Granule.java
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/*
* This file is a part of EpnTAPClient.
* This program aims to provide EPN-TAP support for software clients, like CASSIS spectrum analyzer.
* See draft specifications: https://voparis-confluence.obspm.fr/pages/viewpage.action?pageId=559861
* Copyright (C) 2016 Institut de Recherche en Astrophysique et Planétologie.
*
* This program is free software: you can
* redistribute it and/or modify it under the terms of the GNU General Public License as published
* by the Free Software Foundation, either version 3 of the License, or (at your option) any later
* version. This program is distributed in the hope that it will be useful, but WITHOUT ANY
* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
* PURPOSE. See the GNU General Public License for more details. You should have received a copy of
* the GNU General Public License along with this program. If not, see
* <http://www.gnu.org/licenses/>.
*/
package eu.omp.irap.vespa.epntapclient.granule;
import java.util.Date;
/**
* @author N. Jourdane
*/
public class Granule {
/** Internal table row index. Unique ID in data service, also in v2. Can be alphanum. */
private String granuleUid;
/**
* Common to granules of same type (e.g. same map projection, or geometry data products). Can be
* alphanum.
*/
private String granuleGid;
/**
* Associates granules derived from the same data (e.g. various representations / processing
* levels). Can be alphanum., may be the ID of original observation.
*/
private String obsId;
/** Organization of the data product, from enumerated list. */
private String dataproductType;
/** Standard IAU name of target (from a list related to target class), case sensitive. */
private String targetName;
/** Type of target, from enumerated list. */
private String targetClass;
/**
* Acquisition start time (in JD). UTC measured at time_origin location (default is observer's
* frame)
*/
private Double timeMin;
/**
* Acquisition stop time (in JD). UTC measured at time_origin location (default is observer's
* frame).
*/
private Double timeMax;
/** Min time sampling step. */
private Double timeSamplingStepMin;
/** Max time sampling step. */
private Double timeSamplingStepMax;
/** Min integration time. */
private Double timeExpMin;
/** Max integration time. */
private Double timeExpMax;
/** Min spectral range (frequency). */
private Double spectralRangeMin;
/** Max spectral range (frequency). */
private Double spectralRangeMax;
/** Min spectral sampling step. */
private Double spectralSamplingStepMin;
/** Max spectral sampling step. */
private Double spectralSamplingStepMax;
/** Min spectral resolution. */
private Double spectralResolutionMin;
/** Max spectral resolution. */
private Double spectralResolutionMax;
/** Min of first coordinate. */
private Double c1Min;
/** Max of first coordinate. */
private Double c1Max;
/** Min of second coordinate. */
private Double c2Min;
/** Max of second coordinate. */
private Double c2Max;
/** Min of third coordinate. */
private Double c3Min;
/** Max of third coordinate. */
private Double c3Max;
/** ObsCore-like footprint, assume spatial_coordinate_description. */
private String sRegion;
/** Min resolution in first coordinate. */
private Double c1ResolMin;
/** Max resolution in first coordinate. */
private Double c1ResolMax;
/** Min resolution in second coordinate. */
private Double c2ResolMin;
/** Max resolution in second coordinate. */
private Double c2ResolMax;
/** Min resolution in third coordinate. */
private Double c3ResolMin;
/** Max resolution in third coordinate. */
private Double c3ResolMax;
/** Flavor of coordinate system, defines the nature of coordinates. From enumerated list. */
private String spatialFrameType;
/** Min incidence angle (solar zenithal angle). */
private Double incidenceMin;
/** Max incidence angle (solar zenithal angle). */
private Double incidenceMax;
/** Min emergence angle. */
private Double emergenceMin;
/** Max emergence angle. */
