def test_calspec3_config_miri_multi(_jail, miri_full_coverage): """ Test CalSpec3 MIRI configuration default band cubes""" pars_input = {} pars_input['channel'] = [] pars_input['subchannel'] = [] pars_input['filter'] = [] pars_input['grating'] = [] weighting = 'msm' output_type = 'multi' single = False par_filename = 'None' resol_filename = 'None' input_file = 'test.fits' num_files = len(miri_full_coverage) input_filenames = [] for i in range(num_files): input_filenames.append(input_file) pars = { 'channel': pars_input['channel'], 'subchannel': pars_input['subchannel'], 'grating': pars_input['grating'], 'filter': pars_input['filter'], 'weighting': weighting, 'single': single, 'output_type': output_type } cubeinfo = cube_build.CubeData(miri_full_coverage, input_filenames, par_filename, resol_filename, **pars) master_table = file_table.FileTable() this_instrument = master_table.set_file_table(cubeinfo.input_models, cubeinfo.input_filenames) assert this_instrument == 'MIRI' cubeinfo.instrument = this_instrument cubeinfo.determine_band_coverage(master_table) num_cubes, cube_pars = cubeinfo.number_cubes() assert num_cubes == 1 assert cubeinfo.all_channel == [ '1', '1', '1', '2', '2', '2', '3', '3', '3', '4', '4', '4' ] assert cubeinfo.all_subchannel == [ 'short', 'medium', 'long', 'short', 'medium', 'long', 'short', 'medium', 'long', 'short', 'medium', 'long' ] assert cube_pars['1']['par1'] == [ '1', '1', '1', '2', '2', '2', '3', '3', '3', '4', '4', '4' ] assert cube_pars['1']['par2'] == [ 'short', 'medium', 'long', 'short', 'medium', 'long', 'short', 'medium', 'long', 'short', 'medium', 'long' ]
def test_calspec3_config_nirspec(_jail, nirspec_medium_coverage): """ Test CalSpec3 configuration for NIRSpec - default band cubes""" pars_input = {} pars_input['channel'] = [] pars_input['subchannel'] = [] pars_input['filter'] = [] pars_input['grating'] = [] weighting = 'msm' output_type = 'band' single = False par_filename = 'None' resol_filename = 'None' input_file = 'test.fits' num_files = len(nirspec_medium_coverage) input_filenames = [] for i in range (num_files): input_filenames.append(input_file) pars = { 'channel': pars_input['channel'], 'subchannel': pars_input['subchannel'], 'grating': pars_input['grating'], 'filter': pars_input['filter'], 'weighting': weighting, 'single': single, 'output_type':output_type} cubeinfo = cube_build.CubeData( nirspec_medium_coverage, input_filenames, par_filename, resol_filename, **pars) master_table = file_table.FileTable() this_instrument = master_table.set_file_table( cubeinfo.input_models,cubeinfo.input_filenames) assert this_instrument == 'NIRSPEC' cubeinfo.instrument = this_instrument cubeinfo.determine_band_coverage(master_table) num_cubes,cube_pars = cubeinfo.number_cubes() assert num_cubes == 2 assert cubeinfo.all_grating == ['g140m','g235m'] assert cubeinfo.all_filter == ['f100lp','f170lp'] assert cube_pars['1']['par1'] == ['g140m'] assert cube_pars['1']['par2'] == ['f100lp'] assert cube_pars['2']['par1'] == ['g235m'] assert cube_pars['2']['par2'] == ['f170lp']
def test_calspec2_config(_jail, miri_ifushort_short): """ Determine cube based on calspec2 setup """ pars_input = {} pars_input['channel'] = [] pars_input['subchannel'] = [] pars_input['filter'] = [] pars_input['grating'] = [] weighting = 'msm' output_type = 'multi' #calspec 2 setup. Only 1 cube create from 2 chanels single = False par_filename = 'None' resol_filename = 'None' input_file = 'test.fits' input_models = [] input_filenames = [] input_models.append(miri_ifushort_short) input_filenames.append(input_file) pars = { 'channel': pars_input['channel'], 'subchannel': pars_input['subchannel'], 'grating': pars_input['grating'], 'filter': pars_input['filter'], 'weighting': weighting, 'single': single, 'output_type':output_type} cubeinfo = cube_build.CubeData( input_models, input_filenames, par_filename, resol_filename, **pars) master_table = file_table.FileTable() this_instrument = master_table.set_file_table( cubeinfo.input_models,cubeinfo.input_filenames) assert this_instrument == 'MIRI' cubeinfo.instrument = this_instrument cubeinfo.determine_band_coverage(master_table) assert cubeinfo.all_channel == ['1','2'] assert cubeinfo.all_subchannel == ['short','short'] num_cubes,cube_pars = cubeinfo.number_cubes() assert num_cubes == 1 assert cube_pars['1']['par1'] == ['1','2'] assert cube_pars['1']['par2'] == ['short','short']