CRDConfiguration.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
* limitations under the License.
*/
package org.orekit.files.ilrs;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.Hashtable;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.regex.Pattern;
/**
* Container for Consolidated laser ranging Data Format (CDR) configuration records.
* @author Bryan Cazabonne
* @author Rongwang Li
* @since 10.3
*/
public class CRDConfiguration {
/** Dict of configuration record. **/
private Map<String, BaseConfiguration> mapConfigurationRecords;
/** List of system configuration. **/
private List<SystemConfiguration> systemConfigurationRecords;
/**
* Constructor.
*/
public CRDConfiguration() {
systemConfigurationRecords = new ArrayList<>();
mapConfigurationRecords = new Hashtable<>();
}
/**
* Get the system configuration record.
* @return the system configuration record
*/
public SystemConfiguration getSystemRecord() {
return systemConfigurationRecords.isEmpty() ? null : systemConfigurationRecords.get(0);
}
/**
* Get the system configuration record.
* @return the system configuration record
*/
public SystemConfiguration getLastSystemRecord() {
return systemConfigurationRecords.isEmpty() ? null : systemConfigurationRecords.get(systemConfigurationRecords.size() - 1);
}
/**
* Get the laser configuration record.
* @return the laser configuration record
*/
public LaserConfiguration getLaserRecord() {
return getLaserRecord(getSystemRecord());
}
/**
* Get the detector configuration record.
* @return the detector configuration record
*/
public DetectorConfiguration getDetectorRecord() {
return getDetectorRecord(getSystemRecord());
}
/**
* Get the timing system configuration record.
* @return the timing system configuration record
*/
public TimingSystemConfiguration getTimingRecord() {
return getTimingRecord(getSystemRecord());
}
/**
* Get the transponder configuration record.
* @return the transponder configuration record
*/
public TransponderConfiguration getTransponderRecord() {
return getTransponderRecord(getSystemRecord());
}
/**
* Get the software configuration record.
* @return the software configuration record
*/
public SoftwareConfiguration getSoftwareRecord() {
return getSoftwareRecord(getSystemRecord());
}
/**
* Get the meteorological record.
* @return the meteorological record
*/
public MeteorologicalConfiguration getMeteorologicalRecord() {
return getMeteorologicalRecord(getSystemRecord());
}
/**
* Add a configuration record, such as SystemConfiguation, LaserConfiguration, DetectorConfiguration, etc.
* @param config the configuration record
* @since 12.0
*/
public void addConfigurationRecord(final BaseConfiguration config) {
if (config == null) {
return;
}
mapConfigurationRecords.put(config.getConfigurationId(), config);
if (config instanceof SystemConfiguration) {
// Add to the list systemConfigurationRecords if it is a SystemConfiguration
systemConfigurationRecords.add((SystemConfiguration) config);
}
}
/**
* Get the configuration records map.
* @return the configuration records map
* @since 12.0
*/
public Map<String, BaseConfiguration> getConfigurationRecordMap() {
return Collections.unmodifiableMap(mapConfigurationRecords);
}
/**
* Get configuration record corresponding to the configId.
* @param configId the id of configuration
* @return the configuration with configId, or null
* @since 12.0
*/
public BaseConfiguration getConfigurationRecord(final String configId) {
return mapConfigurationRecords.get(configId);
}
/**
* Get a set of configuration ids.
* @return an unmodifiable set of configuration ids
* @since 12.0
*/
public Set<String> getSystemConfigurationIds() {
return Collections.unmodifiableSet(mapConfigurationRecords.keySet());
}
/**
* Get a list of system configurations.
* @return an unmodifiable list of system configurations
* @since 12.0
*/
public List<SystemConfiguration> getSystemConfigurationRecords() {
return Collections.unmodifiableList(systemConfigurationRecords);
}
/**
* Get configuration record related to systemRecord and the given class.
* @param systemRecord system configuration record
* @param c the class, such as LaserConfiguration, DetectorConfiguration, TimingSystemConfiguration, etc
* @return the configuration record
* @since 12.0
*/
private BaseConfiguration getRecord(final SystemConfiguration systemRecord,
final Class<? extends BaseConfiguration> c) {
BaseConfiguration config;
for (final String configId : systemRecord.getComponents()) {
config = getConfigurationRecord(configId);
if (config != null && config.getClass() == c) {
return config;
}
}
return null;
}
/**
* Get system configuration record. If configId is null, the default(first system configuration record) is returned.
* @param configId system configuration id, it can be null.
* @return the system configuration record
* @since 12.0
*/
public SystemConfiguration getSystemRecord(final String configId) {
if (configId == null) {
// default
return getSystemRecord();
}
final BaseConfiguration config = mapConfigurationRecords.get(configId);
return config == null ? null : (SystemConfiguration) config;
}
/**
* Get laser configuration record related to the systemRecord.
* @param systemRecord the system configuration
* @return the laser configuration record related the the systemRecord
* @since 12.0
*/
public LaserConfiguration getLaserRecord(final SystemConfiguration systemRecord) {
final BaseConfiguration config = getRecord(systemRecord, LaserConfiguration.class);
return config == null ? null : (LaserConfiguration) config;
}
/**
* Get detector configuration record related to the systemRecord.
* @param systemRecord the system configuration
* @return the detector configuration record related the the systemRecord
* @since 12.0
*/
public DetectorConfiguration getDetectorRecord(final SystemConfiguration systemRecord) {
final BaseConfiguration config = getRecord(systemRecord, DetectorConfiguration.class);
return config == null ? null : (DetectorConfiguration) config;
}
/**
* Get timing system configuration record related to the systemRecord.
