#!/usr/bin/env python3 # # Copyright (c) 2017 Weitian LI # MIT license """ Cosmology calculator with support of Chandra ACIS-specific quantities. """ import sys import argparse from collections import OrderedDict from _context import acispy from acispy.cosmo import Calculator # Supported quantities QUANTITIES = OrderedDict([ ("luminosity_distance", { "unit": "Mpc", "label": "Luminosity distance", "kwargs": ["z", "unit"], }), ("angular_diameter_distance", { "unit": "Mpc", "label": "Angular diameter distance", "kwargs": ["z", "unit"], }), ("kpc_per_arcsec", { "unit": None, "label": "kpc/arcsec (DA)", "kwargs": ["z"], }), ("kpc_per_pix", { "unit": None, "label": "kpc/pix (DA)", "kwargs": ["z"], }), ("cm_per_pix", { "unit": None, "label": "cm/pix (DA)", "kwargs": ["z"], }), ("norm_apec", { "unit": "cm^-5", "label": "norm (APEC)", "kwargs": ["z"], }), ]) def get_quantities(args): # convert ``argparse.Namespace`` to a dictionary args = vars(args) q_all = list(QUANTITIES.keys()) q_active = [q for q in q_all if args[q]] if len(q_active) == 0: q_active = q_all return q_active def calc_quantity(q, calculator, args): args = vars(args) kwargs = {arg: args[arg] for arg in QUANTITIES[q]["kwargs"] if args[arg] is not None} value = getattr(calculator, q)(**kwargs) label = QUANTITIES[q]["label"] unit = args["unit"] if args["unit"] is not None else QUANTITIES[q]["unit"] if args["brief"]: print(value) else: print("%s: %s # [%s]" % (label, value, unit)) def main(): parser = argparse.ArgumentParser( description="Cosmology calculator with Chandra-specific quantities") parser.add_argument("-H", "--hubble", dest="H0", type=float, default=71.0, help="Present-day Hubble parameter " + "(default: 71 km/s/Mpc)") parser.add_argument("-M", "--omega-m", dest="Om0", type=float, default=0.27, help="Present-day matter density (default: 0.27") parser.add_argument("-b", "--brief", dest="brief", action="store_true", help="be brief") parser.add_argument("-U", "--unit", dest="unit", help="unit for output quantity if supported") parser.add_argument("-L", "--luminosity-distance", dest="luminosity_distance", action="store_true", help="calculate the luminosity distance (DL)") parser.add_argument("-A", "--angular-diameter-distance", dest="angular_diameter_distance", action="store_true", help="calculate the angular diameter distance (DA)") parser.add_argument("--kpc-per-arcsec", dest="kpc_per_arcsec", action="store_true", help="calculate the transversal length [kpc] " + "w.r.t. 1 arcsec at DA(z)") parser.add_argument("--kpc-per-pix", dest="kpc_per_pix", action="store_true", help="calculate the transversal length [kpc] " + "w.r.t. 1 ACIS pixel (0.492 arcsec) at DA(z)") parser.add_argument("--cm-per-pix", dest="cm_per_pix", action="store_true", help="calculate the transversal length [cm] " + "w.r.t. 1 ACIS pixel (0.492 arcsec) at DA(z)") parser.add_argument("--norm-apec", dest="norm_apec", action="store_true", help="calculate the normalization factor " + "of the XSPEC APEC model assuming EM=1") parser.add_argument("z", type=float, help="redshift") args = parser.parse_args() cosmocalc = Calculator(H0=args.H0, Om0=args.Om0) q_active = get_quantities(args) if len(q_active) > 1: if args.unit is not None: args.unit = None print("WARNING: ignored argument --unit", file=sys.stderr) if args.brief: args.brief = False print("WARNING: ignored argument --brief", file=sys.stderr) for q in q_active: calc_quantity(q=q, calculator=cosmocalc, args=args) if __name__ == "__main__": main()