private Double emergenceMax;
/** Min phase angle. */
private Double phaseMin;
/** Max phase angle. */
private Double phaseMax;
/** Standard name of the observatory or spacecraft. */
private String instrumentHostName;
/** Standard name of instrument */
private String instrumentName;
/** UCD(s) defining the data */
private String measurementType;
/** CODMAC calibration level in v1 */
private Integer processingLevel;
/** Date of first entry of this granule */
private Date creationDate;
/** Date of last modification (used to handle mirroring) */
private Date modificationDate;
/** */
private Date releaseDate;
/** */
private String serviceTitle;
/** */
private String accessUrl;
/** */
private String accessFormat;
/** Estimate file size in kbyte (with this spelling) */
private int accessEstsize;
/**
* If access_format indicates a detached label, this parameter is mandatory and points to the
* corresponding data file - both will be handled by the client before samping it to tools or
* downloading
*/
private String dataAccessUrl;
/** MD5 Hash for the file when available (real file) */
private String accessMd5;
/** URL of a thumbnail image with predefined size (png ~200 pix, for use in a client only) */
private String thumbnailUrl;
/** Name of the data file only, case sensitive */
private String fileName;
/** Identifies a chemical species, case sensitive */
private String species;
/** Provides alternative target name if more common (e.g. comets) */
private String altTargetName;
/** */
private String targetRegion;
/** */
private String featureName;
/** Bibcode, doi, or other biblio id, URL */
private String bibReference;
/** */
private double ra;
/** Declination */
private double dec;
/** Min Solar longitude Ls (location on orbit / season) */
private double solarLongitudeMin;
/** Max Solar longitude Ls (location on orbit / season) */
private double solarLongitudeMax;
/** Local time at observed region */
private double localTimeMin;
/** Local time at observed region */
private double localTimeMax;
/** Observer-target distance */
private double targetDistanceMin;
/** Observer-target distance */
private double targetDistanceMax;
/** */
private double targetTimeMin;
/** */
private double targetTimeMax;
/** */
private String particleSpectralType;
/** */
private double particleSpectralRangeMin;
/** */
private double particleSpectralRangeMax;
/** */
private double particleSpectralSamplingStepMin;
/** */
private double particleSpectralSamplingStepMax;
/** */
private double particleSpectralResolutionMin;
/** */
private double particleSpectralResolutionMax;
/** Resource publisher */
private String publisher;
/** ID of specific coordinate system and version */
private String spatialCoordinateDescription;
/** Defines the frame origin */
private String spatialOrigin;
/** */
private String timeOrigin;
/** */
private String timeScale;
/**
* Constructor of Granule
*
* @param granuleUid The granule identifier.
*/
public Granule(String granuleUid) {
this.granuleUid = granuleUid;
}
/**
* @return the granuleUid
*/
public String getGranuleUid() {
return granuleUid;
}
/**
* @param granuleUid the granuleUid to set
*/
public void setGranuleUid(String granuleUid) {
this.granuleUid = granuleUid;
}
/**
* @return the granuleGid
*/
public String getGranuleGid() {
return granuleGid;
}
/**
* @param granuleGid the granuleGid to set
*/
public void setGranuleGid(String granuleGid) {
this.granuleGid = granuleGid;
}
/**
* @return the obsId
*/
public String getObsId() {
return obsId;
}
/**
* @param obsId the obsId to set
*/
public void setObsId(String obsId) {
this.obsId = obsId;
}
/**
* @return the dataproductType
*/
public String getDataproductType() {
return dataproductType;
}
/**
* @param dataproductType the dataproductType to set
*/
public void setDataproductType(String dataproductType) {
this.dataproductType = dataproductType;
}
/**
* @return the targetName
*/
public String getTargetName() {
return targetName;
}
/**
* @param targetName the targetName to set
*/
