Exemplo n.º 1
0
def test_stringify(tmpdir):
    im = DataModel()
    assert str(im) == '<DataModel>'

    im = ImageModel((10, 100))
    assert str(im) == '<ImageModel(10, 100)>'

    path = str(tmpdir.join("nircam_mask.fits"))
    m = MaskModel((2048, 2048))
    m.save(path)
    m.close()
    with MaskModel(path) as im:
        assert str(im) == '<MaskModel(2048, 2048) from nircam_mask.fits>'
Exemplo n.º 2
0
def save_final_map(bad_pix_map, instrument, detector, hdulist, files, author,
                   description, pedigree, useafter, history_text, outfile):
    """Save a bad pixel map into a CRDS-formatted reference file

    Parameters
    ----------
    bad_pix_map : numpy.ndarray
        2D bad pixel array

    instrument : str
        Name of instrument associated with the bad pixel array

    detector : str
        Name of detector associated with the bad pixel array

    hdulist : astropy.fits.HDUList
        HDUList containing "extra" fits keywords

    files : list
        List of files used to create ``bad_pix_map``

    author : str
        Author of the bad pixel mask reference file

    description : str
        CRDS description to use in the final bad pixel file

    pedigree : str
        CRDS pedigree to use in the final bad pixel file

    useafter : str
        CRDS useafter string for the bad pixel file

    history_text : list
        List of strings to add as HISTORY entries to the bad pixel file

    outfile : str
        Name of the output bad pixel file
    """
    yd, xd = bad_pix_map.shape

    # Initialize the MaskModel using the hdu_list, so the new keywords will
    # be populated
    model = MaskModel(hdulist)
    model.dq = bad_pix_map

    # Create dq_def data
    dq_def = badpix_from_flats.create_dqdef()
    model.dq_def = dq_def
    model.meta.reftype = 'MASK'
    model.meta.subarray.name = 'FULL'
    model.meta.subarray.xstart = 1
    model.meta.subarray.xsize = xd
    model.meta.subarray.ystart = 1
    model.meta.subarray.ysize = yd
    model.meta.instrument.name = instrument.upper()
    model.meta.instrument.detector = detector

    # Get the fast and slow axis directions from one of the input files
    fastaxis, slowaxis = badpix_from_flats.get_fastaxis(files[0])
    model.meta.subarray.fastaxis = fastaxis
    model.meta.subarray.slowaxis = slowaxis

    model.meta.author = author
    model.meta.description = description
    model.meta.pedigree = pedigree
    model.meta.useafter = useafter

    # Add information about parameters used
    # Parameters from badpix_from_flats
    package_note = (
        'This file was created using the bad_pixel_mask.py module within the '
        'jwst_reffiles package.')

    software_dict = {
        'name': 'jwst_reffiles.bad_pixel_mask.bad_pixel_mask.py',
        'author': 'STScI',
        'homepage': 'https://github.com/spacetelescope/jwst_reffiles',
        'version': '0.0.0'
    }
    entry = util.create_history_entry(package_note, software=software_dict)
    model.history.append(entry)

    model.history.append(
        util.create_history_entry('Parameter values and descriptions:'))
    dead_search_descrip = (
        'dead_search: Boolean, whether or not to run the dead pixel search '
        'using flat field files. The value is stored in the {} keyword.'.
        format(dead_search_kw))
    model.history.append(util.create_history_entry(dead_search_descrip))

    low_qe_search_descrip = (
        'low_qe_and_open_search: Boolean, whether or not to run the low QE '
        'and open pixel search using flat field files. The value is stored in the {} '
        'keyword.'.format(low_qe_search_kw))
    model.history.append(util.create_history_entry(low_qe_search_descrip))

    dead_type_descrip = (
        'dead_search_type: Method used to identify dead pixels. The value is stored in the '
        '{} keyword.'.format(dead_search_type_kw))
    model.history.append(util.create_history_entry(dead_type_descrip))

    sigma_descrip = (
        'flat_mean_sigma_threshold: Number of standard deviations to use when sigma-clipping to '
        'calculate the mean slope image or the mean across the detector. The value '
        'used is stored in the {} keyword.'.format(mean_sig_threshold_kw))
    model.history.append(util.create_history_entry(sigma_descrip))

