from PyAstronomy import pyaC from PyAstronomy.pyasl import _moduleImportStatus _modules = ["baraffe98tracks", "nasaExoplanetArchive", "exoplanetEU", \ "exoplanetsOrg", "kuruczModels", "fip", "sweet_cat"] for m in _modules: _moduleImportStatus[(__name__, m)] = pyaC.pyaimportallfrom( m, "PyAstronomy.pyasl.resBased", globals()) # from baraffe98tracks import * # from nasaExoplanetArchive import * # from exoplanetEU import * # from exoplanetsOrg import * # from kuruczModels import * # from fip import * # from sweet_cat import *
from PyAstronomy import pyaC from PyAstronomy.pyasl import _ic, _moduleImportStatus _modules = ["pizzolato2003", "expCorrRN", "ramirez2005", "stellarAge", "ballesterosBV_T", \ "abundances", "spectralClass", "mmscetsTable"] for m in _modules: _moduleImportStatus[(__name__, m)] = pyaC.pyaimportallfrom(m, "PyAstronomy.pyasl.asl.aslExt_1", globals()) if _ic.check["six"]: _moduleImportStatus[(__name__, "transCurves")] = pyaC.pyaimportallfrom("transCurves", "PyAstronomy.pyasl.asl.aslExt_1", globals())
from __future__ import print_function, division from PyAstronomy import pyaC from PyAstronomy.pyasl import _moduleImportStatus _modules = ["astroTimeLegacy", "airtovac", "aitoffLegacy", "folding", \ "keplerOrbit", "inTransit", "statTest", "binning", "smooth", \ "planet_Teq", "planck", "planetPhase", "fluxConversion", "lineOfSight", \ "lineOfSight", "dopplerShift", "fluxConversion", "baryvel"] _modules.extend(["idlMod", "idlCirrange", "rotBroad", "svd", "unred", "estimateSNR", \ "outlier", "intep", "magnitudes", "eq2hor", "sunpos", "observatory"]) _modules.extend(["moonpos", "moonphase", "localtime", "lineWidth", "cardinalPoint", \ "twilight", "angularDistance", "airmass", "decimalYear", "broad", \ "crosscorr", "quadextreme", "readFitsSpec", "posAngle", "sindex", \ "atomicNo", "coordinates", "writeFitsSpec", "aslExt_1"]) from .aslExt_1 import * for m in _modules: _moduleImportStatus[(__name__, m)] = pyaC.pyaimportallfrom(m, "PyAstronomy.pyasl.asl", globals())