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OREKIT (ORbits Extrapolation KIT) is a low level space dynamics library.
It provides basic elements (orbits, dates, attitude, frames ...) and
various algorithms to handle them (conversions, analytical and numerical
propagation, pointing ...).
/* Copyright 2002-2022 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,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.orekit.data;
import org.hipparchus.CalculusFieldElement;
/** Class for general terms.
* @author Luc Maisonobe
*/
class GeneralTerm extends SeriesTerm {
/** Coefficient for mean anomaly of the Moon. */
private final int cL;
/** Coefficient for mean anomaly of the Sun. */
private final int cLPrime;
/** Coefficient for L - Ω where L is the mean longitude of the Moon. */
private final int cF;
/** Coefficient for mean elongation of the Moon from the Sun. */
private final int cD;
/** Coefficient for mean longitude of the ascending node of the Moon. */
private final int cOmega;
/** Coefficient for mean Mercury longitude. */
private final int cMe;
/** Coefficient for mean Venus longitude. */
private final int cVe;
/** Coefficient for mean Earth longitude. */
private final int cE;
/** Coefficient for mean Mars longitude. */
private final int cMa;
/** Coefficient for mean Jupiter longitude. */
private final int cJu;
/** Coefficient for mean Saturn longitude. */
private final int cSa;
/** Coefficient for mean Uranus longitude. */
private final int cUr;
/** Coefficient for mean Neptune longitude. */
private final int cNe;
/** Coefficient for general accumulated precession in longitude. */
private final int cPa;
/** Build a general term for nutation series.
* @param cL coefficient for mean anomaly of the Moon
* @param cLPrime coefficient for mean anomaly of the Sun
* @param cF coefficient for L - Ω where L is the mean longitude of the Moon
* @param cD coefficient for mean elongation of the Moon from the Sun
* @param cOmega coefficient for mean longitude of the ascending node of the Moon
* @param cMe coefficient for mean Mercury longitude
* @param cVe coefficient for mean Venus longitude
* @param cE coefficient for mean Earth longitude
* @param cMa coefficient for mean Mars longitude
* @param cJu coefficient for mean Jupiter longitude
* @param cSa coefficient for mean Saturn longitude
* @param cUr coefficient for mean Uranus longitude
* @param cNe coefficient for mean Neptune longitude
* @param cPa coefficient for general accumulated precession in longitude
*/
GeneralTerm(final int cL, final int cLPrime, final int cF, final int cD, final int cOmega,
final int cMe, final int cVe, final int cE, final int cMa, final int cJu,
final int cSa, final int cUr, final int cNe, final int cPa) {
this.cL = cL;
this.cLPrime = cLPrime;
this.cF = cF;
this.cD = cD;
this.cOmega = cOmega;
this.cMe = cMe;
this.cVe = cVe;
this.cE = cE;
this.cMa = cMa;
this.cJu = cJu;
this.cSa = cSa;
this.cUr = cUr;
this.cNe = cNe;
this.cPa = cPa;
}
/** {@inheritDoc} */
protected double argument(final BodiesElements elements) {
return cL * elements.getL() + cLPrime * elements.getLPrime() + cF * elements.getF() +
cD * elements.getD() + cOmega * elements.getOmega() +
cMe * elements.getLMe() + cVe * elements.getLVe() + cE * elements.getLE() +
cMa * elements.getLMa() + cJu * elements.getLJu() +
cSa * elements.getLSa() + cUr * elements.getLUr() +
cNe * elements.getLNe() + cPa * elements.getPa();
}
/** {@inheritDoc} */
protected double argumentDerivative(final BodiesElements elements) {
return cL * elements.getLDot() + cLPrime * elements.getLPrimeDot() + cF * elements.getFDot() +
cD * elements.getDDot() + cOmega * elements.getOmegaDot() +
cMe * elements.getLMeDot() + cVe * elements.getLVeDot() + cE * elements.getLEDot() +
cMa * elements.getLMaDot() + cJu * elements.getLJuDot() +
cSa * elements.getLSaDot() + cUr * elements.getLUrDot() +
cNe * elements.getLNeDot() + cPa * elements.getPaDot();
}
/** {@inheritDoc} */
protected > T argument(final FieldBodiesElements elements) {
return elements.getL().multiply(cL).
add(elements.getLPrime().multiply(cLPrime)).
add(elements.getF().multiply(cF)).
add(elements.getD().multiply(cD)).
add(elements.getOmega().multiply(cOmega)).
add(elements.getLMe().multiply(cMe)).
add(elements.getLVe().multiply(cVe)).
add(elements.getLE().multiply(cE)).
add(elements.getLMa().multiply(cMa)).
add(elements.getLJu().multiply(cJu)).
add(elements.getLSa().multiply(cSa)).
add(elements.getLUr().multiply(cUr)).
add(elements.getLNe().multiply(cNe)).
add(elements.getPa().multiply(cPa));
}
/** {@inheritDoc} */
protected > T argumentDerivative(final FieldBodiesElements elements) {
return elements.getLDot().multiply(cL).
add(elements.getLPrimeDot().multiply(cLPrime)).
add(elements.getFDot().multiply(cF)).
add(elements.getDDot().multiply(cD)).
add(elements.getOmegaDot().multiply(cOmega)).
add(elements.getLMeDot().multiply(cMe)).
add(elements.getLVeDot().multiply(cVe)).
add(elements.getLEDot().multiply(cE)).
add(elements.getLMaDot().multiply(cMa)).
add(elements.getLJuDot().multiply(cJu)).
add(elements.getLSaDot().multiply(cSa)).
add(elements.getLUrDot().multiply(cUr)).
add(elements.getLNeDot().multiply(cNe)).
add(elements.getPaDot().multiply(cPa));
}
}