import unittest import sys,os,math from itertools import islice import numpy as np import galsim import yaml from ObservationSim.Instrument import Chip, Filter, FilterParam, FocalPlane from ObservationSim.PSF.PSFInterp import PSFInterp def defineCCD(iccd, config_file): with open(config_file, "r") as stream: try: config = yaml.safe_load(stream) #for key, value in config.items(): # print (key + " : " + str(value)) except yaml.YAMLError as exc: print(exc) chip = Chip(chipID=iccd, config=config) chip.img = galsim.ImageF(chip.npix_x, chip.npix_y) focal_plane = FocalPlane(chip_list=[iccd]) chip.img.wcs= focal_plane.getTanWCS(192.8595, 27.1283, -113.4333*galsim.degrees, chip.pix_scale) return chip def defineFilt(chip): filter_param = FilterParam() filter_id, filter_type = chip.getChipFilter() filt = Filter( filter_id=filter_id, filter_type=filter_type, filter_param=filter_param, ccd_bandpass=chip.effCurve) bandpass_list = filt.bandpass_sub_list return bandpass_list class PSFInterpModule_coverage(unittest.TestCase): def __init__(self, methodName='runTest'): super(PSFInterpModule_coverage, self).__init__(methodName) self.dataPath = os.path.join(os.getenv('UNIT_TEST_DATA_ROOT'), 'csst_fz_msc') self.iccd = 8 def test_loadPSFSet(self): config_file = os.path.join(self.dataPath, 'config_test.yaml') chip = defineCCD(self.iccd, config_file) bandpass = defineFilt(chip) print(chip.chipID) print(chip.cen_pix_x, chip.cen_pix_y) pathTemp = self.dataPath #"/public/share/yangxuliu/CSSOSDataProductsSims/psfCube/set1_dynamic/" psfModel= PSFInterp(chip, npsf=900, PSF_data_file=pathTemp, PSF_data_prefix="", HocBuild=True, LOG_DEBUG=True) x, y = 4096, 4096 #imgPos[iobj, :] # try get the PSF at some location (1234, 1234) on the chip x = x+chip.bound.xmin y = y+chip.bound.ymin pos_img = galsim.PositionD(x, y) psf,_ = psfModel.get_PSF(chip=chip, pos_img=pos_img, bandpass=0, galsimGSObject=True) psfA = psfModel.get_PSF(chip=chip, pos_img=pos_img, bandpass=bandpass[0], galsimGSObject=False) psfB = psfModel.get_PSF(chip=chip, pos_img=pos_img, findNeighMode='hoclistFind', bandpass=bandpass[0], galsimGSObject=False) self.assertTrue( psf != None ) self.assertTrue( np.max(np.abs(psfA-psfB))<1e-6 ) if __name__ == '__main__': unittest.main()