Catalog.py

import os
import numpy as np
import random
import galsim
import h5py as h5
import healpy as hp
from .Star import Star
from .Galaxy import Galaxy
from .Quasar import Quasar
from ._util import seds, sed_assign, extAv
from astropy.table import Table
from astropy.coordinates import spherical_to_cartesian

nside = 128

class Catalog(object):
    def __init__(self, config, chip, cat_dir, sed_dir, pRa, pDec, rotation=None, template_dir=None):
        self.cat_dir = cat_dir
        self.sed_dir = sed_dir
        self.chip = chip
        
        self.template_dir = template_dir
        self.seed_Av = config["seed_Av"]
        
        self.pRa = float('{:8.4f}'.format(pRa))
        self.pDec = float('{:8.4f}'.format(pDec))

        # star_file = 'stars_ccd' + chip.getChipLabel(chip.chipID) + '_p_RA'+str(self.pRa) + '_DE' + str(self.pDec) + '.hdf5'
        # galaxy_file = 'galaxies_ccd' + chip.getChipLabel(chip.chipID) + '_p_RA'+str(self.pRa) + '_DE' + str(self.pDec) + '.hdf5'
        # star_file = 'MMW_Cluster_D20_10_healpix.hdf5'
        star_file = 'MMW_Cluster_D20_healpix_21.hdf5'
        galaxy_file = 'galaxyCats_r_10.0_healpix.hdf5'
        star_SED_file = 'SpecLib.hdf5'
        self.star_path = os.path.join(cat_dir, star_file)
        self.galaxy_path = os.path.join(cat_dir, galaxy_file)
        self.star_SED_path = os.path.join(cat_dir, star_SED_file)
        self.rotation = rotation
        self._load_SED_lib_gals()
        self._load_SED_lib_star()
        # self._load_SED_info()
        self._get_healpix_list()
        self._load()

    def _get_healpix_list(self):
        self.sky_coverage = self.chip.getSkyCoverageEnlarged(self.chip.img.wcs, margin=0.2)
        # self.sky_coverage_enlarged = self.chip.getSkyCoverageEnlarged(self.chip.img.wcs, margin=0.5)
        ra_min, ra_max, dec_min, dec_max = self.sky_coverage.xmin, self.sky_coverage.xmax, self.sky_coverage.ymin, self.sky_coverage.ymax
        ra = np.deg2rad(np.array([ra_min, ra_max, ra_max, ra_min]))
        dec = np.deg2rad(np.array([dec_max, dec_max, dec_min, dec_min]))
        # phi, theta = ra, np.pi/2. - dec
        # vertices_pix = np.unique(hp.ang2pix(nside, theta, phi))
        # print(vertices_pix)
        vertices = spherical_to_cartesian(1., dec, ra)
        self.pix_list = hp.query_polygon(nside, np.array(vertices).T, inclusive=True)
        print("HEALPix List: ", self.pix_list)

    def _load_SED_lib_star(self):
        self.tempSED_star = h5.File(self.star_SED_path,'r')

    def _load_SED_lib_gals(self):
        tempdir_gal = os.path.join(self.template_dir, "Galaxy/")
        # tempdir_star = os.path.join(self.template_dir, "PicklesStars/")
        self.tempSed_gal, self.tempRed_gal = seds("galaxy.list", seddir=tempdir_gal)
        # self.tempSed_star, self.tempRed_star = seds("star.list", seddir=tempdir_star)

    def _load_SED_info(self):
        sed_info_file = os.path.join(self.sed_dir, "sed.info")
        sed_info = Table.read(sed_info_file, format="ascii")
        self.cosids = sed_info["IDCosmoDC2"]
        self.objtypes = sed_info["objType"]