public void setTargetName(String targetName) {
this.targetName = targetName;
}
/**
* @return the targetClass
*/
public String getTargetClass() {
return targetClass;
}
/**
* @param targetClass the targetClass to set
*/
public void setTargetClass(String targetClass) {
this.targetClass = targetClass;
}
/**
* @return the timeMin
*/
public Double getTimeMin() {
return timeMin;
}
/**
* @param timeMin the timeMin to set
*/
public void setTimeMin(Double timeMin) {
this.timeMin = timeMin;
}
/**
* @return the timeMax
*/
public Double getTimeMax() {
return timeMax;
}
/**
* @param timeMax the timeMax to set
*/
public void setTimeMax(Double timeMax) {
this.timeMax = timeMax;
}
/**
* @return the timeSamplingStepMin
*/
public Double getTimeSamplingStepMin() {
return timeSamplingStepMin;
}
/**
* @param timeSamplingStepMin the timeSamplingStepMin to set
*/
public void setTimeSamplingStepMin(Double timeSamplingStepMin) {
this.timeSamplingStepMin = timeSamplingStepMin;
}
/**
* @return the timeSamplingStepMax
*/
public Double getTimeSamplingStepMax() {
return timeSamplingStepMax;
}
/**
* @param timeSamplingStepMax the timeSamplingStepMax to set
*/
public void setTimeSamplingStepMax(Double timeSamplingStepMax) {
this.timeSamplingStepMax = timeSamplingStepMax;
}
/**
* @return the timeExpMin
*/
public Double getTimeExpMin() {
return timeExpMin;
}
/**
* @param timeExpMin the timeExpMin to set
*/
public void setTimeExpMin(Double timeExpMin) {
this.timeExpMin = timeExpMin;
}
/**
* @return the timeExpMax
*/
public Double getTimeExpMax() {
return timeExpMax;
}
/**
* @param timeExpMax the timeExpMax to set
*/
public void setTimeExpMax(Double timeExpMax) {
this.timeExpMax = timeExpMax;
}
/**
* @return the spectralRangeMin
*/
public Double getSpectralRangeMin() {
return spectralRangeMin;
}
/**
* @param spectralRangeMin the spectralRangeMin to set
*/
public void setSpectralRangeMin(Double spectralRangeMin) {
this.spectralRangeMin = spectralRangeMin;
}
/**
* @return the spectralRangeMax
*/
public Double getSpectralRangeMax() {
return spectralRangeMax;
}
/**
* @param spectralRangeMax the spectralRangeMax to set
*/
public void setSpectralRangeMax(Double spectralRangeMax) {
this.spectralRangeMax = spectralRangeMax;
}
/**
* @return the spectralSamplingStepMin
*/
public Double getSpectralSamplingStepMin() {
return spectralSamplingStepMin;
}
/**
* @param spectralSamplingStepMin the spectralSamplingStepMin to set
*/
public void setSpectralSamplingStepMin(Double spectralSamplingStepMin) {
this.spectralSamplingStepMin = spectralSamplingStepMin;
}
/**
* @return the spectralSamplingStepMax
*/
public Double getSpectralSamplingStepMax() {
return spectralSamplingStepMax;
}
/**
* @param spectralSamplingStepMax the spectralSamplingStepMax to set
*/
public void setSpectralSamplingStepMax(Double spectralSamplingStepMax) {
this.spectralSamplingStepMax = spectralSamplingStepMax;
}
/**
* @return the spectralResolutionMin
*/
public Double getSpectralResolutionMin() {
return spectralResolutionMin;
}
/**
* @param spectralResolutionMin the spectralResolutionMin to set
*/
public void setSpectralResolutionMin(Double spectralResolutionMin) {
this.spectralResolutionMin = spectralResolutionMin;
}
/**
* @return the spectralResolutionMax
*/
public Double getSpectralResolutionMax() {
return spectralResolutionMax;
}
/**
* @param spectralResolutionMax the spectralResolutionMax to set
*/
public void setSpectralResolutionMax(Double spectralResolutionMax) {
this.spectralResolutionMax = spectralResolutionMax;
}
/**
* @return the c1Min
*/
public Double getC1Min() {
return c1Min;
}
/**
* @param c1Min the c1Min to set
*/
public void setC1Min(Double c1Min) {
this.c1Min = c1Min;
}
/**
* @return the c1Max
*/
public Double getC1Max() {
return c1Max;
}
/**
* @param c1Max the c1Max to set
*/
public void setC1Max(Double c1Max) {
this.c1Max = c1Max;
}
/**
* @return the c2Min
*/
public Double getC2Min() {
return c2Min;
}
/**
* @param c2Min the c2Min to set
*/
public void setC2Min(Double c2Min) {
this.c2Min = c2Min;
