waves containing already loaded data
* @since 6.1
*/
@DefaultDataContext
public static List<OceanTidesWave> getOceanTidesWaves(final int degree, final int order) {
return getGravityFields().getOceanTidesWaves(degree, order);
}
/* static helper methods that don't load data. */
/** Create a time-independent {@link NormalizedSphericalHarmonicsProvider} from canonical coefficients.
* <p>
* Note that contrary to the other factory method, this one does not read any data, it simply uses
* the provided data
* </p>
* @param ae central body reference radius
* @param mu central body attraction coefficient
* @param tideSystem tide system
* @param normalizedC normalized tesseral-sectorial coefficients (cosine part)
* @param normalizedS normalized tesseral-sectorial coefficients (sine part)
* @return provider for normalized coefficients
* @since 6.0
*/
public static NormalizedSphericalHarmonicsProvider getNormalizedProvider(final double ae, final double mu,
final TideSystem tideSystem,
final double[][] normalizedC,
final double[][] normalizedS) {
return new WrappingNormalizedProvider(new ConstantSphericalHarmonics(ae, mu, tideSystem,
normalizedC, normalizedS));
}
/** Create a {@link NormalizedSphericalHarmonicsProvider} from an {@link UnnormalizedSphericalHarmonicsProvider}.
* <p>
* Note that contrary to the other factory method, this one does not read any data, it simply uses
* the provided data.
* </p>
* @param unnormalized provider to normalize
* @return provider for normalized coefficients
* @since 6.0
*/
public static NormalizedSphericalHarmonicsProvider getNormalizedProvider(final UnnormalizedSphericalHarmonicsProvider unnormalized) {
return new Normalizer(unnormalized);
}
/** Create a time-independent {@link UnnormalizedSphericalHarmonicsProvider} from canonical coefficients.
* <p>
* Note that contrary to the other factory method, this one does not read any data, it simply uses
* the provided data
* </p>
* @param ae central body reference radius
* @param mu central body attraction coefficient
* @param tideSystem tide system
* @param unnormalizedC un-normalized tesseral-sectorial coefficients (cosine part)
* @param unnormalizedS un-normalized tesseral-sectorial coefficients (sine part)
* @return provider for un-normalized coefficients
* @since 6.0
*/
public static UnnormalizedSphericalHarmonicsProvider getUnnormalizedProvider(final double ae, final double mu,
final TideSystem tideSystem,
final double[][] unnormalizedC,
final double[][] unnormalizedS) {
return new WrappingUnnormalizedProvider(new ConstantSphericalHarmonics(ae, mu, tideSystem,
unnormalizedC, unnormalizedS));
}
/** Create an {@link UnnormalizedSphericalHarmonicsProvider} from a {@link NormalizedSphericalHarmonicsProvider}.
* <p>
* Note that contrary to the other factory method, this one does not read any data, it simply uses
* the provided data.
* </p>
* @param normalized provider to un-normalize
* @return provider for un-normalized coefficients
* @since 6.0
*/
public static UnnormalizedSphericalHarmonicsProvider getUnnormalizedProvider(final NormalizedSphericalHarmonicsProvider normalized) {
return new Unnormalizer(normalized);
}
/** Get a un-normalization factors array.
* <p>
* Un-normalized coefficients are obtained by multiplying normalized
* coefficients by the factors array elements.
* </p>
* @param degree maximal degree
* @param order maximal order
* @return triangular un-normalization factors array
* @since 6.0
*/
public static double[][] getUnnormalizationFactors(final int degree, final int order) {
// allocate a triangular array
final int rows = degree + 1;
final double[][] factor = new double[rows][];
factor[0] = new double[] {1.0};
// compute the factors
for (int n = 1; n <= degree; n++) {
final double[] row = new double[FastMath.min(n, order) + 1];
row[0] = FastMath.sqrt(2 * n + 1);
double coeff = 2.0 * (2 * n + 1);
for (int m = 1; m < row.length; m++) {
coeff /= (n - m + 1) * (n + m);
row[m] = FastMath.sqrt(coeff);
if (row[m] < Precision.SAFE_MIN) {
throw new OrekitException(OrekitMessages.GRAVITY_FIELD_NORMALIZATION_UNDERFLOW,
n, m);
}
}
factor[n] = row;
}
return factor;
}
}