* @param systemRecord the system configuration
* @return the timing system configuration record related the the systemRecord
* @since 12.0
*/
public TimingSystemConfiguration getTimingRecord(final SystemConfiguration systemRecord) {
final BaseConfiguration config = getRecord(systemRecord, TimingSystemConfiguration.class);
return config == null ? null : (TimingSystemConfiguration) config;
}
/**
* Get transponder configuration record related to the systemRecord.
* @param systemRecord the system configuration
* @return the transponder configuration record related the the systemRecord
* @since 12.0
*/
public TransponderConfiguration getTransponderRecord(final SystemConfiguration systemRecord) {
final BaseConfiguration config = getRecord(systemRecord, TransponderConfiguration.class);
return config == null ? null : (TransponderConfiguration) config;
}
/**
* Get software configuration record related to the systemRecord.
* @param systemRecord the system configuration
* @return the software configuration record related the the systemRecord
* @since 12.0
*/
public SoftwareConfiguration getSoftwareRecord(final SystemConfiguration systemRecord) {
final BaseConfiguration config = getRecord(systemRecord, SoftwareConfiguration.class);
return config == null ? null : (SoftwareConfiguration) config;
}
/**
* Get meteorological configuration record related to the systemRecord.
* @param systemRecord the system configuration
* @return the meteorological configuration record related the the systemRecord
* @since 12.0
*/
public MeteorologicalConfiguration getMeteorologicalRecord(final SystemConfiguration systemRecord) {
final BaseConfiguration config = getRecord(systemRecord, MeteorologicalConfiguration.class);
return config == null ? null : (MeteorologicalConfiguration) config;
}
/**
* Get calibration target configuration record related to the systemRecord.
* @param systemRecord the system configuration
* @return the calibration target configuration record related the the systemRecord
* @since 12.0
*/
public CalibrationTargetConfiguration getCalibrationTargetRecord(final SystemConfiguration systemRecord) {
final BaseConfiguration config = getRecord(systemRecord, CalibrationTargetConfiguration.class);
return config == null ? null : (CalibrationTargetConfiguration) config;
}
/**
* Get the calibration target configuration record.
* @return the calibration target configuration record
* @since 12.0
*/
public CalibrationTargetConfiguration getCalibrationTargetRecord() {
return getCalibrationTargetRecord(getSystemRecord());
}
/**
* Base class for configuration record.
* @since 12.0
*/
public abstract static class BaseConfiguration {
/** Configuration ID. */
private String configurationId;
/** Empty constructor.
* <p>
* This constructor is not strictly necessary, but it prevents spurious
* javadoc warnings with JDK 18 and later.
* </p>
* @since 12.0
*/
public BaseConfiguration() {
// nothing to do
}
/**
* Get the configuration ID.
* @return the configuration ID
*/
public String getConfigurationId() {
return configurationId;
}
/**
* Set the configuration ID.
* @param configurationId the configuration ID to set
*/
public void setConfigurationId(final String configurationId) {
this.configurationId = configurationId;
}
@Override
public int hashCode() {
return toString().hashCode();
}
@Override
public boolean equals(final Object record) {
if (record == null) {
return false;
}
if (record == this) {
return true;
}
return toString().equals(record.toString());
}
/**
* Get a string representation of the instance in the CRD format.
* @return a string representation of the instance, in the CRD format.
* @since 12.0
*/
public abstract String toCrdString();
}
/** Container for system configuration record. */
public static class SystemConfiguration extends BaseConfiguration {
/** Transmit Wavelength [m]. */
private double wavelength;
/** List of components. **/
private List<String> components;
/**
* Constructor.
*/
public SystemConfiguration() {
this.components = new ArrayList<>();
}
/**
* Get the transmit wavelength.
* @return the transmit wavelength in meters
*/
public double getWavelength() {
return wavelength;
}
/**
* Set the transmit wavelength.
* @param wavelength the wavelength to set
*/
public void setWavelength(final double wavelength) {
this.wavelength = wavelength;
}
/**
* Get the system configuration ID.
* @return the system configuration ID
*/
public String getSystemId() {
return getConfigurationId();
}
/**
* Set the system configuration ID.
* @param systemId the system configuration ID to set
*/
public void setSystemId(final String systemId) {
setConfigurationId(systemId);
}
/**
* Get the components (config ids) for system configuration.
* @return an unmodifiable list of components
* @since 12.0
*/
public List<String> getComponents() {
return Collections.unmodifiableList(components);
}
/**
* Set the components (config ids) for system configuration.
* @param components the components (config ids)
* @since 12.0
*/
public void setComponents(final String[] components) {
this.components = Arrays.asList(components);
}
/** {@inheritDoc} */
@Override
public String toCrdString() {
return String.format("C0 0 %s", toString());
}
@Override
public String toString() {
// CRD suggested format, excluding the record type
final StringBuilder sb = new StringBuilder();
sb.append(String.format("%10.3f %s", wavelength * 1e9, getConfigurationId()));
for (final String comp : components) {
sb.append(String.format(" %s", comp));
}
return sb.toString().replace(',', '.');
}
}
/** Container for laser configuration record. */
public static class LaserConfiguration extends BaseConfiguration {
/** Laser Type. */
private String laserType;
/** Primary wavelength [m]. */
private double primaryWavelength;
/** Nominal Fire Rate [Hz]. */
private double nominalFireRate;
/** Pulse Energy [mJ]. */
private double pulseEnergy;
/** Pulse Width [ps]. */
private double pulseWidth;
/** Bean divergence [arcsec]. */
private double beamDivergence;
/** Number of pulses in outgoing semi-train. */
private int pulseInOutgoingSemiTrain;
/** Empty constructor.