    norm_descrip = (
        'flat_mean_normalization_method: Specify how the mean image is normalized prior to searching '
        'for bad pixels. The value used is stored in the {} keyword.'.format(
            norm_method_kw))
    model.history.append(util.create_history_entry(norm_descrip))

    smooth_descrip = (
        'smoothing_box_width: Width in pixels of the box kernel to use to compute the '
        'smoothed mean image. The value used is stored in the {} keyword.'.
        format(smooth_box_width_kw))
    model.history.append(util.create_history_entry(smooth_descrip))

    smooth_type_descrip = (
        'smoothing_type: Type of smoothing to do: Box2D or median filtering. The value used '
        'is stored in the {} keyword.'.format(smoothing_type_kw))
    model.history.append(util.create_history_entry(smooth_type_descrip))

    dead_sig_descrip = (
        'Number of standard deviations below the mean at which a pixel is considered dead. '
        'The value used is stored in the {} keyword.'.format(
            dead_sig_thresh_kw))
    model.history.append(util.create_history_entry(dead_sig_descrip))

    max_dead_descrip = (
        'Maximum normalized signal rate of a pixel that is considered dead. The value '
        'used is stored in the {} keyword.'.format(max_dead_sig_kw))
    model.history.append(util.create_history_entry(max_dead_descrip))

    run_dead_flux_descrip = (
        'run_dead_flux_check: Boolean, if True, search for pixels erroneously flagged '
        'as dead because they are saturated in all groups. The value used is stored '
        'in the {} keyword.'.format(dead_flux_check_kw))
    model.history.append(util.create_history_entry(run_dead_flux_descrip))

    dead_flux_limit_descrip = (
        'Signal limit in raw data above which the pixel is considered not dead. The '
        'value used is stored in the {} keyword.'.format(max_dead_sig_kw))
    model.history.append(util.create_history_entry(dead_flux_limit_descrip))

    max_low_qe_descrip = (
        'The maximum normalized signal a pixel can have and be considered low QE. The '
        'value used is stored in the {} keyword.'.format(max_low_qe_kw))
    model.history.append(util.create_history_entry(max_low_qe_descrip))

    max_open_adj_descrip = (
        'The maximum normalized signal a pixel adjacent to a low QE pixel can have '
        'in order for the low QE pixel to be reclassified as OPEN. The value used '
        'is stored in the {} keyword.'.format(max_open_adj_kw))
    model.history.append(util.create_history_entry(max_open_adj_descrip))

    flat_do_not_use_descrip = (
        'List of bad pixel types (from flats) where the DO_NOT_USE flag is also applied. '
        'The values used are stored in the {} keyword.'.format(
            flat_do_not_use_kw))
    model.history.append(util.create_history_entry(flat_do_not_use_descrip))

    manual_file_descrip = (
        'Name of the ascii file containing a list of pixels to be added manually. The '
        'value used is stored in the {} keyword.'.format(manual_flag_kw))
    model.history.append(util.create_history_entry(manual_file_descrip))

    # Parameters from badpix_from_darks
    bad_from_dark_descrip = (
        'badpix_from_dark: Boolean, whether or not the bad pixel from dark search  '
        'has been run. The value is stored in the {} keyword.'.format(
            bad_from_dark_kw))
    model.history.append(util.create_history_entry(bad_from_dark_descrip))

    dark_clip_sig_descrip = (
        'Number of sigma to use when sigma-clipping 2D stdev image. The value used '
        'is stored in the {} keyword.'.format(dark_clip_sigma_kw))
    model.history.append(util.create_history_entry(dark_clip_sig_descrip))

    dark_clip_iter_descrip = (
        'Max number of iterations to use when sigma clipping mean and stdev values. '
        'The value used is stored in the {} keyword.'.format(
            dark_clip_iters_kw))
    model.history.append(util.create_history_entry(dark_clip_iter_descrip))

    dark_noisy_thresh_descrip = (
        'Number of sigma above mean noise for noisy pix threshold. The value '
        'used is stored in the {} keyword.'.format(dark_noisy_thresh_kw))
    model.history.append(util.create_history_entry(dark_noisy_thresh_descrip))

