# Licensed under a 3-clause BSD style license - see LICENSE.rst
"""
===============
Euclid TAP plus
===============
European Space Astronomy Centre (ESAC)
European Space Agency (ESA)
"""
from astropy import config as _config
[docs]
class Conf(_config.ConfigNamespace):
"""
Configuration parameters for `astroquery.esa.euclid`.
"""
ROW_LIMIT = _config.ConfigItem(50,
"Number of rows to return from database query (set to -1 for unlimited).")
USE_NAMES_OVER_IDS = _config.ConfigItem(True,
"When converting from an astropy.io.votable.tree.TableElement object to "
"an astropy.table.Table object, you can specify whether to give "
"preference to name or ID attributes when naming the columns. By default, "
"ID is given preference. To give name preference, set the value to True:")
ENVIRONMENTS = {'IDR': {'url_server': 'https://easidr.esac.esa.int/', 'main_table': 'catalogue.mer_catalogue',
'main_table_ra_column': 'right_ascension', 'main_table_dec_column': 'declination'},
'OTF': {'url_server': 'https://easotf.esac.esa.int/', 'main_table': 'catalogue.mer_catalogue',
'main_table_ra_column': 'right_ascension', 'main_table_dec_column': 'declination'},
'REG': {'url_server': 'https://easreg.esac.esa.int/',
'main_table': 'catalogue.mer_final_catalog_fits_file_regreproc1_r2',
'main_table_ra_column': 'right_ascension', 'main_table_dec_column': 'declination'},
'PDR': {'url_server': 'https://eas.esac.esa.int/', 'main_table': 'catalogue.mer_catalogue',
'main_table_ra_column': 'right_ascension', 'main_table_dec_column': 'declination'}
}
OBSERVATION_STACK_PRODUCTS = ['DpdNirStackedFrame', 'DpdVisStackedFrame']
MOSAIC_PRODUCTS = ['DpdMerBksMosaic']
BASIC_DOWNLOAD_DATA_PRODUCTS = ['dpdPhzPfOutputForL3', 'dpdPhzPfOutputCatalog', 'dpdMerFinalCatalog',
'dpdSpePfOutputCatalog', 'dpdSheLensMcChains', 'dpdHealpixBitMaskVMPZ',
'dpdHealpixFootprintMaskVMPZ', 'dpdHealpixCoverageVMPZ', 'dpdHealpixDepthMapVMPZ',
'dpdHealpixInfoMapVMPZ', 'dpdSheBiasParams', 'dpdSheLensMcFinalCatalog',
'dpdSheLensMcRawCatalog', 'dpdSheMetaCalFinalCatalog', 'dpdSheMetaCalRawCatalog',
'dpdSleDetectionOutput', 'dpdSleModelOutput']
MER_SEGMENTATION_MAP_PRODUCTS = ['DpdMerSegmentationMap']
RAW_FRAME_PRODUCTS = ['dpdVisRawFrame', 'dpdNispRawFrame']
CALIBRATED_FRAME_PRODUCTS = ['DpdVisCalibratedQuadFrame', 'DpdNirCalibratedFrame']
FRAME_CATALOG_PRODUCTS = ['DpdNirStackedFrameCatalog', 'DpdVisStackedFrameCatalog', 'DpdNirCalibratedFrameCatalog',
