def getAk(self,distance=None,map='marshall',law='Fitz2004Chiar2006'): ''' Helper method to retrieve the Ak extinction magnitude for a given distance. The Ak values are saved in the sed object, to cut down the overhead in subsequent calls. The law and map have to be passed as well. Defaults are marshall and Fitz2004Chiar2006 respectively. @param distance: The distance to the source. If the default, the total extinction is calculated in given direction. (default: None) @type distance: float @keyword map: The galactic 3d extinction model. (default: 'marshall') @type map: str @keyword law: The reddening law (default: 'Fitz2004Chiar2006') @type law: str @return: The extinction magnitude in K-band for the requested distance. @rtype: float ''' distance = float(distance) if not self.ak.has_key((distance,map,law)): aki = Reddening.getAk(self.ll,self.bb,distance,map,law) self.ak[(distance,map,law)] = aki return self.ak[(distance,map,law)]
def getAk(self, distance=None, map='marshall', law='Fitz2004Chiar2006'): ''' Helper method to retrieve the Ak extinction magnitude for a given distance. The Ak values are saved in the sed object, to cut down the overhead in subsequent calls. The law and map have to be passed as well. Defaults are marshall and Fitz2004Chiar2006 respectively. @param distance: The distance to the source. If the default, the total extinction is calculated in given direction. (default: None) @type distance: float @keyword map: The galactic 3d extinction model. (default: 'marshall') @type map: str @keyword law: The reddening law (default: 'Fitz2004Chiar2006') @type law: str @return: The extinction magnitude in K-band for the requested distance. @rtype: float ''' distance = float(distance) if not self.ak.has_key((distance, map, law)): aki = Reddening.getAk(self.ll, self.bb, distance, map, law) self.ak[(distance, map, law)] = aki return self.ak[(distance, map, law)]