LatissTranslator¶

class lsst.obs.lsst.translators.LatissTranslator(header, filename=None)¶

Bases: lsst.obs.lsst.translators.lsst.LsstBaseTranslator

Metadata translator for LSST LATISS data from AuxTel.

For lab measurements many values are masked out.

Attributes Summary

`DETECTOR_GROUP_NAME`	Fixed name of detector group.
`DETECTOR_MAX`	Maximum number of detectors to use when calculating the detector_exposure_id.
`DETECTOR_NAME`	Fixed name of single sensor.
`cameraPolicyFile`
`default_resource_package`
`default_resource_root`
`default_search_path`
`detectorMapping`
`detectorSerials`
`name`	Name of this translation class
`supported_instrument`	Supports the LATISS instrument.
`translators`

Methods Summary

`are_keys_ok`(keywords)	Are the supplied keys all present and defined?
`can_translate`(header[, filename])	Indicate whether this translation class can translate the supplied header.
`can_translate_with_options`(header, options)	Helper method for `can_translate` allowing options.
`cards_used`()	Cards used during metadata extraction.
`compute_detector_exposure_id`(exposure_id, …)	Compute the detector exposure ID from detector number and exposure ID.
`compute_detector_info_from_serial`(…)	Helper method to return the detector information from the serial.
`compute_detector_num_from_name`(…)	Helper method to return the detector number from the name.
`compute_exposure_id`(dayobs, seqnum[, controller])	Helper method to calculate the exposure_id.
`defined_in_this_class`(name)	Report if the specified class attribute is defined specifically in this class.
`detector_mapping`()	Returns the mapping of full name to detector ID and serial.
`detector_serials`()	Obtain the mapping of detector serial to detector group, name, and number.
`determine_translatable_headers`(filename[, …])	Given a file return all the headers usable for metadata translation.
`determine_translator`(header[, filename])	Determine a translation class by examining the header
`fix_header`(header, instrument, obsid[, filename])	Fix an incorrect LATISS header.
`is_key_ok`(keyword)	Return `True` if the value associated with the named keyword is present in this header and defined.
`is_keyword_defined`(header, keyword)	Return `True` if the value associated with the named keyword is present in the supplied header and defined.
`is_on_sky`()	Determine if this is an on-sky observation.
`max_detector_exposure_id`()	The maximum detector exposure ID expected to be generated by this instrument.
`max_exposure_id`()	The maximum exposure ID expected from this instrument.
`quantity_from_card`(keywords, unit[, …])	Calculate a Astropy Quantity from a header card and a unit.
`resource_root`()	Package resource to use to locate correction resources within an installed package.
`search_paths`()	Search paths to use for LSST data when looking for header correction files.
`to_altaz_begin`()
`to_boresight_airmass`()	Calculate airmass at boresight at start of observation.
`to_boresight_rotation_angle`()	Angle of the instrument in boresight_rotation_coord frame.
`to_boresight_rotation_coord`()	Boresight rotation angle.
`to_dark_time`()
`to_datetime_begin`()
`to_datetime_end`()
`to_detector_exposure_id`()
`to_detector_group`()	Collection name of which this detector is a part.
`to_detector_name`()	Name of the detector within the instrument (might not be unique if there are detector groups).
`to_detector_num`()	Unique (for instrument) integer identifier for the sensor.
`to_detector_serial`()	Serial number/string associated with this detector.
`to_detector_unique_name`()	Return a unique name for the detector.
`to_exposure_group`()	Calculate the exposure group string.
`to_exposure_id`()	Generate a unique exposure ID number
`to_exposure_time`()
`to_instrument`()	The instrument used to observe the exposure.
`to_location`()
`to_object`()	Object of interest or field name.
`to_observation_counter`()	Return the sequence number within the observing day.
`to_observation_id`()	Label uniquely identifying this observation (can be related to ‘exposure_id’).
`to_observation_reason`()
`to_observation_type`()	Determine the observation type.
`to_observing_day`()	Return the day of observation as YYYYMMDD integer.
`to_physical_filter`()	Calculate the physical filter name.
`to_pressure`()	Atmospheric pressure outside the dome.
`to_relative_humidity`()	Relative humidity outside the dome.
`to_science_program`()	Observing program (survey or proposal) identifier.
`to_telescope`()	Full name of the telescope.
`to_temperature`()	Temperature outside the dome.
`to_tracking_radec`()
`to_visit_id`()	Calculate the visit associated with this exposure.
`translator_version`()	Return the version string for this translator class.
`validate_value`(value, default[, minimum, …])	Validate the supplied value, returning a new value if out of range

Attributes Documentation

DETECTOR_GROUP_NAME = 'RXX'¶: Fixed name of detector group.

