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Commit 6f2f8a75 authored by Wei Chengliang's avatar Wei Chengliang
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update codes for fitsStamp

parent 6a775eed
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Catalog/C6_fits_Catalog.py 0 → 100644
View file @ 6f2f8a75
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ObservationSim/MockObject/MockObject.py
View file @ 6f2f8a75
......@@ -23,6 +23,10 @@ class MockObject(object):
self.type = "star"
elif self.param["star"] == 2:
self.type = "quasar"
###mock_stamp_START
elif self.param["star"] == 3:
self.type = "stamp"
###mock_stamp_END
# self.id = self.param["id"]
# self.ra = self.param["ra"]
......
ObservationSim/MockObject/Stamp.py 0 → 100644
View file @ 6f2f8a75
import os, sys
import random
import numpy as np
import astropy.constants as cons
from astropy.table import Table
from scipy import interpolate
import astropy.io.fits as fitsio
import galsim
import gc
from ObservationSim.MockObject.MockObject import MockObject
from ObservationSim.MockObject._util import magToFlux,VC_A
from ObservationSim.MockObject._util import eObs, integrate_sed_bandpass, getNormFactorForSpecWithABMAG, getObservedSED, getABMAG,convolveGaussXorders
class Stamp(MockObject):
def __init__(self, param):
super().__init__(param)
def unload_SED(self):
"""(Test) free up SED memory
"""
del self.sed
def drawObj_multiband(self, tel, pos_img, psf_model, bandpass_list, filt, chip, nphotons_tot=None, g1=0, g2=0, exptime=150.):
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 False
nphotons_sum = 0
photons_list = []
xmax, ymax = 0, 0
if self.getMagFilter(filt) <= 15:
folding_threshold = 5.e-4
else:
folding_threshold = 5.e-3
gsp = galsim.GSParams(folding_threshold=folding_threshold)
self.real_pos = self.getRealPos(chip.img, global_x=self.posImg.x, global_y=self.posImg.y,
img_real_wcs=self.real_wcs)
x, y = self.real_pos.x + 0.5, self.real_pos.y + 0.5
x_nominal = int(np.floor(x + 0.5))
y_nominal = int(np.floor(y + 0.5))
dx = x - x_nominal
dy = y - y_nominal
offset = galsim.PositionD(dx, dy)
real_wcs_local = self.real_wcs.local(self.real_pos)
for i in range(len(bandpass_list)):
bandpass = bandpass_list[i]
try:
sub = integrate_sed_bandpass(sed=self.sed, bandpass=bandpass)
except Exception as e:
print(e)
self.logger.error(e)
# return False
continue
ratio = sub/full
if not (ratio == -1 or (ratio != ratio)):
nphotons = ratio * nphotons_tot
else:
# return False
continue
nphotons_sum += nphotons
psf, pos_shear = psf_model.get_PSF(chip=chip, pos_img=pos_img, bandpass=bandpass, folding_threshold=folding_threshold)
_gal = self.param['image']
galIm = galsim.ImageF(_gal, scale=self.param['pixScale'])
gal = galsim.InterpolatedImage(galIm)
gal = gal.withFlux(nphotons)
#gal_shear = galsim.Shear(g1=g1, g2=g2)
#gal = gal.shear(gal_shear)
gal = galsim.Convolve(psf, gal)
stamp = gal.drawImage(wcs=real_wcs_local, method='phot', offset=self.offset, save_photons=True)
xmax = max(xmax, stamp.xmax - stamp.xmin)
ymax = max(ymax, stamp.ymax - stamp.ymin)
photons = stamp.photons
photons.x += x_nominal
photons.y += y_nominal
photons_list.append(photons)
del gal
# print('xmax = %d, ymax = %d '%(xmax, ymax))
stamp = galsim.ImageF(int(xmax*1.1), int(ymax*1.1))
stamp.wcs = real_wcs_local
stamp.setCenter(x_nominal, y_nominal)
bounds = stamp.bounds & galsim.BoundsI(0, chip.npix_x - 1, 0, chip.npix_y - 1)
if bounds.area() > 0:
chip.img.setOrigin(0, 0)
stamp[bounds] = chip.img[bounds]
for i in range(len(photons_list)):
if i == 0:
chip.sensor.accumulate(photons_list[i], stamp)
else:
chip.sensor.accumulate(photons_list[i], stamp, resume=True)
chip.img[bounds] = stamp[bounds]
chip.img.setOrigin(chip.bound.xmin, chip.bound.ymin)
del photons_list
del stamp
gc.collect()
return True, pos_shear
ObservationSim/ObservationSim.py
View file @ 6f2f8a75
......@@ -192,12 +192,29 @@ class Observation(object):
obj = self.cat.objs[j]
if obj.type == 'star' and self.config["run_option"]["galaxy_only"]:
#if obj.type == 'star' and self.config["run_option"]["galaxy_only"]:
# continue
#elif obj.type == 'galaxy' and self.config["run_option"]["star_only"]:
# continue
#elif obj.type == 'quasar' and self.config["run_option"]["star_only"]:
# continue
###mock_stamp_START
if obj.type == 'star' and not self.config["run_option"]["star_yes"]:
continue
elif obj.type == 'galaxy' and not self.config["run_option"]["galaxy_yes"]:
continue
elif obj.type == 'galaxy' and self.config["run_option"]["star_only"]:
elif obj.type == 'quasar' and not self.config["run_option"]["galaxy_yes"]:
continue
elif obj.type == 'quasar' and self.config["run_option"]["star_only"]:
elif obj.type == 'stamp' and not self.config["run_option"]["stamp_yes"]:
continue
#if obj.type == 'star' or obj.type == 'galaxy':
# continue #for test
#mu_temp = 1.
#if obj.type == 'stamp':
# mu_temp = obj.param["mu"]
###mock_stamp_END
# load and convert SED; also caculate object's magnitude in all CSST bands
try:
......
run_sim.py
View file @ 6f2f8a75
......@@ -104,5 +104,5 @@ if __name__=='__main__':
# run_sim(Catalog=NGPCatalog)
# from Catalog.NJU_Catalog import NJU_Catalog
# run_sim(Catalog=NJU_Catalog)
from Catalog.C6_Catalog import C6_Catalog
run_sim(Catalog=C6_Catalog)
from Catalog.C6_fits_Catalog import C6_fits_Catalog
run_sim(Catalog=C6_fits_Catalog)
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