}
/**
* @return the c2Max
*/
public Double getC2Max() {
return c2Max;
}
/**
* @param c2Max the c2Max to set
*/
public void setC2Max(Double c2Max) {
this.c2Max = c2Max;
}
/**
* @return the c3Min
*/
public Double getC3Min() {
return c3Min;
}
/**
* @param c3Min the c3Min to set
*/
public void setC3Min(Double c3Min) {
this.c3Min = c3Min;
}
/**
* @return the c3Max
*/
public Double getC3Max() {
return c3Max;
}
/**
* @param c3Max the c3Max to set
*/
public void setC3Max(Double c3Max) {
this.c3Max = c3Max;
}
/**
* @return the sRegion
*/
public String getsRegion() {
return sRegion;
}
/**
* @param sRegion the sRegion to set
*/
public void setsRegion(String sRegion) {
this.sRegion = sRegion;
}
/**
* @return the c1ResolMin
*/
public Double getC1ResolMin() {
return c1ResolMin;
}
/**
* @param c1ResolMin the c1ResolMin to set
*/
public void setC1ResolMin(Double c1ResolMin) {
this.c1ResolMin = c1ResolMin;
}
/**
* @return the c1ResolMax
*/
public Double getC1ResolMax() {
return c1ResolMax;
}
/**
* @param c1ResolMax the c1ResolMax to set
*/
public void setC1ResolMax(Double c1ResolMax) {
this.c1ResolMax = c1ResolMax;
}
/**
* @return the c2ResolMin
*/
public Double getC2ResolMin() {
return c2ResolMin;
}
/**
* @param c2ResolMin the c2ResolMin to set
*/
public void setC2ResolMin(Double c2ResolMin) {
this.c2ResolMin = c2ResolMin;
}
/**
* @return the c2ResolMax
*/
public Double getC2ResolMax() {
return c2ResolMax;
}
/**
* @param c2ResolMax the c2ResolMax to set
*/
public void setC2ResolMax(Double c2ResolMax) {
this.c2ResolMax = c2ResolMax;
}
/**
* @return the c3ResolMin
*/
public Double getC3ResolMin() {
return c3ResolMin;
}
/**
* @param c3ResolMin the c3ResolMin to set
*/
public void setC3ResolMin(Double c3ResolMin) {
this.c3ResolMin = c3ResolMin;
}
/**
* @return the c3ResolMax
*/
public Double getC3ResolMax() {
return c3ResolMax;
}
/**
* @param c3ResolMax the c3ResolMax to set
*/
public void setC3ResolMax(Double c3ResolMax) {
this.c3ResolMax = c3ResolMax;
}
/**
* @return the spatialFrameType
*/
public String getSpatialFrameType() {
return spatialFrameType;
}
/**
* @param spatialFrameType the spatialFrameType to set
*/
public void setSpatialFrameType(String spatialFrameType) {
this.spatialFrameType = spatialFrameType;
}
/**
* @return the incidenceMin
*/
public Double getIncidenceMin() {
return incidenceMin;
}
/**
* @param incidenceMin the incidenceMin to set
*/
public void setIncidenceMin(Double incidenceMin) {
this.incidenceMin = incidenceMin;
}
/**
* @return the incidenceMax
*/
public Double getIncidenceMax() {
return incidenceMax;
}
/**
* @param incidenceMax the incidenceMax to set
*/
public void setIncidenceMax(Double incidenceMax) {
this.incidenceMax = incidenceMax;
}
/**
* @return the emergenceMin
*/
public Double getEmergenceMin() {
return emergenceMin;
}
/**
* @param emergenceMin the emergenceMin to set
*/
public void setEmergenceMin(Double emergenceMin) {
this.emergenceMin = emergenceMin;
}
/**
* @return the emergenceMax
*/
public Double getEmergenceMax() {
return emergenceMax;
}
/**
* @param emergenceMax the emergenceMax to set
*/
public void setEmergenceMax(Double emergenceMax) {
this.emergenceMax = emergenceMax;
}
/**
* @return the phaseMin
*/
public Double getPhaseMin() {
return phaseMin;
}
/**
* @param phaseMin the phaseMin to set
*/
public void setPhaseMin(Double phaseMin) {
this.phaseMin = phaseMin;
}
/**
* @return the phaseMax
*/
public Double getPhaseMax() {
return phaseMax;
}
/**
* @param phaseMax the phaseMax to set
*/
public void setPhaseMax(Double phaseMax) {
this.phaseMax = phaseMax;
}
/**
* @return the instrumentHostName
*/
public String getInstrumentHostName() {
return instrumentHostName;
}
/**
* @param instrumentHostName the instrumentHostName to set
*/
public void setInstrumentHostName(String instrumentHostName) {
this.instrumentHostName = instrumentHostName;
}
/**
* @return the instrumentName
*/
public String getInstrumentName() {
return instrumentName;
}
/**
* @param instrumentName the instrumentName to set
*/