* <p>
* This constructor is not strictly necessary, but it prevents spurious
* javadoc warnings with JDK 18 and later.
* </p>
* @since 12.0
*/
public LaserConfiguration() {
// nothing to do
}
/**
* Get the laser configuration ID.
* @return the laser configuration ID
*/
public String getLaserId() {
return getConfigurationId();
}
/**
* Set the laser configuration ID.
* @param laserId the laser configuration ID to set
*/
public void setLaserId(final String laserId) {
setConfigurationId(laserId);
}
/**
* Get the laser type.
* @return the laser type
*/
public String getLaserType() {
return laserType;
}
/**
* Set the laser type.
* @param laserType the laser type to set
*/
public void setLaserType(final String laserType) {
this.laserType = laserType;
}
/**
* Get the primary wavelength.
* @return the primary wavelength in meters
*/
public double getPrimaryWavelength() {
return primaryWavelength;
}
/**
* Set the primary wavelength.
* @param primaryWavelength the primary wavelength to set in meters
*/
public void setPrimaryWavelength(final double primaryWavelength) {
this.primaryWavelength = primaryWavelength;
}
/**
* Get the nominal fire rate.
* @return the nominal fire rate in Hz.
*/
public double getNominalFireRate() {
return nominalFireRate;
}
/**
* Set the nominal fire rate.
* @param nominalFireRate the nominal fire rate to set in Hz
*/
public void setNominalFireRate(final double nominalFireRate) {
this.nominalFireRate = nominalFireRate;
}
/**
* Get the pulse energy.
* @return the pulse energy in mJ
*/
public double getPulseEnergy() {
return pulseEnergy;
}
/**
* Set the pulse energy.
* @param pulseEnergy the pulse energy to set in mJ
*/
public void setPulseEnergy(final double pulseEnergy) {
this.pulseEnergy = pulseEnergy;
}
/**
* Get the pulse width (FWHM in ps).
* @return the pulse width
*/
public double getPulseWidth() {
return pulseWidth;
}
/**
* Set the pulse width.
* @param pulseWidth the pulse width to set, ps
*/
public void setPulseWidth(final double pulseWidth) {
this.pulseWidth = pulseWidth;
}
/**
* Get the beam divergence.
* @return the beam divergence in arcsec
*/
public double getBeamDivergence() {
return beamDivergence;
}
/**
* Set the beam divergence.
* @param beamDivergence the beam divergence to set in arcsec
*/
public void setBeamDivergence(final double beamDivergence) {
this.beamDivergence = beamDivergence;
}
/**
* Get the number of pulses in outgoing semi-train.
* @return the number of pulses in outgoing semi-train
*/
public int getPulseInOutgoingSemiTrain() {
return pulseInOutgoingSemiTrain;
}
/**
* Set the number of pulses in outgoing semi-train.
* @param pulseInOutgoingSemiTrain the number of pulses in outgoing semi-train to set
*/
public void setPulseInOutgoingSemiTrain(final int pulseInOutgoingSemiTrain) {
this.pulseInOutgoingSemiTrain = pulseInOutgoingSemiTrain;
}
/** {@inheritDoc} */
@Override
public String toCrdString() {
return String.format("C1 0 %s", toString());
}
@Override
public String toString() {
// CRD suggested format, excluding the record type
// primaryWavelength: m --> nm
final String str = String.format(
"%s %s %.2f %.2f %.2f %.1f %.2f %d", getConfigurationId(),
laserType, primaryWavelength * 1e9, nominalFireRate,
pulseEnergy, pulseWidth, beamDivergence,
pulseInOutgoingSemiTrain);
return CRD.handleNaN(str).replace(',', '.');
}
}
/** Container for detector configuration record. */
public static class DetectorConfiguration extends BaseConfiguration {
/** Detector Type. */
private String detectorType;
/** Applicable wavelength. */
private double applicableWavelength;
/** Quantum efficiency at applicable wavelength [%]. */
private double quantumEfficiency;
/** Applied voltage [V]. */
private double appliedVoltage;
/** Dark Count [Hz]. */
private double darkCount;
/** Output pulse type. */
private String outputPulseType;
/** Output pulse width [ps]. */
private double outputPulseWidth;
/** Spectral Filter [m]. */
private double spectralFilter;
/** % Transmission of Spectral Filter. */
private double transmissionOfSpectralFilter;
/** Spatial Filter [arcsec]. */
private double spatialFilter;
/** External Signal processing. */
private String externalSignalProcessing;
/** Amplifier Gain. */
private double amplifierGain;
/** Amplifier Bandwidth [Hz]. */
private double amplifierBandwidth;
/** Amplifier In Use. */
private String amplifierInUse;
/** Empty constructor.
* <p>
* This constructor is not strictly necessary, but it prevents spurious
* javadoc warnings with JDK 18 and later.
* </p>
* @since 12.0
*/
public DetectorConfiguration() {
// nothing to do
}
/**
* Get the detector configuration ID.
* @return the detector configuration ID
*/
public String getDetectorId() {
return getConfigurationId();
}
/**
* Set the detector configuration ID.
* @param detectorId the detector configuration ID to set
*/
public void setDetectorId(final String detectorId) {
setConfigurationId(detectorId);
}
/**
* Get the detector type.
* @return the detector type
*/
public String getDetectorType() {
return detectorType;
}
/**
* Set the detector type.
* @param detectorType the detector type to set
*/
public void setDetectorType(final String detectorType) {
this.detectorType = detectorType;
}
/**
* Get the applicable wavelength.
* @return pplicable wavelength in meters
*/
public double getApplicableWavelength() {
return applicableWavelength;
}
/**
* Set the applicable wavelength.
