Commit cffedd63 authored by Yan Zhaojun's avatar Yan Zhaojun
Browse files

debug

parent 62bb13ae
Pipeline #4104 failed with stage
in 0 seconds
......@@ -1339,28 +1339,24 @@ class IFSsimulator():
self.section, 'save_cosmicrays')
self.sky_noise = self.config.getboolean(self.section, 'sky_noise')
try:
self.nonlinearity = self.config.getboolean(
self.section, 'nonlinearity')
except:
self.nonlinearity = False
try:
self.flatfieldM = self.config.getboolean(
self.section, 'flatfieldM')
except:
self.flatfieldM = False
try:
self.readoutNoise = self.config.getboolean(
self.section, 'readoutnoise')
except:
self.readoutNoise = True
try:
self.intscale = self.config.getboolean(self.section, 'intscale')
except:
self.intscale = True
self.nonlinearity = self.config.getboolean(
self.section, 'nonlinearity')
self.flatfieldM = self.config.getboolean(
self.section, 'flatfieldM')
self.readoutNoise = self.config.getboolean(
self.section, 'readoutnoise')
self.intscale = self.config.getboolean(self.section, 'intscale')
######################################################################
......@@ -1673,7 +1669,7 @@ class IFSsimulator():
result_day = now.strftime("%Y-%m-%d")
self.information['holemask']
# self.information['holemask']
if self.source == 'LAMP':
if self.information['holemask'] == 'yes':
......@@ -2100,13 +2096,13 @@ class IFSsimulator():
self.log.info(
'The cosmic ray in red channel covering factor is %i pixels ' % area_cr_r)
if self.save_cosmicrays:
# if self.save_cosmicrays:
self.log.info('Saved the cosmicRays fits...')
fits.writeto(self.result_path+'/calibration_Data/cosmicMap_B_SN_'+str(
self.simnumber)+'_exp_'+str(idk)+'.fits', np.int32(CCD_cr_b), overwrite=True)
fits.writeto(self.result_path+'/calibration_Data/cosmicMap_R_SN_'+str(
self.simnumber)+'_exp_'+str(idk)+'.fits', np.int32(CCD_cr_r), overwrite=True)
# self.log.info('Saved the cosmicRays fits...')
# fits.writeto(self.result_path+'/calibration_Data/cosmicMap_B_SN_'+str(
# self.simnumber)+'_exp_'+str(idk)+'.fits', np.int32(CCD_cr_b), overwrite=True)
# fits.writeto(self.result_path+'/calibration_Data/cosmicMap_R_SN_'+str(
# self.simnumber)+'_exp_'+str(idk)+'.fits', np.int32(CCD_cr_r), overwrite=True)
##########################################################
#########################################################################
......@@ -2229,33 +2225,33 @@ class IFSsimulator():
##############################################################################
def applyCosmicBackground(self):
"""
# def applyCosmicBackground(self):
# """
Returns
-------
None.
# Returns
# -------
# None.
"""
"""
Apply dark the cosmic background. Scales the background with the exposure time.
# """
# """
# Apply dark the cosmic background. Scales the background with the exposure time.
Additionally saves the image without noise to a FITS file.
"""
# Additionally saves the image without noise to a FITS file.
# """
# add background
bcgr = self.information['exptime'] * self.information['cosmic_bkgd']
# # add background
# bcgr = self.information['exptime'] * self.information['cosmic_bkgd']
self.image_b += bcgr
self.image_r += bcgr
# self.image_b += bcgr
# self.image_r += bcgr
self.log.info('Added cosmic background = %f' % bcgr)
# self.log.info('Added cosmic background = %f' % bcgr)
if self.cosmicRays:
#self.imagenoCR += bcgr
self.imagenoCR_b += bcgr
self.imagenoCR_r += bcgr
# if self.cosmicRays:
# self.imagenoCR_b += bcgr
# self.imagenoCR_r += bcgr
##########################################################################
......@@ -2895,35 +2891,35 @@ class IFSsimulator():
##############################################################################
def applyImageRotate(self):
"""
# def applyImageRotate(self):
# """
Returns
-------
None.
"""
np.random.seed(10*self.simnumber)
ud = np.random.random() # Choose a random rotation
angle = 2 * (ud-0.5) * self.information['tel_rotmax']
inputimg = self.image_b.copy()
# here we choose reshape=False, the rotated image will
rotimg = ndimage.rotate(
inputimg, angle+self.information['rotate_b'], order=1, reshape=False)
self.image_b = rotimg
inputimg = self.image_r.copy()
# here we choose reshape=False, the rotated image will
rotimg = ndimage.rotate(
inputimg, angle+self.information['rotate_r'], order=1, reshape=False)
self.image_r = rotimg
self.information['Tel_rot'] = angle
# Returns
# -------
# None.
self.log.info(
'Applied telescope rotation with angle (in degree)= %f.', angle)
# """
# np.random.seed(10*self.simnumber)
# ud = np.random.random() # Choose a random rotation
# angle = 2 * (ud-0.5) * self.information['tel_rotmax']
# inputimg = self.image_b.copy()
# # here we choose reshape=False, the rotated image will
# rotimg = ndimage.rotate(
# inputimg, angle+self.information['rotate_b'], order=1, reshape=False)
# self.image_b = rotimg
# inputimg = self.image_r.copy()
# # here we choose reshape=False, the rotated image will
# rotimg = ndimage.rotate(
# inputimg, angle+self.information['rotate_r'], order=1, reshape=False)
# self.image_r = rotimg
# self.information['Tel_rot'] = angle
# self.log.info(
# 'Applied telescope rotation with angle (in degree)= %f.', angle)
###############################################################################
def CCDreadout(self):
......@@ -3058,8 +3054,8 @@ class IFSsimulator():
)*self.information['exposuretimes']
write_end = self.dt.utcnow()+timedelta(seconds=tt)
write_time_utc = write_end.strftime("%Y-%m-%dT%H:%M:%S")
write_time_str = end.strftime("%Y-%m-%dT%H:%M:%S")
# write_time_utc = write_end.strftime("%Y-%m-%dT%H:%M:%S")
# write_time_str = end.strftime("%Y-%m-%dT%H:%M:%S")
if self.source == 'SCI' or self.source == 'COMP':
if self.source == 'SCI':
......
......@@ -181,7 +181,7 @@ class TestDemoFunction(unittest.TestCase):
print(configfile)
debug=True
csst_ifs_sim.runIFSsim(sourcein, configfile, dir_path, 1, debug,'no')
csst_ifs_sim.runIFSsim(sourcein, configfile, dir_path, 1, debug,'yes')
self.assertEqual(
1 , 1,
"case 5: sim passes.",
......
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