Commit 959f0ebc authored by Zhang Xin's avatar Zhang Xin
Browse files

Merge branch 'develop' into 'master'

release version 2.1.0

See merge request csst_sim/csst-simulation!17
parents 81589f9d f540664f
import numpy as np
import galsim
import copy
import cmath
from astropy.table import Table
from abc import abstractmethod, ABCMeta
......@@ -72,6 +73,16 @@ class CatalogBase(metaclass=ABCMeta):
"parallax":1e-9
}
return param
@staticmethod
def rotate_ellipticity(e1, e2, rotation=0., unit='radians'):
if unit == 'degree':
rotation = np.radians(rotation)
e_total = np.sqrt(e1**2 + e2**2)
phi = cmath.phase(complex(e1, e2))
e1 = e_total * np.cos(phi + 2*rotation)
e2 = e_total * np.sin(phi + 2*rotation)
return e1, e2, e_total
@staticmethod
def convert_sed(mag, sed, target_filt, norm_filt=None):
......
......@@ -12,7 +12,7 @@ from ObservationSim.MockObject.MockObject import MockObject
# import tracemalloc
class Galaxy(MockObject):
def __init__(self, param, rotation=None, logger=None):
def __init__(self, param, logger=None):
super().__init__(param, logger=logger)
# self.thetaR = self.param["theta"]
# self.bfrac = self.param["bfrac"]
......@@ -27,8 +27,6 @@ class Galaxy(MockObject):
# self.e1_bulge, self.e2_bulge = self.e_bulge.g1, self.e_bulge.g2
# self.e1_total, self.e2_total = self.e_total.g1, self.e_total.g2
if rotation is not None:
self.rotateEllipticity(rotation)
if not hasattr(self, "disk_sersic_idx"):
self.disk_sersic_idx = 1.
if not hasattr(self, "bulge_sersic_idx"):
......@@ -51,7 +49,8 @@ class Galaxy(MockObject):
full = integrate_sed_bandpass(sed=self.sed, bandpass=filt.bandpass_full)
except Exception as e:
print(e)
self.logger.error(e)
if self.logger:
self.logger.error(e)
return -1
for i in range(len(bandpass_list)):
bandpass = bandpass_list[i]
......@@ -59,7 +58,8 @@ class Galaxy(MockObject):
sub = integrate_sed_bandpass(sed=self.sed, bandpass=bandpass)
except Exception as e:
print(e)
self.logger.error(e)
if self.logger:
self.logger.error(e)
return -1
ratio = sub/full
......@@ -78,12 +78,13 @@ class Galaxy(MockObject):
gal = self.bfrac * bulge + (1.0 - self.bfrac) * disk
gal = gal.withFlux(nphotons)
if fd_shear is not None:
g1 += fd_shear.g1
g2 += fd_shear.g2
gal_shear = galsim.Shear(g1=g1, g2=g2)
gal = gal.shear(gal_shear)
gal = galsim.Convolve(psf, gal)
if fd_shear is not None:
gal = gal.shear(fd_shear)
objs.append(gal)
final = galsim.Sum(objs)
return final
......@@ -97,7 +98,8 @@ class Galaxy(MockObject):
full = integrate_sed_bandpass(sed=self.sed, bandpass=filt.bandpass_full)
except Exception as e:
print(e)
self.logger.error(e)
if self.logger:
self.logger.error(e)
return 2, None
nphotons_sum = 0
......@@ -131,6 +133,18 @@ class Galaxy(MockObject):
real_wcs_local = self.real_wcs.local(self.real_pos)
disk = galsim.Sersic(n=self.disk_sersic_idx, half_light_radius=self.hlr_disk, flux=1.0, gsparams=gsp)
disk_shape = galsim.Shear(g1=self.e1_disk, g2=self.e2_disk)
disk = disk.shear(disk_shape)
bulge = galsim.Sersic(n=self.bulge_sersic_idx, half_light_radius=self.hlr_bulge, flux=1.0, gsparams=gsp)
bulge_shape = galsim.Shear(g1=self.e1_bulge, g2=self.e2_bulge)
bulge = bulge.shear(bulge_shape)
if fd_shear:
g1 += fd_shear.g1
g2 += fd_shear.g2
gal_shear = galsim.Shear(g1=g1, g2=g2)
for i in range(len(bandpass_list)):
bandpass = bandpass_list[i]
......@@ -138,7 +152,8 @@ class Galaxy(MockObject):
sub = integrate_sed_bandpass(sed=self.sed, bandpass=bandpass)
except Exception as e:
print(e)
self.logger.error(e)
if self.logger:
self.logger.error(e)
# return False
continue
......@@ -153,41 +168,24 @@ class Galaxy(MockObject):
# print("nphotons_sub-band_%d = %.2f"%(i, nphotons))
psf, pos_shear = psf_model.get_PSF(chip=chip, pos_img=pos_img, bandpass=bandpass, folding_threshold=folding_threshold)