public void setInstrumentName(String instrumentName) {
this.instrumentName = instrumentName;
}
/**
* @return the measurementType
*/
public String getMeasurementType() {
return measurementType;
}
/**
* @param measurementType the measurementType to set
*/
public void setMeasurementType(String measurementType) {
this.measurementType = measurementType;
}
/**
* @return the processingLevel
*/
public Integer getProcessingLevel() {
return processingLevel;
}
/**
* @param processingLevel the processingLevel to set
*/
public void setProcessingLevel(Integer processingLevel) {
this.processingLevel = processingLevel;
}
/**
* @return the creationDate
*/
public Date getCreationDate() {
return creationDate;
}
/**
* @param creationDate the creationDate to set
*/
public void setCreationDate(Date creationDate) {
this.creationDate = creationDate;
}
/**
* @return the modificationDate
*/
public Date getModificationDate() {
return modificationDate;
}
/**
* @param modificationDate the modificationDate to set
*/
public void setModificationDate(Date modificationDate) {
this.modificationDate = modificationDate;
}
/**
* @return the releaseDate
*/
public Date getReleaseDate() {
return releaseDate;
}
/**
* @param releaseDate the releaseDate to set
*/
public void setReleaseDate(Date releaseDate) {
this.releaseDate = releaseDate;
}
/**
* @return the serviceTitle
*/
public String getServiceTitle() {
return serviceTitle;
}
/**
* @param serviceTitle the serviceTitle to set
*/
public void setServiceTitle(String serviceTitle) {
this.serviceTitle = serviceTitle;
}
/**
* @return the accessUrl
*/
public String getAccessUrl() {
return accessUrl;
}
/**
* @param accessUrl the accessUrl to set
*/
public void setAccessUrl(String accessUrl) {
this.accessUrl = accessUrl;
}
/**
* @return the accessFormat
*/
public String getAccessFormat() {
return accessFormat;
}
/**
* @param accessFormat the accessFormat to set
*/
public void setAccessFormat(String accessFormat) {
this.accessFormat = accessFormat;
}
/**
* @return the accessEstsize
*/
public int getAccessEstsize() {
return accessEstsize;
}
/**
* @param accessEstsize the accessEstsize to set
*/
public void setAccessEstsize(int accessEstsize) {
this.accessEstsize = accessEstsize;
}
/**
* @return the dataAccessUrl
*/
public String getDataAccessUrl() {
return dataAccessUrl;
}
/**
* @param dataAccessUrl the dataAccessUrl to set
*/
public void setDataAccessUrl(String dataAccessUrl) {
this.dataAccessUrl = dataAccessUrl;
}
/**
* @return the accessMd5
*/
public String getAccessMd5() {
return accessMd5;
}
/**
* @param accessMd5 the accessMd5 to set
*/
public void setAccessMd5(String accessMd5) {
this.accessMd5 = accessMd5;
}
/**
* @return the thumbnailUrl
*/
public String getThumbnailUrl() {
return thumbnailUrl;
}
/**
* @param thumbnailUrl the thumbnailUrl to set
*/
public void setThumbnailUrl(String thumbnailUrl) {
this.thumbnailUrl = thumbnailUrl;
}
/**
* @return the fileName
*/
public String getFileName() {
return fileName;
}
/**
* @param fileName the fileName to set
*/
public void setFileName(String fileName) {
this.fileName = fileName;
}
/**
* @return the species
*/
public String getSpecies() {
return species;
}
/**
* @param species the species to set
*/
public void setSpecies(String species) {
this.species = species;
}
/**
* @return the altTargetName
*/
public String getAltTargetName() {
return altTargetName;
}
/**
* @param altTargetName the altTargetName to set
*/
public void setAltTargetName(String altTargetName) {
this.altTargetName = altTargetName;
}
/**
* @return the targetRegion
*/
public String getTargetRegion() {
return targetRegion;
}
/**
* @param targetRegion the targetRegion to set
*/
public void setTargetRegion(String targetRegion) {
this.targetRegion = targetRegion;
}
/**
* @return the featureName
*/
public String getFeatureName() {
return featureName;
}
/**
* @param featureName the featureName to set
*/
public void setFeatureName(String featureName) {
this.featureName = featureName;
}
/**
* @return the bibReference