DETECTOR_MAX = 0¶: Maximum number of detectors to use when calculating the detector_exposure_id.

DETECTOR_NAME = 'S00'¶: Fixed name of single sensor.

cameraPolicyFile = None¶

default_resource_package = 'astro_metadata_translator'¶

default_resource_root = None¶

default_search_path = None¶

detectorMapping = None¶

detectorSerials = None¶

name = 'LSST_LATISS'¶: Name of this translation class

supported_instrument = 'LATISS'¶: Supports the LATISS instrument.

translators = {'DECam': <class 'astro_metadata_translator.translators.decam.DecamTranslator'>, 'HSC': <class 'astro_metadata_translator.translators.hsc.HscTranslator'>, 'LSST-TS3': <class 'lsst.obs.lsst.translators.ts3.LsstTS3Translator'>, 'LSST-TS8': <class 'lsst.obs.lsst.translators.ts8.LsstTS8Translator'>, 'LSST-UCDCam': <class 'lsst.obs.lsst.translators.lsst_ucdcam.LsstUCDCamTranslator'>, 'LSSTCam': <class 'lsst.obs.lsst.translators.lsstCam.LsstCamTranslator'>, 'LSSTCam-PhoSim': <class 'lsst.obs.lsst.translators.phosim.LsstCamPhoSimTranslator'>, 'LSSTCam-imSim': <class 'lsst.obs.lsst.translators.imsim.LsstCamImSimTranslator'>, 'LSSTComCam': <class 'lsst.obs.lsst.translators.comCam.LsstComCamTranslator'>, 'LSST_LATISS': <class 'lsst.obs.lsst.translators.latiss.LatissTranslator'>, 'MegaPrime': <class 'astro_metadata_translator.translators.megaprime.MegaPrimeTranslator'>, 'SDSS': <class 'astro_metadata_translator.translators.sdss.SdssTranslator'>, 'SuprimeCam': <class 'astro_metadata_translator.translators.suprimecam.SuprimeCamTranslator'>}¶

Methods Documentation

are_keys_ok(keywords)¶

Are the supplied keys all present and defined?

Parameters:	keywords : iterable of `str` Keywords to test.
Returns:	all_ok : `bool` `True` if all supplied keys are present and defined.

classmethod can_translate(header, filename=None)¶

Indicate whether this translation class can translate the supplied header.

Parameters:	header : `dict`-like Header to convert to standardized form. filename : `str`, optional Name of file being translated.
Returns:	can : `bool` `True` if the header is recognized by this class. `False` otherwise.

classmethod can_translate_with_options(header, options, filename=None)¶

Helper method for can_translate allowing options.

Parameters:	header : `dict`-like Header to convert to standardized form. options : `dict` Headers to try to determine whether this header can be translated by this class. If a card is found it will be compared with the expected value and will return that comparison. Each card will be tried in turn until one is found. filename : `str`, optional Name of file being translated.
Returns:	can : `bool` `True` if the header is recognized by this class. `False` otherwise.

Notes

Intended to be used from within can_translate implementations for specific translators. Is not intended to be called directly from determine_translator.

cards_used()¶

Cards used during metadata extraction.

Returns:	used : `frozenset` of `str` Cards used when extracting metadata.

static compute_detector_exposure_id(exposure_id, detector_num)¶

Compute the detector exposure ID from detector number and exposure ID.

This is a helper method to allow code working outside the translator infrastructure to use the same algorithm.

Parameters:	exposure_id : `int` Unique exposure ID. detector_num : `int` Detector number.
Returns:	detector_exposure_id : `int` The calculated ID.

classmethod compute_detector_info_from_serial(detector_serial)¶

Helper method to return the detector information from the serial.