    def _load_gals(self, gals, pix_id=None):
        ngals = len(gals['galaxyID'])
        self.rng_sedGal = random.Random()
        self.rng_sedGal.seed(pix_id) # Use healpix index as the random seed
        self.ud = galsim.UniformDeviate(pix_id)
        # print(ngals)
        for igals in range(ngals):
            param = {}
            param['ra'] = gals['ra_true'][igals]
            param['dec'] = gals['dec_true'][igals]
            param['z'] = gals['redshift_true'][igals]
            param['model_tag'] = 'None'
            param['gamma1'] = 0
            param['gamma2'] = 0
            param['kappa'] = 0
            param['delta_ra'] = 0
            param['delta_dec'] = 0
            sersicB = gals['sersic_bulge'][igals]
            hlrMajB = gals['size_bulge_true'][igals]
            hlrMinB = gals['size_minor_bulge_true'][igals]
            sersicD = gals['sersic_disk'][igals]
            hlrMajD = gals['size_disk_true'][igals]
            hlrMinD = gals['size_minor_disk_true'][igals]
            aGal = gals['size_true'][igals]
            bGal = gals['size_minor_true'][igals]
            param['bfrac'] = gals['bulge_to_total_ratio_i'][igals]
            param['theta'] = gals['position_angle_true'][igals]
            param['hlr_bulge'] = np.sqrt(hlrMajB * hlrMinB)
            param['hlr_disk'] = np.sqrt(hlrMajD * hlrMinD)
            param['ell_bulge'] = (hlrMajB - hlrMinB)/(hlrMajB + hlrMinB)
            param['ell_disk'] = (hlrMajD - hlrMinD)/(hlrMajD + hlrMinD)
            param['ell_tot'] = (aGal - bGal) / (aGal + bGal)

            # Assign each galaxy a template SED
            param['sed_type'] = sed_assign(phz=param['z'], btt=param['bfrac'], rng=self.rng_sedGal)
            param['redden'] = self.tempRed_gal[param['sed_type']]
            param['av'] = self.avGal[int(self.ud()*self.nav)]
            if param['sed_type'] <= 5:
                param['av'] = 0.0
                param['redden'] = 0
            param['star'] = 0   # Galaxy
            if param['sed_type'] >= 29:
                param['av'] = 0.6 * param['av'] / 3.0 # for quasar, av=[0, 0.2], 3.0=av.max-av.im
                param['star'] = 2 # Quasar

            if not self.chip.isContainObj(ra_obj=param['ra'], dec_obj=param['dec'], margin=200):
                continue
            param['mag_use_normal'] = gals['mag_true_g_lsst'][igals]
            if param['mag_use_normal'] >= 26.5:
                continue
            self.ids += 1
            param['id'] = self.ids
            
            if param['star'] == 0:
                obj = Galaxy(param, self.rotation)
                self.objs.append(obj)
            if param['star'] == 2:
                obj = Quasar(param)
                self.objs.append(obj)

    def _load_stars(self, stars, pix_id=None):
        nstars = len(stars['sourceID'])
        # print(nstars)
        for istars in range(nstars):
            param = {}
            param['ra'] = stars['RA'][istars]
            param['dec'] = stars['Dec'][istars]
            if not self.chip.isContainObj(ra_obj=param['ra'], dec_obj=param['dec'], margin=200):
                continue
            param['mag_use_normal'] = stars['app_sdss_g'][istars]
            if param['mag_use_normal'] >= 26.5:
                continue
            self.ids += 1
            param['id'] = self.ids
            param['sed_type'] = stars['sourceID'][istars]
            param['model_tag'] = stars['model_tag'][istars]
            param['teff'] = stars['teff'][istars]
            param['logg'] = stars['grav'][istars]
            param['feh'] = stars['feh'][istars]
            param['z'] = 0.0
            param['star'] = 1   # Star
            obj = Star(param)
            self.objs.append(obj)