disk = galsim.Sersic(n=self.disk_sersic_idx, half_light_radius=self.hlr_disk, flux=1.0, gsparams=gsp)
disk_shape = galsim.Shear(g1=self.e1_disk, g2=self.e2_disk)
disk = disk.shear(disk_shape)
bulge = galsim.Sersic(n=self.bulge_sersic_idx, half_light_radius=self.hlr_bulge, flux=1.0, gsparams=gsp)
bulge_shape = galsim.Shear(g1=self.e1_bulge, g2=self.e2_bulge)
bulge = bulge.shear(bulge_shape)
gal_temp = self.bfrac * bulge + (1.0 - self.bfrac) * disk
gal_temp = gal_temp.shear(gal_shear)
gal = self.bfrac * bulge + (1.0 - self.bfrac) * disk
gal_temp = gal_temp.withFlux(nphotons)
if not big_galaxy: # Not apply PSF for very big galaxy
gal_temp = galsim.Convolve(psf, gal_temp)
if i == 0:
gal = gal_temp
else:
gal = gal + gal_temp
# (TEST) Random knots
# knots = galsim.RandomKnots(npoints=100, profile=disk)
# kfrac = np.random.random()*(1.0 - self.bfrac)
# gal = self.bfrac * bulge + (1.0 - self.bfrac - kfrac) * disk + kfrac * knots
gal = gal.withFlux(nphotons)
gal_shear = galsim.Shear(g1=g1, g2=g2)
gal = gal.shear(gal_shear)
if not big_galaxy: # Not apply PSF for very big galaxy
gal = galsim.Convolve(psf, gal)
if fd_shear is not None:
gal = gal.shear(fd_shear)
# Use (explicit) stamps to draw
stamp = gal.drawImage(wcs=real_wcs_local, method='phot', offset=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
# # [C6 TEST]
# print('xmax = %d, ymax = %d '%(xmax, ymax))
# # Output memory usage
......@@ -196,7 +194,12 @@ class Galaxy(MockObject):
# for stat in top_stats[:10]:
# print(stat)
stamp = galsim.ImageF(int(xmax * 1.1), int(ymax * 1.1))
stamp = gal.drawImage(wcs=real_wcs_local, method='phot', offset=offset, save_photons=True)
photons = stamp.photons
photons.x += x_nominal
photons.y += y_nominal
photons_list.append(photons)
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)
......@@ -226,7 +229,8 @@ class Galaxy(MockObject):
else:
# Return code 0: object photons missed this detector
print("obj %s missed"%(self.id))
self.logger.info("obj %s missed"%(self.id))
if self.logger:
self.logger.info("obj %s missed"%(self.id))
return 0, pos_shear
# # [C6 TEST]
......@@ -297,14 +301,17 @@ class Galaxy(MockObject):
# gal = self.bfrac * bulge + (1.0 - self.bfrac - kfrac) * disk + kfrac * knots
gal = gal.withFlux(tel.pupil_area * exptime)
if fd_shear:
g1 += fd_shear.g1
g2 += fd_shear.g2
gal_shear = galsim.Shear(g1=g1, g2=g2)
gal = gal.shear(gal_shear)
gal = galsim.Convolve(psf, gal)
if not big_galaxy: # Not apply PSF for very big galaxy
gal = galsim.Convolve(psf, gal)
if fd_shear is not None:
gal = gal.shear(fd_shear)
# if fd_shear is not None:
# gal = gal.shear(fd_shear)
starImg = gal.drawImage(wcs=real_wcs_local, offset=offset)
......@@ -397,14 +404,6 @@ class Galaxy(MockObject):
final = galsim.Convolve(psf, gal)
return final
def rotateEllipticity(self, rotation):
if rotation == 1:
self.e1_disk, self.e2_disk, self.e1_bulge, self.e2_bulge, self.e1_total, self.e2_total = -self.e2_disk, self.e1_disk, -self.e2_bulge, self.e1_bulge, -self.e2_total, self.e1_total
if rotation == 2:
self.e1_disk, self.e2_disk, self.e1_bulge, self.e2_bulge, self.e1_total, self.e2_total = -self.e1_disk, -self.e2_disk, -self.e1_bulge, -self.e2_bulge, -self.e1_total, -self.e2_total
if rotation == 3:
self.e1_disk, self.e2_disk, self.e1_bulge, self.e2_bulge, self.e1_total, self.e2_total = self.e2_disk, -self.e1_disk, self.e2_bulge, -self.e1_bulge, self.e2_total, -self.e1_total
def drawObject(self, img, final, noise_level=0.0, flux=None, filt=None, tel=None, exptime=150.):
""" Override the method in parent class
Need to constrain the size of image stamp for extended objects
......