    max_sat_frac_descrip = (
        'Fraction of integrations within which a pixel must be fully saturated before '
        'flagging it as HOT. The value used is stored in the {} keyword.'.
        format(max_sat_frac_kw))
    model.history.append(util.create_history_entry(max_sat_frac_descrip))

    jump_limit_descrip = (
        'Maximum number of jumps a pixel can have in an integration before it is flagged as a '
        '"high jump" pixel. The value used is stored in the {} keyword.'.
        format(jump_limit_kw))
    model.history.append(util.create_history_entry(jump_limit_descrip))

    jump_ratio_descrip = (
        'Cutoff for the ratio of jumps early in the ramp to jumps later in the ramp when '
        'looking for RC pixels. The value used is stored in the {} keyword.'.
        format(jump_ratio_thresh_kw))
    model.history.append(util.create_history_entry(jump_ratio_descrip))

    cutoff_frac_descrip = (
        'Fraction of the integration to use when comparing the jump rate early in the integration to '
        'that across the entire integration. The value used is stored in the {} keyword.'
        .format(cutoff_frac_kw))
    model.history.append(util.create_history_entry(cutoff_frac_descrip))

    ped_sigma_descrip = (
        'Pixels with pedestal values more than this limit above the mean are flagged as RC. '
        'The value used is stored in the {} keyword.'.format(
            pedestal_sig_thresh_kw))
    model.history.append(util.create_history_entry(ped_sigma_descrip))

    rc_thresh_descrip = (
        'Fraction of input files within which a pixel must be identified as an RC pixel before '
        'it will be flagged as a permanent RC pixel. The value used is stored in the {} '
        'keyword.'.format(rc_frac_thresh_kw))
    model.history.append(util.create_history_entry(rc_thresh_descrip))

    low_ped_descrip = (
        'Fraction of input files within which a pixel must be identified as a low pedestal '
        'pixel before it will be flagged as a permanent low pedestal pixel. The value used '
        'is stored in the {} keyword.'.format(low_ped_frac_kw))
    model.history.append(util.create_history_entry(low_ped_descrip))

    high_cr_descrip = (
        'Fraction of input files within which a pixel must be flagged as having a high number '
        'of jumps before it will be flagged as permanently noisy. The value used '
        'is stored in the {} keyword.'.format(high_cr_frac_kw))
    dark_do_not_use_descrip = (
        'List of bad pixel types (from darks) where the DO_NOT_USE flag is also applied. '
        'The values used are stored in the {} keyword.'.format(
            dark_do_not_use_kw))
    model.history.append(util.create_history_entry(dark_do_not_use_descrip))

    # Add the list of input files used to create the map
    model.history.append('DATA USED:')
    for file in files:
        totlen = len(file)
        div = np.arange(0, totlen, 60)
        for val in div:
            if totlen > (val + 60):
                model.history.append(
                    util.create_history_entry(file[val:val + 60]))
            else:
                model.history.append(util.create_history_entry(file[val:]))

    # Add the do not use lists, pixel flag mappings, and user-provided
    # history text
    for history_entry in history_text:
        if history_entry != '':
            model.history.append(util.create_history_entry(history_entry))

    model.save(outfile, overwrite=True)
    print('Final bad pixel mask reference file save to: {}'.format(outfile))
Exemplo n.º 3
0
def save_final_map(bad_pix_map, instrument, detector, files, author, description, pedigree, useafter,
                   history_text, sigma_thresh, smooth_width, dead_sigma_thresh, max_dead_rate,
                   max_low_qe_rate, max_open_adj_rate, do_not_use_list, outfile):
    """Save a bad pixel map into a CRDS-formatted reference file

    Parameters
    ----------

    """
    # Define the non-standard fits header keywords by placing them in a
    # fits HDU List
    sig_thresh_keyword = 'BPMSIGMA'
    smooth_keyword = 'BPMSMOTH'
    dead_sigma_keyword = 'BPMDEDSG'
    max_dead_keyword = 'BPMMXDED'
    max_low_qe_keyword = 'BPMMXLQE'
    max_open_adj_keyword = 'BPMMXOAD'
    hdu = fits.PrimaryHDU()
    hdu.header[sig_thresh_keyword] = sigma_thresh
    hdu.header[smooth_keyword] = smooth_width
    hdu.header[dead_sigma_keyword] = dead_sigma_thresh
    hdu.header[max_dead_keyword] = max_dead_rate
    hdu.header[max_low_qe_keyword] = max_low_qe_rate
    hdu.header[max_open_adj_keyword] = max_open_adj_rate
    hdu_list = fits.HDUList([hdu])

    yd, xd = bad_pix_map.shape

    # Initialize the MaskModel using the hdu_list, so the new keywords will
    # be populated
    model = MaskModel(hdu_list)
    model.dq = bad_pix_map