*/
public String getBibReference() {
return bibReference;
}
/**
* @param bibReference the bibReference to set
*/
public void setBibReference(String bibReference) {
this.bibReference = bibReference;
}
/**
* @return the ra
*/
public double getRa() {
return ra;
}
/**
* @param ra the ra to set
*/
public void setRa(double ra) {
this.ra = ra;
}
/**
* @return the dec
*/
public double getDec() {
return dec;
}
/**
* @param dec the dec to set
*/
public void setDec(double dec) {
this.dec = dec;
}
/**
* @return the solarLongitudeMin
*/
public double getSolarLongitudeMin() {
return solarLongitudeMin;
}
/**
* @param solarLongitudeMin the solarLongitudeMin to set
*/
public void setSolarLongitudeMin(double solarLongitudeMin) {
this.solarLongitudeMin = solarLongitudeMin;
}
/**
* @return the solarLongitudeMax
*/
public double getSolarLongitudeMax() {
return solarLongitudeMax;
}
/**
* @param solarLongitudeMax the solarLongitudeMax to set
*/
public void setSolarLongitudeMax(double solarLongitudeMax) {
this.solarLongitudeMax = solarLongitudeMax;
}
/**
* @return the localTimeMin
*/
public double getLocalTimeMin() {
return localTimeMin;
}
/**
* @param localTimeMin the localTimeMin to set
*/
public void setLocalTimeMin(double localTimeMin) {
this.localTimeMin = localTimeMin;
}
/**
* @return the localTimeMax
*/
public double getLocalTimeMax() {
return localTimeMax;
}
/**
* @param localTimeMax the localTimeMax to set
*/
public void setLocalTimeMax(double localTimeMax) {
this.localTimeMax = localTimeMax;
}
/**
* @return the targetDistanceMin
*/
public double getTargetDistanceMin() {
return targetDistanceMin;
}
/**
* @param targetDistanceMin the targetDistanceMin to set
*/
public void setTargetDistanceMin(double targetDistanceMin) {
this.targetDistanceMin = targetDistanceMin;
}
/**
* @return the targetDistanceMax
*/
public double getTargetDistanceMax() {
return targetDistanceMax;
}
/**
* @param targetDistanceMax the targetDistanceMax to set
*/
public void setTargetDistanceMax(double targetDistanceMax) {
this.targetDistanceMax = targetDistanceMax;
}
/**
* @return the targetTimeMin
*/
public double getTargetTimeMin() {
return targetTimeMin;
}
/**
* @param targetTimeMin the targetTimeMin to set
*/
public void setTargetTimeMin(double targetTimeMin) {
this.targetTimeMin = targetTimeMin;
}
/**
* @return the targetTimeMax
*/
public double getTargetTimeMax() {
return targetTimeMax;
}
/**
* @param targetTimeMax the targetTimeMax to set
*/
public void setTargetTimeMax(double targetTimeMax) {
this.targetTimeMax = targetTimeMax;
}
/**
* @return the particleSpectralType
*/
public String getParticleSpectralType() {
return particleSpectralType;
}
/**
* @param particleSpectralType the particleSpectralType to set
*/
public void setParticleSpectralType(String particleSpectralType) {
this.particleSpectralType = particleSpectralType;
}
/**
* @return the particleSpectralRangeMin
*/
public double getParticleSpectralRangeMin() {
return particleSpectralRangeMin;
}
/**
* @param particleSpectralRangeMin the particleSpectralRangeMin to set
*/
public void setParticleSpectralRangeMin(double particleSpectralRangeMin) {
this.particleSpectralRangeMin = particleSpectralRangeMin;
}
/**
* @return the particleSpectralRangeMax
*/
public double getParticleSpectralRangeMax() {
return particleSpectralRangeMax;
}
/**
* @param particleSpectralRangeMax the particleSpectralRangeMax to set
*/
public void setParticleSpectralRangeMax(double particleSpectralRangeMax) {
this.particleSpectralRangeMax = particleSpectralRangeMax;
}
/**
* @return the particleSpectralSamplingStepMin
*/
public double getParticleSpectralSamplingStepMin() {
return particleSpectralSamplingStepMin;
}
/**
* @param particleSpectralSamplingStepMin the particleSpectralSamplingStepMin to set
*/
public void setParticleSpectralSamplingStepMin(double particleSpectralSamplingStepMin) {
this.particleSpectralSamplingStepMin = particleSpectralSamplingStepMin;
}
/**
* @return the particleSpectralSamplingStepMax
*/