Parameters:	detector_serial : `str` Detector serial ID.
Returns:	info : `tuple` of (`str`, `str`, `int`) Detector group, name, and number.

classmethod compute_detector_num_from_name(detector_group, detector_name)¶

Helper method to return the detector number from the name.

Parameters:	detector_group : `str` Name of the detector grouping. This is generally the raft name. detector_name : `str` Detector name.
Returns:	num : `int` Detector number.

static compute_exposure_id(dayobs, seqnum, controller=None)¶

Helper method to calculate the exposure_id.

Parameters:

dayobs : str: Day of observation in either YYYYMMDD or YYYY-MM-DD format. If the string looks like ISO format it will be truncated before the T before being handled.
seqnum : int or str: Sequence number.
controller : str, optional: Controller to use. If this is “O”, no change is made to the exposure ID. If it is “C” a 1000 is added to the year component of the exposure ID. If it is “H” a 2000 is added to the year component. This sequence continues with “P” and “Q” controllers. None indicates that the controller is not relevant to the exposure ID calculation (generally this is the case for test stand data).

Returns:

exposure_id : int: Exposure ID in form YYYYMMDDnnnnn form.

classmethod defined_in_this_class(name)¶

Report if the specified class attribute is defined specifically in this class.

Parameters:	name : `str` Name of the attribute to test.
Returns:	in_class : `bool` `True` if there is a attribute of that name defined in this specific subclass. `False` if the method is not defined in this specific subclass but is defined in a parent class. Returns `None` if the attribute is not defined anywhere in the class hierarchy (which can happen if translators have typos in their mapping tables).

Notes

Retrieves the attribute associated with the given name. Then looks in all the parent classes to determine whether that attribute comes from a parent class or from the current class. Attributes are compared using id().

classmethod detector_mapping()¶

Returns the mapping of full name to detector ID and serial.

Returns:	mapping : `dict` of `str`:`tuple` Returns the mapping of full detector name (group+detector) to detector number and serial.
Raises:	ValueError Raised if no camera policy file has been registered with this translation class.

Notes

Will construct the mapping if none has previously been constructed.

classmethod detector_serials()¶

Obtain the mapping of detector serial to detector group, name, and number.

Returns:	info : `dict` of `tuple` of (`str`, `str`, `int`) A `dict` with the serial numbers as keys and values of detector group, name, and number.

classmethod determine_translatable_headers(filename, primary=None)¶

Given a file return all the headers usable for metadata translation.

This method can optionally be given a header from the file. This header will generally be the primary header or a merge of the first two headers.

In the base class implementation it is assumed that this supplied header is the only useful header for metadata translation and it will be returned unchanged if given. This can avoid unnecesarily re-opening the file and re-reading the header when the content is already known.

If no header is supplied, a header will be read from the supplied file using read_basic_metadata_from_file, allowing it to merge the primary and secondary header of a multi-extension FITS file. Subclasses can read the header from the data file using whatever technique is best for that instrument.

Subclasses can return multiple headers and ignore the externally supplied header. They can also merge it with another header and return a new derived header if that is required by the particular data file. There is no requirement for the supplied header to be used.

Parameters:

filename : str: Path to a file in a format understood by this translator.
primary : dict-like, optional: The primary header obtained by the caller. This is sometimes already known, for example if a system is trying to bootstrap without already knowing what data is in the file. For many instruments where the primary header is the only relevant header, the primary header will be returned with no further action.

Yields:

headers : iterator of dict-like: A header usable for metadata translation. For this base implementation it will be either the supplied primary header or a header read from the file. This implementation will only ever yield a single header.

Notes

Each translator class can have code specifically tailored to its own file format. It is important not to call this method with an incorrect translator class. The normal paradigm is for the caller to have read the first header and then called determine_translator() on the result to work out which translator class to then call to obtain the real headers to be used for translation.

classmethod determine_translator(header, filename=None)¶

Determine a translation class by examining the header

Parameters:	header : `dict`-like Representation of a header. filename : `str`, optional Name of file being translated.
Returns:	translator : `MetadataTranslator` Translation class that knows how to extract metadata from the supplied header.
Raises:	ValueError None of the registered translation classes understood the supplied header.

classmethod fix_header(header, instrument, obsid, filename=None)¶

Fix an incorrect LATISS header.

