ManeuverFieldType.java
/* Copyright 2002-2023 CS GROUP
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* 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
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*
* http://www.apache.org/licenses/LICENSE-2.0
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* 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.files.ccsds.ndm.odm.ocm;
import org.hipparchus.util.Precision;
import org.orekit.errors.OrekitException;
import org.orekit.errors.OrekitMessages;
import org.orekit.files.ccsds.definitions.OnOff;
import org.orekit.files.ccsds.definitions.TimeConverter;
import org.orekit.files.ccsds.utils.ContextBinding;
import org.orekit.time.DateTimeComponents;
import org.orekit.utils.AccurateFormatter;
import org.orekit.utils.units.Unit;
/** Maneuver field type used in CCSDS {@link Ocm Orbit Comprehensive Messages}.
* @author Luc Maisonobe
* @since 11.0
*/
public enum ManeuverFieldType {
// CHECKSTYLE: stop MultipleStringLiterals check
/** Absolute epoch time. */
TIME_ABSOLUTE("n/a",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDate(context.getTimeSystem().getConverter(context).parse(field)),
(u, converter, maneuver) -> {
final DateTimeComponents dt = converter.components(maneuver.getDate());
return AccurateFormatter.format(dt.getDate().getYear(), dt.getDate().getMonth(), dt.getDate().getDay(),
dt.getTime().getHour(), dt.getTime().getMinute(), dt.getTime().getSecond());
}),
/** Relative epoch time. */
TIME_RELATIVE("s",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDate(context.getReferenceDate().shiftedBy(toSI(field, u))),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(converter.offset(maneuver.getDate())))),
/** Maneuver duration. */
MAN_DURA("s",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDuration(toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getDuration()))),
/** Mass change. */
DELTA_MASS("kg",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDeltaMass(toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getDeltaMass()))),
/** Acceleration along X axis. */
ACC_X("km/s²",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setAcceleration(0, toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getAcceleration().getX()))),
/** Acceleration along Y axis. */
ACC_Y("km/s²",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setAcceleration(1, toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getAcceleration().getY()))),
/** Acceleration along Z axis. */
ACC_Z("km/s²",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setAcceleration(2, toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getAcceleration().getZ()))),
/** Interpolation mode between current and next acceleration line. */
ACC_INTERP("n/a",
(field, u, context, maneuver, lineNumber, fileName) -> {
try {
maneuver.setAccelerationInterpolation(OnOff.valueOf(field));
} catch (IllegalArgumentException iae) {
throw new OrekitException(OrekitMessages.CCSDS_UNEXPECTED_KEYWORD,
lineNumber, fileName, field);
}
},
(u, converter, maneuver) -> maneuver.getAccelerationInterpolation().name()),
/** One σ percent error on acceleration magnitude. */
ACC_MAG_SIGMA("%",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setAccelerationMagnitudeSigma(toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getAccelerationMagnitudeSigma()))),
/** One σ off-nominal acceleration direction. */
ACC_DIR_SIGMA("°",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setAccelerationDirectionSigma(toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getAccelerationDirectionSigma()))),
/** Velocity increment along X axis. */
DV_X("km/s",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDv(0, toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getDv().getX()))),
/** Velocity increment along Y axis. */
DV_Y("km/s",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDv(1, toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getDv().getY()))),
/** Velocity increment along Z axis. */
DV_Z("km/s",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDv(2, toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getDv().getZ()))),
/** One σ percent error on ΔV magnitude. */
DV_MAG_SIGMA("%",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDvMagSigma(toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getDvMagSigma()))),
/** One σ angular off-nominal ΔV direction. */
DV_DIR_SIGMA("°",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDvDirSigma(toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getDvDirSigma()))),
/** Thrust component along X axis. */
THR_X("N",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setThrust(0, toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getThrust().getX()))),
/** Thrust component along Y axis. */
THR_Y("N",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setThrust(1, toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getThrust().getY()))),
/** Thrust component along Z axis. */
THR_Z("N",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setThrust(2, toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getThrust().getZ()))),
/** Thrust efficiency η typically between 0.0 and 1.0. */
THR_EFFIC("n/a",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setThrustEfficiency(toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getThrustEfficiency()))),
/** Interpolation mode between current and next acceleration line. */
THR_INTERP("n/a",
(field, u, context, maneuver, lineNumber, fileName) -> {
try {
maneuver.setThrustInterpolation(OnOff.valueOf(field));
} catch (IllegalArgumentException iae) {
throw new OrekitException(OrekitMessages.CCSDS_UNEXPECTED_KEYWORD,
lineNumber, fileName, field);
}
},
(u, converter, maneuver) -> maneuver.getThrustInterpolation().name()),
/** Thrust specific impulse. */
