from ..IRadiant import IRadiant from ..Entry import Entry from .ASensor import ASensor from .Imager import Imager from .Heterodyne import Heterodyne from ...lib.logger import logger class SensorFactory: """ A Factory creating objects of the type ASensor """ def __init__(self, parent: IRadiant, common_conf: Entry): """ Instantiate a new factory object """ self.__common_conf = common_conf self.__parent = parent def create(self, options: Entry) -> ASensor: """ Create a new object of the type ASensor Parameters ---------- options : Entry The options to be used as parameters for the instantiation of the new object. Returns ------- obj : ASensor The created sensor object """ if options.type == "Imager": args = dict(parent=self.__parent, quantum_efficiency=options.pixel.quantum_efficiency(), pixel_geometry=options.pixel_geometry(), pixel_size=options.pixel.pixel_size(), read_noise=options.pixel.sigma_read_out(), dark_current=options.pixel.dark_current(), well_capacity=options.pixel.well_capacity(), f_number=options.f_number(), common_conf=self.__common_conf) if hasattr(options, "center_offset"): # noinspection PyCallingNonCallable args["center_offset"] = options.center_offset() if hasattr(options, "photometric_aperture"): if hasattr(options.photometric_aperture, "shape") and isinstance( options.photometric_aperture.shape, Entry): args["shape"] = options.photometric_aperture.shape() if hasattr(options.photometric_aperture, "contained_energy") and isinstance( options.photometric_aperture.contained_energy, Entry): args["contained_energy"] = options.photometric_aperture.contained_energy() if hasattr(options.photometric_aperture, "contained_pixels") and isinstance( options.photometric_aperture.contained_pixels, Entry): args["contained_pixels"] = options.photometric_aperture.contained_pixels() return Imager(**args) elif options.type == "Heterodyne": args = dict(parent=self.__parent, aperture_efficiency=options.aperture_efficiency(), main_beam_efficiency=options.main_beam_efficiency(), receiver_temp=options.receiver_temp(), eta_fss=options.eta_fss(), lambda_line=options.lambda_line(), kappa=options.kappa(), common_conf=self.__common_conf) if hasattr(options, "n_on"): # noinspection PyCallingNonCallable args["n_on"] = options.n_on() return Heterodyne(**args) else: logger.error("Wrong sensor type: " + options.type)