    # Create dq_def data
    dq_def = create_dqdef()
    model.dq_def = dq_def
    model.meta.reftype = 'MASK'
    model.meta.subarray.name = 'FULL'
    model.meta.subarray.xstart = 1
    model.meta.subarray.xsize = xd
    model.meta.subarray.ystart = 1
    model.meta.subarray.ysize = yd
    model.meta.instrument.name = instrument.upper()
    model.meta.instrument.detector = detector

    # Get the fast and slow axis directions from one of the input files
    fastaxis, slowaxis = get_fastaxis(files[0])
    model.meta.subarray.fastaxis = fastaxis
    model.meta.subarray.slowaxis = slowaxis

    model.meta.author = author
    model.meta.description = description
    model.meta.pedigree = pedigree
    model.meta.useafter = useafter

    # Populate "extra" header keywords that will contain parameters used
    # in this module

    package_note = ('This file was created using the bad_pixel_mask.py module within the '
                    'jwst_reffiles package.')

    software_dict = {'name': 'jwst_reffiles.bad_pixel_mask.py', 'author': 'STScI',
                     'homepage': 'https://github.com/spacetelescope/jwst_reffiles',
                     'version': '0.0.0'}
    entry = util.create_history_entry(package_note, software=software_dict)
    model.history.append(entry)

    model.history.append(util.create_history_entry('Parameter values and descriptions:'))
    sigma_descrip = ('sigma_thresh: Number of standard deviations to use when sigma-clipping to '
                     'calculate the mean slope image or the mean across the detector. The value '
                     'used is stored in the {} keyword.'.format(sig_thresh_keyword))
    model.history.append(util.create_history_entry(sigma_descrip))

    smooth_descrip = ('smoothing_box_width: Width in pixels of the box kernel to use to compute the '
                      'smoothed mean image. The value used is stored in the {} keyword.'.format(smooth_keyword))
    model.history.append(util.create_history_entry(smooth_descrip))

    dead_sig_descrip = ('Number of standard deviations below the mean at which a pixel is considered dead. '
                        'The value used is stored in the {} keyword.'.format(dead_sigma_keyword))
    model.history.append(util.create_history_entry(dead_sig_descrip))

    max_dead_descrip = ('Maximum normalized signal rate of a pixel that is considered dead. The value '
                        'used is stored in the {} keyword.'.format(max_dead_keyword))
    model.history.append(util.create_history_entry(max_dead_descrip))

    max_low_qe_descrip = ('The maximum normalized signal a pixel can have and be considered low QE. The '
                          'value used is stored in the {} keyword.'.format(max_low_qe_keyword))
    model.history.append(util.create_history_entry(max_low_qe_descrip))

    max_open_adj_descrip = ('The maximum normalized signal a pixel adjacent to a low QE pixel can have '
                            'in order for the low QE pixel to be reclassified as OPEN. The value used '
                            'is stored in the {} keyword.'.format(max_open_adj_keyword))
    model.history.append(util.create_history_entry(max_open_adj_descrip))

    do_not_use_descrip = ('List of bad pixel types where the DO_NOT_USE flag is also applied. '
                          'Values used are: {}'.format(do_not_use_list))
    model.history.append(util.create_history_entry(do_not_use_descrip))

    # Add the list of input files used to create the map
    model.history.append('DATA USED:')
    for file in files:
        totlen = len(file)
        div = np.arange(0, totlen, 60)
        for val in div:
            if totlen > (val+60):
                model.history.append(util.create_history_entry(file[val:val+60]))
            else:
                model.history.append(util.create_history_entry(file[val:]))

    if history_text is not None:
        model.history.append(util.create_history_entry(history_text))

    model.save(outfile, overwrite=True)
    print('Final bad pixel mask reference file save to: {}'.format(outfile))