Parameters:	header : `dict` The header to update. Updates are in place. instrument : `str` The name of the instrument. obsid : `str` Unique observation identifier associated with this header. Will always be provided. filename : `str`, optional Filename associated with this header. May not be set since headers can be fixed independently of any filename being known.
Returns:	modified = `bool` Returns `True` if the header was updated.

Notes

This method does not apply per-obsid corrections. The following corrections are applied:

On June 24th 2019 the detector was changed from ITL-3800C-098 to ITL-3800C-068. The header is intended to be correct in the future.
In late 2019 the DATE-OBS and MJD-OBS headers were reporting 1970 dates. To correct, the DATE/MJD headers are copied in to replace them and the -END headers are cleared.
Until November 2019 the IMGTYPE was set in the GROUPID header. The value is moved to IMGTYPE.
SHUTTIME is always forced to be None.

Corrections are reported as debug level log messages.

See fix_header for details of the general process.

is_key_ok(keyword)¶

Return True if the value associated with the named keyword is present in this header and defined.

Parameters:	keyword : `str` Keyword to check against header.
Returns:	is_ok : `bool` `True` if the header is present and not-`None`. `False` otherwise.

static is_keyword_defined(header, keyword)¶

Return True if the value associated with the named keyword is present in the supplied header and defined.

Parameters:	header : `dict`-lik Header to use as reference. keyword : `str` Keyword to check against header.
Returns:	is_defined : `bool` `True` if the header is present and not-`None`. `False` otherwise.

is_on_sky()¶

Determine if this is an on-sky observation.

Returns:	is_on_sky : `bool` Returns True if this is a observation on sky on the summit.

classmethod max_detector_exposure_id()¶

The maximum detector exposure ID expected to be generated by this instrument.

Returns:	max_id : `int` The maximum value.

classmethod max_exposure_id()¶

The maximum exposure ID expected from this instrument.

Returns:	max_exposure_id : `int` The maximum value.

quantity_from_card(keywords, unit, default=None, minimum=None, maximum=None, checker=None)¶

Calculate a Astropy Quantity from a header card and a unit.

Parameters:	keywords : `str` or `list` of `str` Keyword to use from header. If a list each keyword will be tried in turn until one matches. unit : `astropy.units.UnitBase` Unit of the item in the header. default : `float`, optional Default value to use if the header value is invalid. Assumed to be in the same units as the value expected in the header. If None, no default value is used. minimum : `float`, optional Minimum possible valid value, optional. If the calculated value is below this value, the default value will be used. maximum : `float`, optional Maximum possible valid value, optional. If the calculated value is above this value, the default value will be used. checker : `function`, optional Callback function to be used by the translator method in case the keyword is not present. Function will be executed as if it is a method of the translator class. Running without raising an exception will allow the default to be used. Should usually raise `KeyError`.
Returns:	q : `astropy.units.Quantity` Quantity representing the header value.
Raises:	KeyError The supplied header key is not present.

resource_root()¶

Package resource to use to locate correction resources within an installed package.

Returns:	resource_package : `str` Package resource name. `None` if no package resource are to be used. resource_root : `str` The name of the resource root. `None` if no package resources are to be used.

search_paths()¶

Search paths to use for LSST data when looking for header correction files.

Returns:	path : `list` List with a single element containing the full path to the `corrections` directory within the `obs_lsst` package.

to_altaz_begin()¶

to_boresight_airmass()¶

Calculate airmass at boresight at start of observation.

Notes

Early data are missing AMSTART header so we fall back to calculating it from ELSTART.

to_boresight_rotation_angle()¶

Angle of the instrument in boresight_rotation_coord frame.

Returns:	translation : `astropy.coordinates.Angle` Translated value derived from the header.

to_boresight_rotation_coord()¶

Boresight rotation angle.

Only relevant for science observations.

to_dark_time()¶

to_datetime_begin()¶

to_datetime_end()¶

to_detector_exposure_id()¶

to_detector_group()¶

Collection name of which this detector is a part. Can be None if there are no detector groupings.