* @param applicableWavelength the applicable wavelength to set in meters
*/
public void setApplicableWavelength(final double applicableWavelength) {
this.applicableWavelength = applicableWavelength;
}
/**
* Get the quantum efficiency at applicable wavelength.
* @return the quantum efficiency at applicable wavelength in percents
*/
public double getQuantumEfficiency() {
return quantumEfficiency;
}
/**
* Set the quantum efficiency at applicable wavelength.
* @param quantumEfficiency the efficiency to set in percents
*/
public void setQuantumEfficiency(final double quantumEfficiency) {
// NOTE: The quantumEfficiency may be -1.0, which means 'not available'
if (quantumEfficiency == -1.0) {
this.quantumEfficiency = Double.NaN;
} else {
this.quantumEfficiency = quantumEfficiency;
}
}
/**
* Get the applied voltage.
* @return the applied voltage in Volts
*/
public double getAppliedVoltage() {
return appliedVoltage;
}
/**
* Set the applied voltage.
* @param appliedVoltage the applied voltage to set in Volts
*/
public void setAppliedVoltage(final double appliedVoltage) {
// NOTE: The quantumEfficiency may be -1.0, which means 'not available' or 'not applicable'
if (appliedVoltage == -1.0) {
this.appliedVoltage = Double.NaN;
} else {
this.appliedVoltage = appliedVoltage;
}
}
/**
* Get the dark count.
* @return the dark count in Hz
*/
public double getDarkCount() {
return darkCount;
}
/**
* Set the dark count.
* @param darkCount the dark count to set in Hz
*/
public void setDarkCount(final double darkCount) {
// NOTE: The quantumEfficiency may be -1.0, which means 'not available'
if (darkCount == -1.0e3) { // -1=na, kHz --> Hz
this.darkCount = Double.NaN;
} else {
this.darkCount = darkCount;
}
}
/**
* Get the output pulse type.
* @return the output pulse type
*/
public String getOutputPulseType() {
return outputPulseType;
}
/**
* Set the output pulse type.
* @param outputPulseType the output pulse type to set
*/
public void setOutputPulseType(final String outputPulseType) {
this.outputPulseType = outputPulseType;
}
/**
* Get the output pulse width.
* @return the output pulse width in ps
*/
public double getOutputPulseWidth() {
return outputPulseWidth;
}
/**
* Set the output pulse width.
* @param outputPulseWidth the output pulse width to set in ps
*/
public void setOutputPulseWidth(final double outputPulseWidth) {
// NOTE: The quantumEfficiency may be -1.0, which means 'not available' or 'not applicable'
if (outputPulseWidth == -1.0) {
this.outputPulseWidth = Double.NaN;
} else {
this.outputPulseWidth = outputPulseWidth;
}
}
/**
* Get the spectral filter.
* @return the spectral filter in meters
*/
public double getSpectralFilter() {
return spectralFilter;
}
/**
* Set the spectral filter.
* @param spectralFilter the spectral filter to set in meters
*/
public void setSpectralFilter(final double spectralFilter) {
this.spectralFilter = spectralFilter;
}
/**
* Get the percentage of transmission of spectral filter.
* @return the percentage of transmission of spectral filter
*/
public double getTransmissionOfSpectralFilter() {
return transmissionOfSpectralFilter;
}
/**
* Set the percentage of transmission of spectral filter.
* @param transmissionOfSpectralFilter the percentage to set
*/
public void setTransmissionOfSpectralFilter(final double transmissionOfSpectralFilter) {
this.transmissionOfSpectralFilter = transmissionOfSpectralFilter;
}
/**
* Get the spatial filter.
* @return the spatial filter in arcsec
*/
public double getSpatialFilter() {
return spatialFilter;
}
/**
* Set the spatial filter.
* @param spatialFilter the spatial filter to set in arcsec
*/
public void setSpatialFilter(final double spatialFilter) {
this.spatialFilter = spatialFilter;
}
/**
* Get the external signal processing.
* @return the external signal processing
*/
public String getExternalSignalProcessing() {
return externalSignalProcessing;
}
/**
* Set the external signal processing.
* @param externalSignalProcessing the external signal processing to set
*/
public void setExternalSignalProcessing(final String externalSignalProcessing) {
this.externalSignalProcessing = externalSignalProcessing;
}
/**
* Get the amplifier gain.
* @return the amplifier gain
*/
public double getAmplifierGain() {
return amplifierGain;
}
/**
* Set the amplifier gain.
* @param amplifierGain the amplifier gain to set
*/
public void setAmplifierGain(final double amplifierGain) {
this.amplifierGain = amplifierGain;
}
/**
* Get the amplifier bandwidth.
* @return the amplifier bandwidth in Hz
*/
public double getAmplifierBandwidth() {
return amplifierBandwidth;
}
/**
* Set the amplifier bandwidth.
* @param amplifierBandwidth the amplifier bandwidth to set in Hz
*/
public void setAmplifierBandwidth(final double amplifierBandwidth) {
this.amplifierBandwidth = amplifierBandwidth;
}
/**
* Get the amplifier in use.
* @return the amplifier in use
*/
public String getAmplifierInUse() {
return amplifierInUse;
}
/**
* Set the amplifier in use.