public double getParticleSpectralSamplingStepMax() {
return particleSpectralSamplingStepMax;
}
/**
* @param particleSpectralSamplingStepMax the particleSpectralSamplingStepMax to set
*/
public void setParticleSpectralSamplingStepMax(double particleSpectralSamplingStepMax) {
this.particleSpectralSamplingStepMax = particleSpectralSamplingStepMax;
}
/**
* @return the particleSpectralResolutionMin
*/
public double getParticleSpectralResolutionMin() {
return particleSpectralResolutionMin;
}
/**
* @param particleSpectralResolutionMin the particleSpectralResolutionMin to set
*/
public void setParticleSpectralResolutionMin(double particleSpectralResolutionMin) {
this.particleSpectralResolutionMin = particleSpectralResolutionMin;
}
/**
* @return the particleSpectralResolutionMax
*/
public double getParticleSpectralResolutionMax() {
return particleSpectralResolutionMax;
}
/**
* @param particleSpectralResolutionMax the particleSpectralResolutionMax to set
*/
public void setParticleSpectralResolutionMax(double particleSpectralResolutionMax) {
this.particleSpectralResolutionMax = particleSpectralResolutionMax;
}
/**
* @return the publisher
*/
public String getPublisher() {
return publisher;
}
/**
* @param publisher the publisher to set
*/
public void setPublisher(String publisher) {
this.publisher = publisher;
}
/**
* @return the spatialCoordinateDescription
*/
public String getSpatialCoordinateDescription() {
return spatialCoordinateDescription;
}
/**
* @param spatialCoordinateDescription the spatialCoordinateDescription to set
*/
public void setSpatialCoordinateDescription(String spatialCoordinateDescription) {
this.spatialCoordinateDescription = spatialCoordinateDescription;
}
/**
* @return the spatialOrigin
*/
public String getSpatialOrigin() {
return spatialOrigin;
}
/**
* @param spatialOrigin the spatialOrigin to set
*/
public void setSpatialOrigin(String spatialOrigin) {
this.spatialOrigin = spatialOrigin;
}
/**
* @return the timeOrigin
*/
public String getTimeOrigin() {
return timeOrigin;
}
/**
* @param timeOrigin the timeOrigin to set
*/
public void setTimeOrigin(String timeOrigin) {
this.timeOrigin = timeOrigin;
}
/**
* @return the timeScale
*/
public String getTimeScale() {
return timeScale;
}
/**
* @param timeScale the timeScale to set
*/
public void setTimeScale(String timeScale) {
this.timeScale = timeScale;
}
/**
* A granule is valid if all mandatory parameters are filled.
*
* @return true if the Granule is valid, false otherwise.
*/
public boolean isValid() {
boolean valid = granuleUid != null && granuleGid != null && obsId != null;
valid = valid && dataproductType != null && targetName != null && targetClass != null;
valid = valid && timeMin != null && timeMax != null;
valid = valid && timeSamplingStepMin != null && timeSamplingStepMax != null;
valid = valid && timeExpMin != null && timeExpMax != null;
valid = valid && spectralRangeMin != null && spectralRangeMax != null;
valid = valid && timeSamplingStepMin != null && timeSamplingStepMax != null;
valid = valid && spectralResolutionMin != null && spectralResolutionMax != null;
valid = valid && c1Min != null && c1Max != null;
valid = valid && c2Min != null && c2Max != null;
valid = valid && c3Min != null && c3Max != null;
valid = valid && sRegion != null;
valid = valid && c1ResolMin != null && c1ResolMax != null;
valid = valid && c2ResolMin != null && c2ResolMax != null;
valid = valid && c3ResolMin != null && c3ResolMax != null;
valid = valid && spatialFrameType != null;
valid = valid && incidenceMin != null && incidenceMax != null;
valid = valid && emergenceMin != null && emergenceMax != null;
valid = valid && phaseMin != null && phaseMax != null;
valid = valid && instrumentHostName != null && instrumentName != null;
valid = valid && measurementType != null && processingLevel != null;
valid = valid && creationDate != null && modificationDate != null;
valid = valid && releaseDate != null && serviceTitle != null;
return valid;
}
@Override
public String toString() {
return granuleUid;
}
}