DelaunayArguments.java

  1. /* Copyright 2002-2022 CS GROUP
  2.  * Licensed to CS GROUP (CS) under one or more
  3.  * contributor license agreements.  See the NOTICE file distributed with
  4.  * this work for additional information regarding copyright ownership.
  5.  * CS licenses this file to You under the Apache License, Version 2.0
  6.  * (the "License"); you may not use this file except in compliance with
  7.  * the License.  You may obtain a copy of the License at
  8.  *
  9.  *   http://www.apache.org/licenses/LICENSE-2.0
  10.  *
  11.  * Unless required by applicable law or agreed to in writing, software
  12.  * distributed under the License is distributed on an "AS IS" BASIS,
  13.  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  14.  * See the License for the specific language governing permissions and
  15.  * limitations under the License.
  16.  */
  17. package org.orekit.data;

  19. import java.io.Serializable;

  21. import org.orekit.time.AbsoluteDate;
  22. import org.orekit.time.TimeStamped;

  24. /** Delaunay arguments used for nutation or tides.
  25.  * <p>This class is a simple placeholder,
  26.  * it does not provide any processing method.</p>
  27.  * @author Luc Maisonobe
  28.  * @since 6.1
  29.  */
  30. public class DelaunayArguments implements TimeStamped, Serializable {

  32.     /** Serializable UID. */
  33.     private static final long serialVersionUID = 20170106L;

  35.     /** Date. */
  36.     private final AbsoluteDate date;

  38.     /** Offset in Julian centuries. */
  39.     private final double tc;

  41.     /** Tide parameter γ = GMST + π. */
  42.     private final double gamma;

  44.     /** Tide parameter γ = GMST + π time derivative. */
  45.     private final double gammaDot;

  47.     /** Mean anomaly of the Moon. */
  48.     private final double l;

  50.     /** Mean anomaly of the Moon time derivative. */
  51.     private final double lDot;

  53.     /** Mean anomaly of the Sun. */
  54.     private final double lPrime;

  56.     /** Mean anomaly of the Sun time derivative. */
  57.     private final double lPrimeDot;

  59.     /** L - Ω where L is the mean longitude of the Moon. */
  60.     private final double f;

  62.     /** L - Ω where L is the mean longitude of the Moon time derivative. */
  63.     private final double fDot;

  65.     /** Mean elongation of the Moon from the Sun. */
  66.     private final double d;

  68.     /** Mean elongation of the Moon from the Sun time derivative. */
  69.     private final double dDot;

  71.     /** Mean longitude of the ascending node of the Moon. */
  72.     private final double omega;

  74.     /** Mean longitude of the ascending node of the Moon time derivative. */
  75.     private final double omegaDot;

  77.     /** Simple constructor.
  78.      * @param date current date
  79.      * @param tc offset in Julian centuries
  80.      * @param gamma tide parameter γ = GMST + π
  81.      * @param gammaDot tide parameter γ = GMST + π time derivative
  82.      * @param l mean anomaly of the Moon
  83.      * @param lDot mean anomaly of the Moon time derivative
  84.      * @param lPrime mean anomaly of the Sun
  85.      * @param lPrimeDot mean anomaly of the Sun time derivative
  86.      * @param f L - Ω where L is the mean longitude of the Moon
  87.      * @param fDot L - Ω where L is the mean longitude of the Moon time derivative
  88.      * @param d mean elongation of the Moon from the Sun
  89.      * @param dDot mean elongation of the Moon from the Sun time derivative
  90.      * @param omega mean longitude of the ascending node of the Moon
  91.      * @param omegaDot mean longitude of the ascending node of the Moon time derivative
  92.      */
  93.     public DelaunayArguments(final AbsoluteDate date, final double tc, final double gamma, final double gammaDot,
  94.                              final double l, final double lDot, final double lPrime, final double lPrimeDot,
  95.                              final double f, final double fDot, final double d, final double dDot,
  96.                              final double omega, final double omegaDot) {
  97.         this.date      = date;
  98.         this.tc        = tc;
  99.         this.gamma     = gamma;
  100.         this.gammaDot  = gammaDot;
  101.         this.l         = l;
  102.         this.lDot      = lDot;
  103.         this.lPrime    = lPrime;
  104.         this.lPrimeDot = lPrimeDot;
  105.         this.f         = f;
  106.         this.fDot      = fDot;
  107.         this.d         = d;
  108.         this.dDot      = dDot;
  109.         this.omega     = omega;
  110.         this.omegaDot  = omegaDot;
  111.     }

  113.     /** {@inheritDoc} */
  114.     public AbsoluteDate getDate() {
  115.         return date;
  116.     }

  118.     /** Get the offset in Julian centuries.
  119.      * @return offset in Julian centuries
  120.      */
  121.     public double getTC() {
  122.         return tc;
  123.     }

  125.     /** Get the tide parameter γ = GMST + π.
  126.      * @return tide parameter γ = GMST + π
  127.      */
  128.     public double getGamma() {
  129.         return gamma;
  130.     }

  132.     /** Get the tide parameter γ = GMST + π time derivative.
  133.      * @return tide parameter γ = GMST + π time derivative
  134.      */
  135.     public double getGammaDot() {
  136.         return gammaDot;
  137.     }

  139.     /** Get the mean anomaly of the Moon.
  140.      * @return mean anomaly of the Moon
  141.      */
  142.     public double getL() {
  143.         return l;
  144.     }

  146.     /** Get the mean anomaly of the Moon time derivative.
  147.      * @return mean anomaly of the Moon time derivative
  148.      */
  149.     public double getLDot() {
  150.         return lDot;
  151.     }

  153.     /** Get the mean anomaly of the Sun.
  154.      * @return mean anomaly of the Sun.
  155.      */
  156.     public double getLPrime() {
  157.         return lPrime;
  158.     }

  160.     /** Get the mean anomaly of the Sun time derivative.
  161.      * @return mean anomaly of the Sun time derivative.
  162.      */
  163.     public double getLPrimeDot() {
  164.         return lPrimeDot;
  165.     }

  167.     /** Get L - Ω where L is the mean longitude of the Moon.
  168.      * @return L - Ω
  169.      */
  170.     public double getF() {
  171.         return f;
  172.     }

  174.     /** Get L - Ω where L is the mean longitude of the Moon time derivative.
  175.      * @return L - Ω time derivative
  176.      */
  177.     public double getFDot() {
  178.         return fDot;
  179.     }

  181.     /** Get the mean elongation of the Moon from the Sun.
  182.      * @return mean elongation of the Moon from the Sun.
  183.      */
  184.     public double getD() {
  185.         return d;
  186.     }

  188.     /** Get the mean elongation of the Moon from the Sun time derivative.
  189.      * @return mean elongation of the Moon from the Sun time derivative.
  190.      */
  191.     public double getDDot() {
  192.         return dDot;
  193.     }

  195.     /** Get the mean longitude of the ascending node of the Moon.
  196.      * @return mean longitude of the ascending node of the Moon.
  197.      */
  198.     public double getOmega() {
  199.         return omega;
  200.     }

  202.     /** Get the mean longitude of the ascending node of the Moon time derivative.
  203.      * @return mean longitude of the ascending node of the Moon time derivative.
  204.      */
  205.     public double getOmegaDot() {
  206.         return omegaDot;
  207.     }

  209. }
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