# ---------------------------------------------------------------------- # set name and print progress name = 'cal_FF_RAW_spirou (dark_flat)' print(UNITTEST.format('\n' * 3, '=' * 50, '\n', test, name)) # run test times[name] = utf.UNIT_TEST_CAL_FF_RAW(kind='dark_flat') test += 1 # ---------------------------------------------------------------------- # test cal_extract_RAW_spirou - hcone_dark # ---------------------------------------------------------------------- # set name and print progress name = 'cal_extract_RAW_spirou (hcone_dark)' print(UNITTEST.format('\n' * 3, '=' * 50, '\n', test, name)) # run test times[name] = utf.UNIT_TEST_CAL_EXTRACT(kind='hcone_dark', fiber='AB') test += 1 # ---------------------------------------------------------------------- # test cal_extract_RAW_spirou - dark_hcone # ---------------------------------------------------------------------- # set name and print progress name = 'cal_extract_RAW_spirou (dark_hcone)' print(UNITTEST.format('\n' * 3, '=' * 50, '\n', test, name)) # run test times[name] = utf.UNIT_TEST_CAL_EXTRACT(kind='dark_hcone', fiber='C') test += 1 # ---------------------------------------------------------------------- # test cal_extract_RAW_spirou - hcone_hcone AB # ----------------------------------------------------------------------
# deal with comparison args = [name, ll, newoutputs, oldoutputs, errors, OLDPATH, filepath] newoutputs, oldoutputs, errors = utc.compare(*args) # append test test += 1 # ---------------------------------------------------------------------- # test cal_extract_RAW_spirou - fp_fp02a203.fits # ---------------------------------------------------------------------- # set name and print progress name = 'cal_extract_RAW_spirou (fp_fp02a203.fits AB A B C)' print(UNITTEST.format('\n' * 3, '=' * 50, '\n', test, name)) # set up files files = ['fp_fp02a203.fits'] # run test ll = utf.UNIT_TEST_CAL_EXTRACT(files=files, fiber=None, return_locals=True) times[name] = ll['timer'] # deal with comparison args = [name, ll, newoutputs, oldoutputs, errors, OLDPATH, filepath] newoutputs, oldoutputs, errors = utc.compare(*args) # append test test += 1 # ---------------------------------------------------------------------- # test cal_extract_RAW_spirou - fp_fp03a203.fits # ---------------------------------------------------------------------- # set name and print progress name = 'cal_extract_RAW_spirou (fp_fp03a203.fits AB A B C)' print(UNITTEST.format('\n' * 3, '=' * 50, '\n', test, name)) # set up files files = ['fp_fp03a203.fits']
name = 'cal_FF_RAW_spirou (dark_flat)' print(UNITTEST.format('\n' * 3, '=' * 50, '\n', test, name)) # run test times[name] = utf.UNIT_TEST_CAL_FF_RAW(kind='dark_flat') test += 1 # ---------------------------------------------------------------------- # test cal_extract_RAW_spirou - fp_fp02a203.fits # ---------------------------------------------------------------------- # set name and print progress name = 'cal_extract_RAW_spirou (fp_fp02a203.fits AB A B C)' print(UNITTEST.format('\n' * 3, '=' * 50, '\n', test, name)) # set up files files = ['fp_fp02a203.fits'] # run test times[name] = utf.UNIT_TEST_CAL_EXTRACT(files=files, fiber=None) test += 1 # ---------------------------------------------------------------------- # test cal_extract_RAW_spirou - fp_fp03a203.fits # ---------------------------------------------------------------------- # set name and print progress name = 'cal_extract_RAW_spirou (fp_fp03a203.fits AB A B C)' print(UNITTEST.format('\n' * 3, '=' * 50, '\n', test, name)) # set up files files = ['fp_fp03a203.fits'] # run test times[name] = utf.UNIT_TEST_CAL_EXTRACT(files=files, fiber=None) test += 1 # ----------------------------------------------------------------------