'DpdVisCalibratedFrameCatalog']
COMBINED_SPECTRA_PRODUCTS = ['DpdSirCombinedSpectra']
SIR_SCIENCE_FRAME_PRODUCTS = ['dpdSirScienceFrame']
VALID_LE3_PRODUCT_TYPES_CATEGORIES_GROUPS = {
'Clusters of Galaxies': {
'GrpCatalog': ['DpdLE3clAMICOModel', 'DpdLE3clDetMergeParams', 'DpdLE3clDetOnMockParams',
'DpdLE3clDetInputParams', 'DpdLE3clAmicoAux', 'DpdLE3clAssociations', 'DpdLE3clPzwavAux',
'DpdLE3clPZWAVDensity', 'DpdLE3clDetClusters', 'DpdLE3FullDet', 'DpdLE3clCatMergeParams',
'DpdLE3clCATParams', 'DpdLE3clCcpInputParams', 'DpdLE3clRichMembers', 'DpdLE3clZClParams',
'DpdLE3clGlueMatchParams', 'DpdLE3clMockGlueMatchParams'],
'GrpClustering': ['DDpdLE3clPkDOA', 'DpdLE3clCovmatTwoPointCov2', 'DpdLE3clPkYam',
'DpdLE3clTwoPointAutoCorrPol', 'DpolDpdLE3clCovmatPKCov1'],
'GrpCOMB': ['DpdLE3clCombConfigurationSet', 'DpdLE3clCombCovMatDeltaSigmaCosmoDep',
'DpdLE3clCombCovMatReducedShearCosmoDep', 'DpdLE3clCombCovMatReducedShearCosmoIndep',
'DpdLE3clCombRedSheProf', 'DpdLE3clCombStackingCosmoDep', 'DpdLE3clCombStackingCosmoInd',
'DpdLE3clCombUCovRedSheProf', 'DpdLE3clCombWLME'],
'GrpLMF': ['DpdLE3clLMFOutput', 'DpdLE3clLMFParams'],
'GrpSEL': ['DpdLE3clMatchForSelParams', 'DpdLE3clMockClusters', 'DpdLE3clRedshiftDistrib',
'DpdLE3clSelRandom', 'DpdLE3clSelRandomParams', 'DpdLE3clSelSelFunc',
'DpdLE3clSelSelFuncInputParams', 'DpdLE3clSelSinfoniaIniClMockInputParams',
'DpdLE3clSelSinfoniaMockInputParams', 'DpdLE3clSelSubSample', 'DpdLE3clSinfoniaEllipticity'],
'GrpTiling': ['DpdLE3clCLTile', 'DpdLE3clCommon', 'DpdLE3clConfigurationSet']},
'External Data Products': {
'LE3-ED configuration catalog': ['DpdLE3edConfigurationFile'],
'LE3-ED match catalog': ['DpdLE3edMatchedCatalog']},
'Galaxy Clustering Products': {
'2PCF_PK': ['DpdLE3gcPkCross', 'DpdLE3gcPkDOA', 'DpdLE3gcPkYam', 'DpdLE3gcTwoPointAutoCorr',
'DpdLE3gcTwoPointAutoCorrCart', 'DpdLE3gcTwoPointAutoCorrPol', 'DpdLE3gcTwoPointCrossCorr',
'DpdLE3gcTwoPointCrossCorrCart', 'DpdLE3gcTwoPointCrossCorrPol', 'DpdLE3gcTwoPointRecAutoCorr',
'DpdLE3gcTwoPointRecAutoCorrCart', 'DpdLE3gcTwoPointRecAutoCorrPol',
'DpdLE3gcTwoPointRecCrossCorr', 'DpdLE3gcTwoPointRecCrossCorrCart',
'DpdLE3gcTwoPointRecCrossCorrPol'],
'3PCF_BK': ['DpdLE3gcBkMonopole', 'DpdLE3gcBkMultipole', 'DpdLE3gcThreePointAll', 'DpdLE3gcThreePointSin'],
'CM-2PCF': ['DpdLE3gcCovmatTwoPointCov1D', 'DpdLE3gcCovmatTwoPointCov2Dcart',