* @param amplifierInUse the amplifier in use to set
*/
public void setAmplifierInUse(final String amplifierInUse) {
this.amplifierInUse = amplifierInUse;
}
/** {@inheritDoc} */
@Override
public String toCrdString() {
return String.format("C2 0 %s", toString());
}
@Override
public String toString() {
// CRD suggested format, excluding the record type
// applicableWavelength, spectralFilter: m --> nm
// darkCount, amplifierBandwidth: Hz --> kHz
final String str = String.format(
"%s %s %.3f %.2f %.1f %.1f %s %.1f %.2f %.1f %.1f %s %.1f %.1f %s",
getConfigurationId(), detectorType,
applicableWavelength * 1e9, quantumEfficiency,
appliedVoltage, darkCount * 1e-3, outputPulseType,
outputPulseWidth, spectralFilter * 1e9,
transmissionOfSpectralFilter, spatialFilter,
externalSignalProcessing, amplifierGain,
amplifierBandwidth * 1e-3, amplifierInUse);
return CRD.handleNaN(str).replace(',', '.');
}
}
/** Container for timing system configuration record. */
public static class TimingSystemConfiguration extends BaseConfiguration {
/** Time Source. */
private String timeSource;
/** Frequency Source. */
private String frequencySource;
/** Timer. */
private String timer;
/** Timer Serial Number. */
private String timerSerialNumber;
/** Epoch delay correction [s]. */
private double epochDelayCorrection;
/** Empty constructor.
* <p>
* This constructor is not strictly necessary, but it prevents spurious
* javadoc warnings with JDK 18 and later.
* </p>
* @since 12.0
*/
public TimingSystemConfiguration() {
// nothing to do
}
/**
* Get the time source.
* @return the time source
*/
public String getTimeSource() {
return timeSource;
}
/**
* Get the local timing system configuration ID.
* @return the local timing system configuration ID
*/
public String getLocalTimingId() {
return getConfigurationId();
}
/**
* Set the local timing system configuration ID.
* @param localTimingId the local timing system configuration ID to set
*/
public void setLocalTimingId(final String localTimingId) {
setConfigurationId(localTimingId);
}
/**
* Set the time source.
* @param timeSource the time source to set
*/
public void setTimeSource(final String timeSource) {
this.timeSource = timeSource;
}
/**
* Get the frequency source.
* @return the frequency source
*/
public String getFrequencySource() {
return frequencySource;
}
/**
* Set the frequency source.
* @param frequencySource the frequency source to set
*/
public void setFrequencySource(final String frequencySource) {
this.frequencySource = frequencySource;
}
/**
* Get the timer name.
* @return the timer name
*/
public String getTimer() {
return timer;
}
/**
* Set the timer name.
* @param timer the timer name to set
*/
public void setTimer(final String timer) {
this.timer = timer;
}
/**
* Get the timer serial number.
* @return the timer serial number
*/
public String getTimerSerialNumber() {
return timerSerialNumber;
}
/**
* Set the timer serial number.
* @param timerSerialNumber the timer serial number to set
*/
public void setTimerSerialNumber(final String timerSerialNumber) {
this.timerSerialNumber = timerSerialNumber;
}
/**
* Get the epoch delay correction.
* @return the epoch delay correction in seconds
*/
public double getEpochDelayCorrection() {
return epochDelayCorrection;
}
/**
* Set the epoch delay correction.
* @param epochDelayCorrection the epoch delay correction to set in seconds
*/
public void setEpochDelayCorrection(final double epochDelayCorrection) {
this.epochDelayCorrection = epochDelayCorrection;
}
/** {@inheritDoc} */
@Override
public String toCrdString() {
return String.format("C3 0 %s", toString());
}
@Override
public String toString() {
// CRD suggested format, excluding the record type
// epochDelayCorrection: s --> us
final String str = String.format("%s %s %s %s %s %.1f",
getConfigurationId(), timeSource, frequencySource, timer,
timerSerialNumber, epochDelayCorrection * 1e6);
return CRD.handleNaN(str).replace(',', '.');
}
}
/** Container for transponder configuration record. */
public static class TransponderConfiguration extends BaseConfiguration {
/** Estimated Station UTC offset [s]. */
private double stationUTCOffset;
/** Estimated Station Oscillator Drift in parts in 10^15. */
private double stationOscDrift;
/** Estimated Transponder UTC offset [s]. */
private double transpUTCOffset;
/** Estimated Transponder Oscillator Drift in parts in 10^15. */
private double transpOscDrift;
/** Transponder Clock Reference Time. */
private double transpClkRefTime;
/** Station clock offset and drift applied indicator. */
private int stationClockAndDriftApplied;
/** Spacecraft clock offset and drift applied indicator . */
private int spacecraftClockAndDriftApplied;
/** Spacecraft time simplified flag. */
private boolean isSpacecraftTimeSimplified;
/** Empty constructor.
* <p>
* This constructor is not strictly necessary, but it prevents spurious
* javadoc warnings with JDK 18 and later.
* </p>
* @since 12.0
*/
public TransponderConfiguration() {
// nothing to do
}
/**
* Get the transponder configuration ID.
* @return the transponder configuration ID
*/
public String getTransponderId() {
return getConfigurationId();
}
/**
* Set the transponder configuration ID.
* @param transponderId the transponder configuration ID to set
*/
public void setTransponderId(final String transponderId) {
setConfigurationId(transponderId);
}
/**
* Get the estimated station UTC offset.
* @return the estimated station UTC offset in seconds
*/
public double getStationUTCOffset() {
return stationUTCOffset;
}
/**
* Set the estimated station UTC offset.
* @param stationUTCOffset the estimated station UTC offset to set in seconds
*/
public void setStationUTCOffset(final double stationUTCOffset) {
this.stationUTCOffset = stationUTCOffset;
}
/**
* Get the estimated station oscillator drift in parts in 10¹⁵.
* @return the station oscillator drift
*/
public double getStationOscDrift() {
return stationOscDrift;
}
/**
* Set the estimated station oscillator drift in parts in 10¹⁵.