    def _load(self):
        self.nav = 15005
        self.avGal = extAv(self.nav, seed=self.seed_Av)
        # gals = Table.read(self.galaxy_path)
        # stars = Table.read(self.star_path)
        # self.ngals = gals['galaxyID'].size
        # self.nstars = stars['sourceID'].size
        gals_cat = h5.File(self.galaxy_path, 'r')['galaxies']
        star_cat = h5.File(self.star_path, 'r')['catalog']
        self.objs = []
        self.ids = 0
        for pix in self.pix_list:
            gals = gals_cat[str(pix)]
            stars = star_cat[str(pix)]
            self._load_gals(gals, pix_id=pix)
            self._load_stars(stars, pix_id=pix)
        print("number of objects in catalog: ", len(self.objs))
        del self.avGal
        # for igals in range(self.ngals):
        #     param = {}
        #     param['id'] = igals + 1
        #     param['ra'] = gals['ra_true'][igals]
        #     param['dec'] = gals['dec_true'][igals]
        #     param['z'] = gals['redshift_true'][igals]
        #     param['model_tag'] = 'None'
        #     param['gamma1'] = 0
        #     param['gamma2'] = 0
        #     param['kappa'] = 0
        #     param['delta_ra'] = 0
        #     param['delta_dec'] = 0
        #     sersicB = gals['sersic_bulge'][igals]
        #     hlrMajB = gals['size_bulge_true'][igals]
        #     hlrMinB = gals['size_minor_bulge_true'][igals]
        #     sersicD = gals['sersic_disk'][igals]
        #     hlrMajD = gals['size_disk_true'][igals]
        #     hlrMinD = gals['size_minor_disk_true'][igals]
        #     aGal = gals['size_true'][igals]
        #     bGal = gals['size_minor_true'][igals]
        #     param['bfrac'] = gals['bulge_to_total_ratio_i'][igals]
        #     param['theta'] = gals['position_angle_true'][igals]
        #     param['hlr_bulge'] = np.sqrt(hlrMajB * hlrMinB)
        #     param['hlr_disk'] = np.sqrt(hlrMajD * hlrMinD)
        #     param['ell_bulge'] = (hlrMajB - hlrMinB)/(hlrMajB + hlrMinB)
        #     param['ell_disk'] = (hlrMajD - hlrMinD)/(hlrMajD + hlrMinD)
        #     param['ell_tot'] = (aGal - bGal) / (aGal + bGal)

        #     # Assign each galaxy a template SED
        #     param['sed_type'] = sed_assign(phz=param['z'], btt=param['bfrac'], rng=self.rng_sedGal)
        #     param['redden'] = self.tempRed_gal[param['sed_type']]
        #     param['av'] = avGal[int(self.ud()*nav)]
        #     if param['sed_type'] <= 5:
        #         param['av'] = 0.0
        #         param['redden'] = 0
        #     param['star'] = 0   # Galaxy
        #     if param['sed_type'] >= 29:
        #         param['av'] = 0.6 * param['av'] / 3.0 # for quasar, av=[0, 0.2], 3.0=av.max-av.im
        #         param['star'] = 2 # Quasar
        #     param['mag_use_normal'] = gals['mag_true_g_lsst'][igals]
        #     if param['star'] == 0:
        #         obj = Galaxy(param, self.rotation)
        #         self.objs.append(obj)
        #     if param['star'] == 2:
        #         obj = Quasar(param)
        #         self.objs.append(obj)

        # for istars in range(self.nstars):
        #     param = {}
        #     param['id'] = self.ngals + istars + 1
        #     param['ra'] = stars['RA'][istars]
        #     param['dec'] = stars['Dec'][istars]
        #     param['sed_type'] = stars['sourceID'][istars]
        #     param['model_tag'] = stars['model_tag'][istars]
        #     param['z'] = 0.0
        #     param['star'] = 1   # Star
        #     param['mag_use_normal'] = stars['app_sdss_g'][istars]
        #     obj = Star(param)
        #     self.objs.append(obj)
        # del gals
        # del stars
        # del avGal