'DpdLE3gcCovmatTwoPointCov2Dpol', 'DpdLE3gcCovmatTwoPointCovMu',
'DpdLE3gcCovmatTwoPointCovPro'],
'CM-PK': ['DpdLE3gcCovmatPKCov1D', 'DpdLE3gcCovmatPKCov2Dcart', 'DpdLE3gcCovmatPKCov2Dpol']},
'Internal Data Products': {
'SEL Config/Stats': ['DpdLE3IDSELConfigurationSet', 'DpdLE3IDSELIDStatistics'],
'SEL Wide Main': ['DpdLE3IDSELIDCatalog'],
'SEL Wide': ['DpdLE3IDSELIDSubsampledCatalog'],
'VMSP Group': ['DpdLE3IDVMSPConfiguration', 'DpdLE3IDVMSPDetectionModel', 'DpdLE3IDVMSPDistModel',
'DpdLE3IDVMSPRandomCatalog']},
'Weak Lensing Products': {
'2D-MASS': ['DpdTwoDMassConvergenceClusters', 'DpdTwoDMassConvergencePatch',
'DpdTwoDMassConvergencePatchesToSphere', 'DpdTwoDMassConvergenceSphere',
'DpdTwoDMassParamsConvergenceClusters', 'DpdTwoDMassParamsConvergencePatch',
'DpdTwoDMassParamsConvergencePatchesToSphere', 'DpdTwoDMassParamsConvergenceSphere',
'DpdTwoDMassParamsPeakCatalogConvergence', 'DpdTwoDMassParamsPeakCatalogMassAperture',
'DpdTwoDMassPeakCatalog'],
'2PCF': ['DpdTwoPCFWLCOSEBIFilter', 'DpdTwoPCFWLParamsCOSEBIShearShear2D', 'DpdTwoPCFWLParamsClPosPos2D',
'DpdTwoPCFWLParamsPEBPosShear2D', 'DpdTwoPCFWLParamsPEBShearShear2D', 'DpdTwoPCFWLParamsPosPos2D',
'DpdTwoPCFWLParamsPosShear2D', 'DpdTwoPCFWLParamsShearShear2D', 'DpdTwoPCFWLCOSEBIShearShear2D',
'DpdTwoPCFWLClPosPos2D', 'DpdTwoPCFWLPEBPosShear2D', 'DpdTwoPCFWLPEBShearShear2D',
'DpdTwoPCFWLPosPos2D', 'DpdTwoPCFWLPosShear2D', 'DpdTwoPCFWLShearShear2D',
'DpdCovarTwoPCFWLParams', 'DpdCovarTwoPCFWLClPosPos2D', 'DpdCovarTwoPCFWLCOSEBIShearShear2D',
'DpdCovarTwoPCFWLPEBPosShear2D', 'DpdCovarTwoPCFWLPEBShearShear2D',
'DpdCovarTwoPCFWLPosPos2D', 'DpdCovarTwoPCFWLPosShear2D', 'DpdCovarTwoPCFWLShearShear2D',
'DpdCovarTwoPCFWLResampleCOSEBIShearShear2D', 'DpdCovarTwoPCFWLResampleClPosPos2D',
'DpdCovarTwoPCFWLResamplePEBPosShear2D', 'DpdCovarTwoPCFWLResamplePEBShearShear2D',
'DpdCovarTwoPCFWLResamplePosPos2D', 'DpdCovarTwoPCFWLResamplePosShear2D',
'DpdCovarTwoPCFWLResampleShearShear2D'],
'PK': ['DpdPKWLAlms', 'DpdPKWLCovMatrix2D', 'DpdPKWLEstimate2D', 'DpdPKWLMaps', 'DpdPKWLMixingMatrix2D']},
'PHZ': {
'PHZ': ['DpdBinMeanRedshift', 'DpdReferenceSample', 'DpdTomographicBins']}
}
PRODUCT_TYPES = ['observation', 'mosaic']
SCHEMAS = ['sedm']
VALID_DATALINK_RETRIEVAL_TYPES = ['SPECTRA_BGS', 'SPECTRA_RGS']
conf = Conf()
from .core import Euclid, EuclidClass
__all__ = ['Euclid', 'EuclidClass', 'Conf', 'conf']