* @param stationOscDrift the station oscillator drift to set
*/
public void setStationOscDrift(final double stationOscDrift) {
this.stationOscDrift = stationOscDrift;
}
/**
* Get the estimated transponder UTC offset.
* @return the estimated transponder UTC offset in seconds
*/
public double getTranspUTCOffset() {
return transpUTCOffset;
}
/**
* Set the estimated transponder UTC offset.
* @param transpUTCOffset the estimated transponder UTC offset to set in seconds
*/
public void setTranspUTCOffset(final double transpUTCOffset) {
this.transpUTCOffset = transpUTCOffset;
}
/**
* Get the estimated transponder oscillator drift in parts in 10¹⁵.
* @return the estimated transponder oscillator drift
*/
public double getTranspOscDrift() {
return transpOscDrift;
}
/**
* Set the estimated transponder oscillator drift in parts in 10¹⁵.
* @param transpOscDrift the estimated transponder oscillator drift to set
*/
public void setTranspOscDrift(final double transpOscDrift) {
this.transpOscDrift = transpOscDrift;
}
/**
* Get the transponder clock reference time.
* @return the transponder clock reference time
*/
public double getTranspClkRefTime() {
return transpClkRefTime;
}
/**
* Set the transponder clock reference time.
* @param transpClkRefTime the transponder clock reference time to set
*/
public void setTranspClkRefTime(final double transpClkRefTime) {
this.transpClkRefTime = transpClkRefTime;
}
/**
* Get the station clock offset and drift applied indicator.
* @return the station clock offset and drift applied indicator
*/
public int getStationClockAndDriftApplied() {
return stationClockAndDriftApplied;
}
/**
* Set the station clock offset and drift applied indicator.
* @param stationClockAndDriftApplied the indicator to set
*/
public void setStationClockAndDriftApplied(final int stationClockAndDriftApplied) {
this.stationClockAndDriftApplied = stationClockAndDriftApplied;
}
/**
* Get the spacecraft clock offset and drift applied indicator.
* @return the spacecraft clock offset and drift applied indicator
*/
public int getSpacecraftClockAndDriftApplied() {
return spacecraftClockAndDriftApplied;
}
/**
* Set the spacecraft clock offset and drift applied indicator.
* @param spacecraftClockAndDriftApplied the indicator to set
*/
public void setSpacecraftClockAndDriftApplied(final int spacecraftClockAndDriftApplied) {
this.spacecraftClockAndDriftApplied = spacecraftClockAndDriftApplied;
}
/**
* Get the spacecraft time simplified flag.
* @return true if spacecraft time is simplified
*/
public boolean isSpacecraftTimeSimplified() {
return isSpacecraftTimeSimplified;
}
/**
* Set the spacecraft time simplified flag.
* @param isSpacecraftTimeSimplified true if spacecraft time is simplified
*/
public void setIsSpacecraftTimeSimplified(final boolean isSpacecraftTimeSimplified) {
this.isSpacecraftTimeSimplified = isSpacecraftTimeSimplified;
}
/** {@inheritDoc} */
@Override
public String toCrdString() {
return String.format("C4 0 %s", toString());
}
@Override
public String toString() {
// CRD suggested format, excluding the record type
// stationUTCOffset, transpUTCOffset: s --> ns
final String str = String.format(
"%s %.3f %.2f %.3f %.2f %.12f %d %d %d",
getConfigurationId(),
stationUTCOffset * 1e9, stationOscDrift,
transpUTCOffset * 1e9, transpOscDrift,
transpClkRefTime,
stationClockAndDriftApplied, spacecraftClockAndDriftApplied,
isSpacecraftTimeSimplified ? 1 : 0);
return CRD.handleNaN(str).replace(',', '.');
}
}
/** Container for software configuration record. */
public static class SoftwareConfiguration extends BaseConfiguration {
/** Pattern of "[\\s+\\[\\]]". */
private static final Pattern PATTERN_WHITESPACE_OR_SQUAREBRACKET = Pattern.compile("[\\s+\\[\\]]");
/** Tracking software in measurement path. */
private String[] trackingSoftwares;
/** Tracking software version(s). */
private String[] trackingSoftwareVersions;
/** Processing software in measurement path. */
private String[] processingSoftwares;
/** Processing software version(s). */
private String[] processingSoftwareVersions;
/** Empty constructor.
* <p>
* This constructor is not strictly necessary, but it prevents spurious
* javadoc warnings with JDK 18 and later.
* </p>
* @since 12.0
*/
public SoftwareConfiguration() {
// nothing to do
}
/**
* Get the software configuration ID.
* @return the software configuration ID.
*/
public String getSoftwareId() {
return getConfigurationId();
}
/**
* Set the software configuration ID.
* @param softwareId the software configuration ID
*/
public void setSoftwareId(final String softwareId) {
setConfigurationId(softwareId);
}
/**
* Get the tracking softwares.
* @return the tracking softwares
*/
public String[] getTrackingSoftwares() {
return trackingSoftwares.clone();
}
/**
* Set the tracking softwares.
* @param trackingSoftwares the tracking softwares to set
*/
public void setTrackingSoftwares(final String[] trackingSoftwares) {
this.trackingSoftwares = trackingSoftwares.clone();
}
/**
* Get the tracking software versions.
* @return the tracking software versions
*/
public String[] getTrackingSoftwareVersions() {
return trackingSoftwareVersions.clone();
}
/**
* Set the tracking software versions.
* @param trackingSoftwareVersions the tracking software versions to set
*/
public void setTrackingSoftwareVersions(final String[] trackingSoftwareVersions) {
this.trackingSoftwareVersions = trackingSoftwareVersions.clone();
}
/**
* Get the processing softwares.