......@@ -32,6 +32,7 @@ class MockObject(object):
# Place holder for outputs
self.additional_output_str = ""
self.fd_shear = None
self.logger = logger
......@@ -61,7 +62,7 @@ class MockObject(object):
dec = self.param["dec"]
return galsim.CelestialCoord(ra=ra * galsim.degrees, dec=dec * galsim.degrees)
def getPosImg_Offset_WCS(self, img, fdmodel=None, chip=None, verbose=True, img_header=None):
def getPosImg_Offset_WCS(self, img, fdmodel=None, chip=None, verbose=True, chip_wcs=None, img_header=None):
self.posImg = img.wcs.toImage(self.getPosWorld())
self.localWCS = img.wcs.local(self.posImg)
if (fdmodel is not None) and (chip is not None):
......@@ -79,8 +80,10 @@ class MockObject(object):
dx = x - self.x_nominal
dy = y - self.y_nominal
self.offset = galsim.PositionD(dx, dy)
if img_header is not None:
if chip_wcs is not None:
self.real_wcs = chip_wcs
elif img_header is not None:
self.real_wcs = galsim.FitsWCS(header=img_header)
else:
self.real_wcs = None
......@@ -132,7 +135,8 @@ class MockObject(object):
full = integrate_sed_bandpass(sed=self.sed, bandpass=filt.bandpass_full)
except Exception as e:
print(e)
self.logger.error(e)
if self.logger:
self.logger.error(e)
return 2, None
nphotons_sum = 0
......@@ -164,7 +168,8 @@ class MockObject(object):
sub = integrate_sed_bandpass(sed=self.sed, bandpass=bandpass)
except Exception as e:
print(e)
self.logger.error(e)
if self.logger:
self.logger.error(e)
# return False
continue
......@@ -214,7 +219,8 @@ class MockObject(object):
else:
# Return code 0: object photons missed this detector
print("obj %s missed"%(self.id))
self.logger.info("obj %s missed"%(self.id))
if self.logger:
self.logger.info("obj %s missed"%(self.id))
return 0, pos_shear
del photons_list
......
......@@ -122,7 +122,7 @@ class SpecDisperser(object):
beam=beam)
### Account for pixel centering of the trace
yfrac_beam = ytrace_beam - floor(ytrace_beam)
yfrac_beam = ytrace_beam - floor(ytrace_beam+0.5)
ysens = lam_beam * 0
lam_index = argsort(lam_beam)
......@@ -155,7 +155,7 @@ class SpecDisperser(object):
sensitivity_beam = ysens
len_spec_x = len(dx)
len_spec_y = int(ceil(yfrac_beam[-1]) - floor(yfrac_beam[0]) + 1)
len_spec_y = int(ceil(ytrace_beam[-1]) - floor(ytrace_beam[0]) + 1)
beam_sh = (self.img_sh[0] + len_spec_y, self.img_sh[1] + len_spec_x)
modelf = zeros(product(beam_sh), dtype=float)
......@@ -165,9 +165,15 @@ class SpecDisperser(object):
dxpix = dx - dx[0] + x0[1]
dyc = cast[int](ytrace_beam)
dyc = cast[int](np.floor(ytrace_beam+0.5))
dypix = cast[int](np.floor(ytrace_beam - dyc[0] + x0[0] + 0.5))
frac_ids = yfrac_beam<0
dypix[frac_ids] = dypix[frac_ids] - 1
yfrac_beam[frac_ids] = 1+yfrac_beam[frac_ids]
dypix = dyc - dyc[0] + x0[0]
flat_index = idx[dypix, dxpix]
nonz = sensitivity_beam != 0
......@@ -185,7 +191,7 @@ class SpecDisperser(object):
origin_in[1] = self.origin[1]
dx0_in = dx[0]
dy0_in = dyc[0]
originOut_x = origin_in[1] + dx0_in
originOut_x = origin_in[1] + dx0_in
originOut_y = origin_in[0] + dy0_in
if self.flat_cube is None:
......
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