CdmMetadataKey.java
/* Copyright 2002-2023 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
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package org.orekit.files.ccsds.ndm.cdm;
import java.util.regex.Matcher;
import java.util.regex.Pattern;
import org.orekit.files.ccsds.definitions.YesNoUnknown;
import org.orekit.files.ccsds.ndm.odm.ocm.ObjectType;
import org.orekit.files.ccsds.utils.ContextBinding;
import org.orekit.files.ccsds.utils.lexical.ParseToken;
import org.orekit.files.ccsds.utils.lexical.TokenType;
/** Keys for {@link CdmMetadata CDM container} entries.
* @author Melina Vanel
* @since 11.2
*/
public enum CdmMetadataKey {
/** Object to which data apply. */
OBJECT((token, context, container) -> token.processAsNormalizedString(container::setObject)),
/** Satellite catalog designator for object. */
OBJECT_DESIGNATOR((token, context, container) -> token.processAsNormalizedString(container::setObjectDesignator)),
/** Satellite catalog used for the object. */
CATALOG_NAME((token, context, container) -> token.processAsNormalizedString(container::setCatalogName)),
/** Spacecraft name for the object. */
OBJECT_NAME((token, context, container) -> token.processAsNormalizedString(container::setObjectName)),
/** Full international designator name for the object. */
INTERNATIONAL_DESIGNATOR((token, context, container) -> token.processAsNormalizedString(container::setInternationalDes)),
/** Object Type. */
OBJECT_TYPE((token, context, container) -> token.processAsEnum(ObjectType.class, container::setObjectType)),
/** Contact position of the owner/operator of the object. */
OPERATOR_CONTACT_POSITION((token, context, container) -> token.processAsNormalizedString(container::setOperatorContactPosition)),
/** Contact organization of the object. */
OPERATOR_ORGANIZATION((token, context, container) -> token.processAsNormalizedString(container::setOperatorOrganization)),
/** Phone number of the contact position for the object. */
OPERATOR_PHONE((token, context, container) -> token.processAsNormalizedString(container::setOperatorPhone)),
/** Email address of the contact position for the object. */
OPERATOR_EMAIL((token, context, container) -> token.processAsNormalizedString(container::setOperatorEmail)),
/** Unique identifier of Orbit Data Message(s) that are linked (relevant) to this Conjunction Data Message. */
ODM_MSG_LINK((token, context, container) -> token.processAsFreeTextString(container::setOdmMsgLink)),
/** Unique identifier of Attitude Data Message(s) that are linked (relevant) to this Conjunction Data Message. */
ADM_MSG_LINK((token, context, container) -> token.processAsFreeTextString(container::setAdmMsgLink)),
/** Unique name of the external ephemeris file used for the object or NONE. */
EPHEMERIS_NAME((token, context, container) -> token.processAsNormalizedString(container::setEphemName)),
/** Flag indicating whether new tracking observations are anticipated prior to the issue of the next CDM associated with the event
* specified by CONJUNCTION_ID. */
OBS_BEFORE_NEXT_MESSAGE((token, context, container) -> token.processAsEnum(YesNoUnknown.class, container::setObsBeforeNextMessage)),
/** Method used to calculate the covariance. */
COVARIANCE_METHOD((token, context, container) -> token.processAsEnum(CovarianceMethod.class, container::setCovarianceMethod)),
/** The source from which the covariance data used in the report for both Object 1 and Object 2 originates. */
COVARIANCE_SOURCE((token, context, container) -> token.processAsNormalizedString(container::setCovarianceSource)),
/** Manoeuver capacity. */
MANEUVERABLE((token, context, container) -> token.processAsManeuvrableEnum(container::setManeuverable)),
/** Central body for Object 1 and 2. */
ORBIT_CENTER((token, context, container) -> token.processAsCenter(container::setOrbitCenter,
context.getDataContext().getCelestialBodies())),
/** Name of the reference frame, in which state vector data are given. */
REF_FRAME((token, context, container) -> token.processAsFrame(container::setRefFrame, context, true, true, true)),
/** Flag indicating the type of alternate covariance information provided. */
ALT_COV_TYPE((token, context, container) -> token.processAsEnum(AltCovarianceType.class, container::setAltCovType)),
/** Name of the reference frame in which the alternate covariance data are given. */
ALT_COV_REF_FRAME((token, context, container) -> token.processAsFrame(container::setAltCovRefFrame, context, true, false, false)),
/** Gravity model. */
GRAVITY_MODEL(new GravityProcessor()),
/** Name of atmospheric model. */
ATMOSPHERIC_MODEL((token, context, container) -> token.processAsNormalizedString(container::setAtmosphericModel)),
/** N-body perturbation bodies. */
N_BODY_PERTURBATIONS((token, context, container) -> token.processAsCenterList(container::setNBodyPerturbations,
context.getDataContext().getCelestialBodies())),
/** Is solar radiation pressure used for the OD of the object ? */
SOLAR_RAD_PRESSURE((token, context, container) -> token.processAsEnum(YesNoUnknown.class, container::setSolarRadiationPressure)),
/** Is solid Earth and ocean tides used for the OD of the object ? */
EARTH_TIDES((token, context, container) -> token.processAsEnum(YesNoUnknown.class, container::setEarthTides)),
/** Indication of whether in-track thrust modeling used for the object. */
INTRACK_THRUST((token, context, container) -> token.processAsEnum(YesNoUnknown.class, container::setIntrackThrust));
/** Processing method. */
private final TokenProcessor processor;
/** Simple constructor.
* @param processor processing method
*/
CdmMetadataKey(final TokenProcessor processor) {
this.processor = processor;
}
/** Process an token.
* @param token token to process
* @param context context binding
* @param container container to fill
* @return true of token was accepted
*/
public boolean process(final ParseToken token, final ContextBinding context, final CdmMetadata container) {
return processor.process(token, context, container);
}
/** Interface for processing one token. */
interface TokenProcessor {
/** Process one token.
* @param token token to process
* @param context context binding
* @param container container to fill
* @return true of token was accepted
*/
boolean process(ParseToken token, ContextBinding context, CdmMetadata container);
}
/** Dedicated processor for gravity field. */
private static class GravityProcessor implements TokenProcessor {
/** Pattern for splitting gravity specification. */
private static final Pattern GRAVITY_PATTERN =
Pattern.compile("^\\p{Blank}*([-_A-Za-z0-9]+)\\p{Blank}*:" +
"\\p{Blank}*([0-9]+)D" +
"\\p{Blank}*([0-9]+)O" +
"\\p{Blank}*$");
/** {@inheritDoc} */
@Override
public boolean process(final ParseToken token, final ContextBinding context, final CdmMetadata container) {
if (token.getType() == TokenType.ENTRY) {
final Matcher matcher = GRAVITY_PATTERN.matcher(token.getContentAsNormalizedString());
if (!matcher.matches()) {
throw token.generateException(null);
}
container.setGravityModel(matcher.group(1),
Integer.parseInt(matcher.group(2)),
Integer.parseInt(matcher.group(3)));
}
return true;
}
}
}