* @return the processing softwares
*/
public String[] getProcessingSoftwares() {
return processingSoftwares.clone();
}
/**
* Set the processing softwares.
* @param processingSoftwares the processing softwares to set
*/
public void setProcessingSoftwares(final String[] processingSoftwares) {
this.processingSoftwares = processingSoftwares.clone();
}
/**
* Get the processing software versions.
* @return the processing software versions
*/
public String[] getProcessingSoftwareVersions() {
return processingSoftwareVersions.clone();
}
/**
* Set the processing software versions.
* @param processingSoftwareVersions the processing software versions to set
*/
public void setProcessingSoftwareVersions(final String[] processingSoftwareVersions) {
this.processingSoftwareVersions = processingSoftwareVersions.clone();
}
private static String formatArray(final String[] arr) {
// comma delimited
// "[Monitor, Sattrk]" ==> "Monitor,Sattrk"
// "[conpro, crd_cal, PoissonCRD, gnp]" ==> "conpro,crd_cal,PoissonCRD,gnp"
final String s = Arrays.toString(arr);
return PATTERN_WHITESPACE_OR_SQUAREBRACKET.matcher(s).replaceAll("");
}
/** {@inheritDoc} */
@Override
public String toCrdString() {
return String.format("C5 0 %s", toString());
}
@Override
public String toString() {
// CRD suggested format, excluding the record type
return String.format("%s %s %s %s %s", getConfigurationId(),
formatArray(trackingSoftwares),
formatArray(trackingSoftwareVersions),
formatArray(processingSoftwares),
formatArray(processingSoftwareVersions));
}
}
/** Container for meteorological configuration record. */
public static class MeteorologicalConfiguration extends BaseConfiguration {
/** Pressure Sensor Manufacturer. */
private String pressSensorManufacturer;
/** Pressure Sensor Model. */
private String pressSensorModel;
/** Pressure Sensor Serial Number. */
private String pressSensorSerialNumber;
/** Temperature Sensor Manufacturer. */
private String tempSensorManufacturer;
/** Temperature Sensor Model. */
private String tempSensorModel;
/** Temperature Sensor Serial Number. */
private String tempSensorSerialNumber;
/** Humidity Sensor Manufacturer. */
private String humiSensorManufacturer;
/** Humidity Sensor Model. */
private String humiSensorModel;
/** Humidity Sensor Serial Number. */
private String humiSensorSerialNumber;
/** Empty constructor.
* <p>
* This constructor is not strictly necessary, but it prevents spurious
* javadoc warnings with JDK 18 and later.
* </p>
* @since 12.0
*/
public MeteorologicalConfiguration() {
// nothing to do
}
/**
* Get the meteorological configuration ID.
* @return the meteorological configuration ID
*/
public String getMeteorologicalId() {
return getConfigurationId();
}
/**
* Set the meteorological configuration ID.
* @param meteorologicalId the meteorological configuration ID to set
*/
public void setMeteorologicalId(final String meteorologicalId) {
setConfigurationId(meteorologicalId);
}
/**
* Get the pressure sensor manufacturer.
* @return the pressure sensor manufacturer
*/
public String getPressSensorManufacturer() {
return pressSensorManufacturer;
}
/**
* Set the pressure sensor manufacturer.
* @param pressSensorManufacturer the manufacturer to set
*/
public void setPressSensorManufacturer(final String pressSensorManufacturer) {
this.pressSensorManufacturer = pressSensorManufacturer;
}
/**
* Get the pressure sensor model.
* @return the pressure sensor model
*/
public String getPressSensorModel() {
return pressSensorModel;
}
/**
* Set the pressure sensor model.
* @param pressSensorModel the model to set
*/
public void setPressSensorModel(final String pressSensorModel) {
this.pressSensorModel = pressSensorModel;
}
/**
* Get the pressure sensor serial number.
* @return the pressure sensor serial number
*/
public String getPressSensorSerialNumber() {
return pressSensorSerialNumber;
}
/**
* Set the pressure sensor serial number.
* @param pressSensorSerialNumber the serial number to set
*/
public void setPressSensorSerialNumber(final String pressSensorSerialNumber) {
this.pressSensorSerialNumber = pressSensorSerialNumber;
}
/**
* Get the temperature sensor manufacturer.
* @return the temperature sensor manufacturer
*/
public String getTempSensorManufacturer() {
return tempSensorManufacturer;
}
/**
* Set the temperature sensor manufacturer.
* @param tempSensorManufacturer the temperature sensor manufacturer
*/
public void setTempSensorManufacturer(final String tempSensorManufacturer) {
this.tempSensorManufacturer = tempSensorManufacturer;
}
/**
* Get the temperature sensor model.
* @return the temperature sensor model
*/
public String getTempSensorModel() {
return tempSensorModel;
}
/**
* Set the temperature sensor model.
* @param tempSensorModel the model to set
*/
public void setTempSensorModel(final String tempSensorModel) {
this.tempSensorModel = tempSensorModel;
}
/**
* Get the temperature sensor serial number.
* @return the temperature sensor serial number
*/
public String getTempSensorSerialNumber() {
return tempSensorSerialNumber;
}
/**
* Set the temperature sensor serial number.
* @param tempSensorSerialNumber the serial number to set
*/
public void setTempSensorSerialNumber(final String tempSensorSerialNumber) {
this.tempSensorSerialNumber = tempSensorSerialNumber;
}
/**
* Get the humidity sensor manufacturer.
* @return the humidity sensor manufacturer
*/
public String getHumiSensorManufacturer() {
return humiSensorManufacturer;
}
/**
* Set the humidity sensor manufacturer.
