import galsim import os import sys import numpy as np import astropy.constants as cons from astropy.table import Table from scipy import interpolate from ObservationSim.MockObject._util import integrate_sed_bandpass, getNormFactorForSpecWithABMAG, getObservedSED, getABMAG, tag_sed from ObservationSim.MockObject.MockObject import MockObject class Star(MockObject): def __init__(self, param, logger=None): super().__init__(param, logger=logger) if not hasattr(self, "mu"): self.mu = 1. def unload_SED(self): """(Test) free up SED memory """ del self.sed def getGSObj(self, psf, g1=0, g2=0, flux=None, filt=None, tel=None, exptime=150.): if flux == None: flux = self.getElectronFluxFilt(filt, tel, exptime) # star = galsim.Gaussian(sigma=1.e-8, flux=1.) star = galsim.DeltaFunction() star = star.withFlux(flux) final = galsim.Convolve(psf, star) return final def getGSObj_multiband(self, tel, psf_list, bandpass_list, filt, nphotons_tot=None, g1=0, g2=0, exptime=150.): if len(psf_list) != len(bandpass_list): raise ValueError( "!!!The number of PSF profiles and the number of bandpasses must be equal.") objs = [] if nphotons_tot == None: nphotons_tot = self.getElectronFluxFilt(filt, tel, exptime) try: full = integrate_sed_bandpass( sed=self.sed, bandpass=filt.bandpass_full) except Exception as e: print(e) self.logger.error(e) return -1 for i in range(len(bandpass_list)): bandpass = bandpass_list[i] psf = psf_list[i] try: sub = integrate_sed_bandpass(sed=self.sed, bandpass=bandpass) except Exception as e: print(e) self.logger.error(e) return -1 ratio = sub/full if not (ratio == -1 or (ratio != ratio)): nphotons = ratio * nphotons_tot else: return -1 star = galsim.DeltaFunction() star = star.withFlux(nphotons) star = galsim.Convolve(psf, star) objs.append(star) final = galsim.Sum(objs) return final