Returns:	translation : `str` Translated property.

to_detector_name()¶

Name of the detector within the instrument (might not be unique if there are detector groups).

Returns:	translation : `str` Translated property.

to_detector_num()¶

Unique (for instrument) integer identifier for the sensor.

Returns:	translation : `int` Translated property.

to_detector_serial()¶

Serial number/string associated with this detector.

Returns:	translation : `str` Translated value derived from the header.

to_detector_unique_name()¶

Return a unique name for the detector.

Base class implementation attempts to combine detector_name with detector_group. Group is only used if not None.

Can be over-ridden by specialist translator class.

Returns:	name : `str` detector_group``_``detector_name if `detector_group` is defined, else the `detector_name` is assumed to be unique. If neither return a valid value an exception is raised.
Raises:	NotImplementedError Raised if neither detector_name nor detector_group is defined.

to_exposure_group()¶

Calculate the exposure group string.

For LSSTCam and LATISS this is read from the GROUPID header. If that header is missing the exposure_id is returned instead as a string.

to_exposure_id()¶

Generate a unique exposure ID number

This is a combination of DAYOBS and SEQNUM, and optionally CONTRLLR.

Returns:	exposure_id : `int` Unique exposure number.

to_exposure_time()¶

to_instrument()¶

The instrument used to observe the exposure.

Returns:	translation : `str` Translated property.

to_location()¶

to_object()¶

Object of interest or field name.

Returns:	translation : `str` Translated value derived from the header.

to_observation_counter()¶

Return the sequence number within the observing day.

Returns:	counter : `int` The sequence number for this day.

to_observation_id()¶

Label uniquely identifying this observation (can be related to ‘exposure_id’).

Returns:	translation : `str` Translated value derived from the header.

to_observation_reason()¶

to_observation_type()¶

Determine the observation type.

In the absence of an IMGTYPE header, assumes lab data is always a dark if exposure time is non-zero, else bias.

Returns:	obstype : `str` Observation type.

to_observing_day()¶

Return the day of observation as YYYYMMDD integer.

For LSSTCam and other compliant instruments this is the value of the DAYOBS header.

Returns:	obs_day : `int` The day of observation.

to_physical_filter()¶

Calculate the physical filter name.

Returns:

filter : str: Name of filter. A combination of FILTER and GRATING headers joined by a “~”. The filter and grating are always combined. The filter or grating part will be “none” if no value is specified. Uses “empty” if any of the filters or gratings indicate an “empty_N” name. “unknown” indicates that the filter is not defined anywhere but we think it should be. “none” indicates that the filter was not defined but the observation is a dark or bias.

to_pressure()¶

Atmospheric pressure outside the dome.

Returns:	translation : `astropy.units.Quantity` Translated property.

to_relative_humidity()¶

Relative humidity outside the dome.

Returns:	translation : `float` Translated property.

to_science_program()¶

Observing program (survey or proposal) identifier.

Returns:	translation : `str` Translated property.

to_telescope()¶

Full name of the telescope.

Returns:	translation : `str` Translated property.

to_temperature()¶

Temperature outside the dome.

Returns:	translation : `astropy.units.Quantity` Translated property.

to_tracking_radec()¶

to_visit_id()¶

Calculate the visit associated with this exposure.

Notes

For LATISS and LSSTCam the default visit is derived from the exposure group. For other instruments we return the exposure_id.

classmethod translator_version()¶

Return the version string for this translator class.

Returns:	version : `str` String identifying the version of this translator.

Notes

Assumes that the version is available from the __version__ variable in the parent module. If this is not the case a translator should subclass this method.

static validate_value(value, default, minimum=None, maximum=None)¶

Validate the supplied value, returning a new value if out of range

Parameters:

value : float: Value to be validated.
default : float: Default value to use if supplied value is invalid or out of range. Assumed to be in the same units as the value expected in the header.
minimum : float: Minimum possible valid value, optional. If the calculated value is below this value, the default value will be used.
maximum : float: Maximum possible valid value, optional. If the calculated value is above this value, the default value will be used.

Returns:

value : float: Either the supplied value, or a default value.

Navigation

LatissTranslator¶