* @param humiSensorManufacturer the manufacturer to set
*/
public void setHumiSensorManufacturer(final String humiSensorManufacturer) {
this.humiSensorManufacturer = humiSensorManufacturer;
}
/**
* Get the humidity sensor model.
* @return the humidity sensor model
*/
public String getHumiSensorModel() {
return humiSensorModel;
}
/**
* Set the humidity sensor model.
* @param humiSensorModel the model to set
*/
public void setHumiSensorModel(final String humiSensorModel) {
this.humiSensorModel = humiSensorModel;
}
/**
* Get the humidity sensor serial number.
* @return the humidity sensor serial number
*/
public String getHumiSensorSerialNumber() {
return humiSensorSerialNumber;
}
/**
* Set the humidity sensor serial number.
* @param humiSensorSerialNumber the serial number to set
*/
public void setHumiSensorSerialNumber(final String humiSensorSerialNumber) {
this.humiSensorSerialNumber = humiSensorSerialNumber;
}
/** {@inheritDoc} */
@Override
public String toCrdString() {
return String.format("C6 0 %s", toString());
}
@Override
public String toString() {
// CRD suggested format, excluding the record type
return String.format("%s %s %s %s %s %s %s %s %s %s",
getConfigurationId(), pressSensorManufacturer,
pressSensorModel, pressSensorSerialNumber,
tempSensorManufacturer, tempSensorModel,
tempSensorSerialNumber, humiSensorManufacturer,
humiSensorModel, humiSensorSerialNumber);
}
}
/**
* Container for calibration target configuration record.
* @since 12.0
*/
public static class CalibrationTargetConfiguration extends BaseConfiguration {
/** Target name or ID. */
private String targetName;
/** Surveyed target distance. */
private double surveyedTargetDistance;
/** Survey error. */
private double surveyError;
/** Sum of all constant delays (m, one way). */
private double sumOfAllConstantDelays;
/** Pulse Energy [mJ]. */
private double pulseEnergy;
/** Processing software name. */
private String processingSoftwareName;
/** Processing software version. */
private String processingSoftwareVersion;
/** Empty constructor.
* <p>
* This constructor is not strictly necessary, but it prevents spurious
* javadoc warnings with JDK 18 and later.
* </p>
* @since 12.0
*/
public CalibrationTargetConfiguration() {
// nothing to do
}
/**
* Get the target name or ID.
* @return the target name or ID
*/
public String getTargetName() {
return targetName;
}
/**
* Set the target name or ID.
* @param targetName target name or ID to set
*/
public void setTargetName(final String targetName) {
this.targetName = targetName;
}
/**
* Get the surveyed target distance.
* @return the surveyed target distance in meters
*/
public double getSurveyedTargetDistance() {
return surveyedTargetDistance;
}
/**
* Set the surveyed target distance.
* @param surveyedTargetDistance the surveyed target distance to set, in meters
*/
public void setSurveyedTargetDistance(final double surveyedTargetDistance) {
this.surveyedTargetDistance = surveyedTargetDistance;
}
/**
* Get the survey error.
* @return the survey error in meters
*/
public double getSurveyError() {
return surveyError;
}
/**
* Set the survey error.
* @param surveyError the survey error to set, in meters
*/
public void setSurveyError(final double surveyError) {
this.surveyError = surveyError;
}
/**
* Get the sum of all constant delays (electronic, geometric, optical) that
* are not included in the time of flight measurements or time- variant
* or point angle-variant delays in the “42” record below (m, one way).
* @return the sum of all constant delays
*/
public double getSumOfAllConstantDelays() {
return sumOfAllConstantDelays;
}
/**
* Set the sum of all constant delays (electronic, geometric, optical) that
* are not included in the time of flight measurements or time- variant
* or point angle-variant delays in the “42” record below (m, one way).
* @param sumOfAllConstantDelays the sum of all constant delays
*/
public void setSumOfAllConstantDelays(final double sumOfAllConstantDelays) {
this.sumOfAllConstantDelays = sumOfAllConstantDelays;
}
/**
* Get the pulse energy.
* @return the pulse energy in mJ
*/
public double getPulseEnergy() {
return pulseEnergy;
}
/**
* Set the pulse energy.
* @param pulseEnergy the pulse energy to set, in mJ
*/
public void setPulseEnergy(final double pulseEnergy) {
this.pulseEnergy = pulseEnergy;
}
/**
* Get the processing software name.
* @return the processing software name
*/
public String getProcessingSoftwareName() {
return processingSoftwareName;
}
/**
* Set the processing software name.
* @param processingSoftwareName the processing software name to set
*/
public void setProcessingSoftwareName(final String processingSoftwareName) {
this.processingSoftwareName = processingSoftwareName;
}
/**
* Get the processing software version.
* @return the processing software version
*/
public String getProcessingSoftwareVersion() {
return processingSoftwareVersion;
}
/**
* Set the processing software version.
* @param processingSoftwareVersion the processing software version to set
*/
public void setProcessingSoftwareVersion(final String processingSoftwareVersion) {
this.processingSoftwareVersion = processingSoftwareVersion;
}
/** {@inheritDoc} */
@Override
public String toCrdString() {
return String.format("C7 0 %s", toString());
}
@Override
public String toString() {
// CRD suggested format, excluding the record type
// surveyError: m --> mm
final String str = String.format("%s %s %.5f %.2f %.4f %.2f %s %s",
getConfigurationId(), targetName, surveyedTargetDistance,
surveyError * 1e3, sumOfAllConstantDelays, pulseEnergy,
processingSoftwareName, processingSoftwareVersion);
return CRD.handleNaN(str).replace(',', '.');
}
}
}