THR_ISP("s",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setThrustIsp(toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getThrustIsp()))),
/** One σ percent error on thrust magnitude. */
THR_MAG_SIGMA("%",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setThrustMagnitudeSigma(toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getThrustMagnitudeSigma()))),
/** One σ angular off-nominal thrust direction. */
THR_DIR_SIGMA("°",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setThrustDirectionSigma(toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getThrustDirectionSigma()))),
/** Identifier of resulting "child" object deployed from this host. */
DEPLOY_ID("n/a",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDeployId(field),
(u, converter, maneuver) -> maneuver.getDeployId()),
/** Velocity increment of deployed "child" object along X axis. */
DEPLOY_DV_X("km/s",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDeployDv(0, toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getDeployDv().getX()))),
/** Velocity increment of deployed "child" object along Y axis. */
DEPLOY_DV_Y("km/s",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDeployDv(1, toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getDeployDv().getY()))),
/** Velocity increment of deployed "child" object along Z axis. */
DEPLOY_DV_Z("km/s",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDeployDv(2, toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getDeployDv().getZ()))),
/** Decrement in host mass as a result of deployment (shall be ≤ 0). */
DEPLOY_MASS("kg",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDeployMass(toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getDeployMass()))),
/** One σ percent error on deployment ΔV magnitude. */
DEPLOY_DV_SIGMA("%",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDeployDvSigma(toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getDeployDvSigma()))),
/** One σ angular off-nominal deployment vector direction. */
DEPLOY_DIR_SIGMA("°",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDeployDirSigma(toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getDeployDirSigma()))),
/** Ratio of child-to-host ΔV vectors. */
DEPLOY_DV_RATIO("n/a",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDeployDvRatio(toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getDeployDvRatio()))),
/** Typical (50th percentile) product of drag coefficient times cross-sectional area of deployed "child" object. */
DEPLOY_DV_CDA("m²",
(field, u, context, maneuver, lineNumber, fileName) -> maneuver.setDeployDvCda(toSI(field, u)),
(u, converter, maneuver) -> AccurateFormatter.format(u.fromSI(maneuver.getDeployDvCda())));
// CHECKSTYLE: resume MultipleStringLiterals check
/** Elements units. */
private final Unit unit;
/** Processing method. */
private final transient FieldProcessor processor;
/** Writing method. */
private final transient FieldWriter writer;
/** Simple constructor.
* @param unitSpecifications field unit specifications
* @param processor field processing method
* @param writer field writing method
*/
ManeuverFieldType(final String unitSpecifications, final FieldProcessor processor, final FieldWriter writer) {
this.unit = Unit.parse(unitSpecifications);
this.processor = processor;
this.writer = writer;
}
/** Get the field unit.
* @return field unit
*/
public Unit getUnit() {
return unit;
}
/** Check if parsed unit is compatible with field type.
* @param parsedUnit unit to check
*/
public void checkUnit(final Unit parsedUnit) {
if (unit == Unit.NONE ^ parsedUnit == Unit.NONE ||
!(unit.sameDimension(parsedUnit) && Precision.equals(unit.getScale(), parsedUnit.getScale(), 1))) {
throw new OrekitException(OrekitMessages.INCOMPATIBLE_UNITS,
unit.getName(), parsedUnit.getName());
}
}
/** Check if a field is a time field.
* @return true if field is a time field
*/
public boolean isTime() {
return this == TIME_ABSOLUTE || this == TIME_RELATIVE;
}
/** Get the value in SI units corresponding to a field.
* @param field text field
* @param unit unit to use
* @return double value in SI units
*/
private static double toSI(final String field, final Unit unit) {
return unit.toSI(Double.parseDouble(field));
}
/** Process one field.
* @param field field to process
* @param context context binding
* @param maneuver maneuver to fill
* @param lineNumber line number at which the field occurs
* @param fileName name of the file in which the field occurs
*/
public void process(final String field, final ContextBinding context, final OrbitManeuver maneuver,
final int lineNumber, final String fileName) {
processor.process(field, unit, context, maneuver, lineNumber, fileName);
}
/** Output one maneuver field.
* @param converter converter for dates
* @param maneuver maneuver containing the field to output
* @return output field
*/
public String outputField(final TimeConverter converter, final OrbitManeuver maneuver) {
return writer.output(unit, converter, maneuver);
}
/** Interface for processing one field. */
interface FieldProcessor {
/** Process one field.
* @param field field to process
* @param unit unit to use
* @param context context binding
* @param maneuver maneuver to fill
* @param lineNumber line number at which the field occurs
* @param fileName name of the file in which the field occurs
*/
void process(String field, Unit unit, ContextBinding context, OrbitManeuver maneuver,
int lineNumber, String fileName);
}
/** Interface for writing one field. */
interface FieldWriter {
/** Process one field.
* @param unit unit to use
* @param converter converter for dates
* @param maneuver maneuver containing the field to output
* @return output field
*/
String output(Unit unit, TimeConverter converter, OrbitManeuver maneuver);
}
}