Source code for esbo_etc.classes.target.ATarget

from abc import abstractmethod
from ..IRadiant import IRadiant
from ..SpectralQty import SpectralQty
import astropy.units as u
import numpy as np
from ...lib.logger import logger
from typing import Tuple
from ..Entry import Entry


[docs]class ATarget(IRadiant): """ Abstract super class for target models """ @abstractmethod @u.quantity_input(wl_bins="length") def __init__(self, sfd: SpectralQty, wl_bins: u.Quantity): """ Initialize a new target Parameters ---------- sfd : SpectralQty The spectral flux density of the target wl_bins : length-Quantity The bins to be used for evaluating spectral quantities. """ self.__sfd = sfd self.__wl_bins = wl_bins
[docs] def calcBackground(self) -> SpectralQty: """ Calculate the spectral radiance of the target's background Returns ------- background : SpectralQty The spectral radiance of the target's background """ logger.info("Calculating background for class '" + self.__class__.__name__ + "'.") background = SpectralQty(self.__wl_bins, np.repeat(0, len(self.__wl_bins)) << u.W / (u.m**2 * u.nm * u.sr)) logger.debug(background) return background
[docs] def calcSignal(self) -> Tuple[SpectralQty, float]: """ Calculate the spectral flux density of the target's signal Returns ------- signal : SpectralQty The spectral flux density of the target's signal obstruction : float The obstruction factor as A_ob / A_ap. """ logger.info("Calculating signal for class '" + self.__class__.__name__ + "'.") logger.debug(self.__sfd) return self.__sfd, 0.0
[docs] @staticmethod @abstractmethod def check_config(conf: Entry) -> bool: """ Check the configuration for this class Parameters ---------- conf : Entry The configuration entry to be checked. Returns ------- mes : Union[None, str] The error message of the check. This will be None if the check was successful. """ pass