TweakRegStep¶
- class jwst.tweakreg.tweakreg_step.TweakRegStep(name=None, parent=None, config_file=None, _validate_kwds=True, **kws)[source]
Bases:
JwstStep
TweakRegStep: Image alignment based on catalogs of sources detected in input images.
Create a
Step
instance.- Parameters:
name (str, optional) – The name of the Step instance. Used in logging messages and in cache filenames. If not provided, one will be generated based on the class name.
parent (Step instance, optional) – The parent step of this step. Used to determine a fully-qualified name for this step, and to determine the mode in which to run this step.
config_file (str path, optional) – The path to the config file that this step was initialized with. Use to determine relative path names of other config files.
**kws (dict) – Additional parameters to set. These will be set as member variables on the new Step instance.
Attributes Summary
Methods Summary
process
(input)This is where real work happens.
Attributes Documentation
- class_alias = 'tweakreg'¶
- reference_file_types = []¶
- spec¶
save_catalogs = boolean(default=False) # Write out catalogs? use_custom_catalogs = boolean(default=False) # Use custom user-provided catalogs? catalog_format = string(default='ecsv') # Catalog output file format catfile = string(default='') # Name of the file with a list of custom user-provided catalogs kernel_fwhm = float(default=2.5) # Gaussian kernel FWHM in pixels snr_threshold = float(default=10.0) # SNR threshold above the bkg sharplo = float(default=0.2) # The lower bound on sharpness for object detection. sharphi = float(default=1.0) # The upper bound on sharpness for object detection. roundlo = float(default=-1.0) # The lower bound on roundness for object detection. roundhi = float(default=1.0) # The upper bound on roundness for object detection. brightest = integer(default=200) # Keep top ``brightest`` objects peakmax = float(default=None) # Filter out objects with pixel values >= ``peakmax`` bkg_boxsize = integer(default=400) # The background mesh box size in pixels. enforce_user_order = boolean(default=False) # Align images in user specified order? expand_refcat = boolean(default=False) # Expand reference catalog with new sources? minobj = integer(default=15) # Minimum number of objects acceptable for matching searchrad = float(default=2.0) # The search radius in arcsec for a match use2dhist = boolean(default=True) # Use 2d histogram to find initial offset? separation = float(default=1.0) # Minimum object separation in arcsec tolerance = float(default=0.7) # Matching tolerance for xyxymatch in arcsec xoffset = float(default=0.0), # Initial guess for X offset in arcsec yoffset = float(default=0.0) # Initial guess for Y offset in arcsec fitgeometry = option('shift', 'rshift', 'rscale', 'general', default='rshift') # Fitting geometry nclip = integer(min=0, default=3) # Number of clipping iterations in fit sigma = float(min=0.0, default=3.0) # Clipping limit in sigma units abs_refcat = string(default='') # Catalog file name or one of: "'GAIADR3'", "'GAIADR2'", or "'GAIADR1'", or None, or '' save_abs_catalog = boolean(default=False) # Write out used absolute astrometric reference catalog as a separate product abs_minobj = integer(default=15) # Minimum number of objects acceptable for matching when performing absolute astrometry abs_searchrad = float(default=6.0) # The search radius in arcsec for a match when performing absolute astrometry # We encourage setting this parameter to True. Otherwise, xoffset and yoffset will be set to zero. abs_use2dhist = boolean(default=True) # Use 2D histogram to find initial offset when performing absolute astrometry? abs_separation = float(default=0.1) # Minimum object separation in arcsec when performing absolute astrometry abs_tolerance = float(default=0.7) # Matching tolerance for xyxymatch in arcsec when performing absolute astrometry # Fitting geometry when performing absolute astrometry abs_fitgeometry = option('shift', 'rshift', 'rscale', 'general', default='rshift') abs_nclip = integer(min=0, default=3) # Number of clipping iterations in fit when performing absolute astrometry abs_sigma = float(min=0.0, default=3.0) # Clipping limit in sigma units when performing absolute astrometry output_use_model = boolean(default=True) # When saving use `DataModel.meta.filename`
Methods Documentation