示例#1
0
 def __init__(self):
     super(TNGDoloresSpectrograph, self).__init__()
     self.spectrograph = 'tng_dolores'
     self.telescope = telescopes.TNGTelescopePar()
     self.camera = 'DOLORES'
     self.detector = [
             # Detector 1
             pypeitpar.DetectorPar(
                         dataext         = 0,
                         specaxis        = 1,
                         specflip        = False,
                         xgap            = 0.,
                         ygap            = 0.,
                         ysize           = 1.,
                         platescale      = 0.252,
                         darkcurr        = 0.0,
                         saturation      = 65535.,
                         nonlinear       = 0.76,
                         numamplifiers   = 1,
                         gain            = 0.97,
                         ronoise         = 9.0,
                         datasec         = '[51:,1:2045]',
                         oscansec        = '[51:,2054:]',
                         suffix          = '_lrr'
                         )]
     self.numhead = 1
     # Uses default primary_hdrext
     self.timeunit = 'isot'
示例#2
0
class TNGDoloresSpectrograph(spectrograph.Spectrograph):
    """
    Child to handle Shane/Kast specific code
    """
    ndet = 1
    name = 'tng_dolores'
    telescope = telescopes.TNGTelescopePar()
    camera = 'DOLORES'
    comment = 'DOLORES (LRS) spectrograph; LR-R'

    #    def __init__(self):
    #        super().__init__()
    #        self.timeunit = 'isot'

    def get_detector_par(self, hdu, det):
        """
        Return metadata for the selected detector.

        Args:
            hdu (`astropy.io.fits.HDUList`_):
                The open fits file with the raw image of interest.
            det (:obj:`int`):
                1-indexed detector number.

        Returns:
            :class:`~pypeit.images.detector_container.DetectorContainer`:
            Object with the detector metadata.
        """
        # Detector 1
        detector_dict = dict(
            binning='1,1',
            det=1,
            dataext=0,
            specaxis=1,
            specflip=False,
            spatflip=False,
            xgap=0.,
            ygap=0.,
            ysize=1.,
            platescale=0.252,
            darkcurr=0.0,
            saturation=65535.,
            nonlinear=0.76,
            mincounts=-1e10,
            numamplifiers=1,
            gain=np.atleast_1d(0.97),
            ronoise=np.atleast_1d(9.0),
            datasec=np.atleast_1d('[51:,1:2045]'),
            oscansec=np.atleast_1d('[51:,2054:]'),
        )
        return detector_container.DetectorContainer(**detector_dict)

    @classmethod
    def default_pypeit_par(cls):
        """
        Return the default parameters to use for this instrument.
        
        Returns:
            :class:`~pypeit.par.pypeitpar.PypeItPar`: Parameters required by
            all of ``PypeIt`` methods.
        """
        par = super().default_pypeit_par()

        # Set the default exposure time ranges for the frame typing
        par['calibrations']['biasframe']['exprng'] = [None, 0.1]
        par['calibrations']['darkframe']['exprng'] = [999999,
                                                      None]  # No dark frames
        par['calibrations']['pinholeframe']['exprng'] = [999999, None
                                                         ]  # No pinhole frames
        par['scienceframe']['exprng'] = [1, None]
        return par

    def init_meta(self):
        """
        Define how metadata are derived from the spectrograph files.

        That is, this associates the ``PypeIt``-specific metadata keywords
        with the instrument-specific header cards using :attr:`meta`.
        """
        self.meta = {}
        # Required (core)
        self.meta['ra'] = dict(ext=0, card='RA')
        self.meta['dec'] = dict(ext=0, card='DEC')
        self.meta['target'] = dict(ext=0, card='OBJCAT')
        self.meta['decker'] = dict(ext=0, card='SLMSKNAM')
        self.meta['binning'] = dict(ext=0, card=None, default='1,1')

        self.meta['mjd'] = dict(ext=0, card=None, compound=True)
        self.meta['exptime'] = dict(ext=0, card='EXPTIME')
        self.meta['airmass'] = dict(ext=0, card='AIRMASS')
        # Extras for config and frametyping
        self.meta['dispname'] = dict(ext=0, card='GRM_ID')
        #self.meta['dispangle'] = dict(card=None, compound=True, rtol=1e-5)
        self.meta['idname'] = dict(ext=0, card='IMAGETYP')
        # Lamps
        self.meta['lampstat01'] = dict(ext=0, card='LMP_ID')

    def compound_meta(self, headarr, meta_key):
        """
        Methods to generate metadata requiring interpretation of the header
        data, instead of simply reading the value of a header card.

        Args:
            headarr (:obj:`list`):
                List of `astropy.io.fits.Header`_ objects.
            meta_key (:obj:`str`):
                Metadata keyword to construct.

        Returns:
            object: Metadata value read from the header(s).
        """
        if meta_key == 'mjd':
            time = headarr[0]['DATE-OBS']
            ttime = Time(time, format='isot')
            return ttime.mjd
        msgs.error("Not ready for this compound meta")

    def configuration_keys(self):
        """
        Return the metadata keys that define a unique instrument
        configuration.

        This list is used by :class:`~pypeit.metadata.PypeItMetaData` to
        identify the unique configurations among the list of frames read
        for a given reduction.

        Returns:
            :obj:`list`: List of keywords of data pulled from file headers
            and used to constuct the :class:`~pypeit.metadata.PypeItMetaData`
            object.
        """
        return ['dispname', 'decker']

    def check_frame_type(self, ftype, fitstbl, exprng=None):
        """
        Check for frames of the provided type.

        Args:
            ftype (:obj:`str`):
                Type of frame to check. Must be a valid frame type; see
                frame-type :ref:`frame_type_defs`.
            fitstbl (`astropy.table.Table`_):
                The table with the metadata for one or more frames to check.
            exprng (:obj:`list`, optional):
                Range in the allowed exposure time for a frame of type
                ``ftype``. See
                :func:`pypeit.core.framematch.check_frame_exptime`.

        Returns:
            `numpy.ndarray`_: Boolean array with the flags selecting the
            exposures in ``fitstbl`` that are ``ftype`` type frames.
        """
        good_exp = framematch.check_frame_exptime(fitstbl['exptime'], exprng)
        if ftype in ['science', 'standard']:
            return good_exp & (fitstbl['idname'] == 'OBJECT') & (fitstbl['lamps'] == 'Parking') \
                        & (fitstbl['dispname'] != 'OPEN')
        if ftype == 'bias':
            return good_exp & (fitstbl['dispname'] == 'OPEN')
        if ftype in ['pixelflat', 'trace']:
            return good_exp & (fitstbl['idname'] == 'CALIB') & (fitstbl['lamps'] == 'Halogen') \
                        & (fitstbl['dispname'] != 'OPEN')
        if ftype in ['pinhole', 'dark']:
            # Don't type pinhole or dark frames
            return np.zeros(len(fitstbl), dtype=bool)
        if ftype in ['arc', 'tilt']:
            return good_exp & (fitstbl['idname'] == 'arc') & (fitstbl['lamps'] == 'Ne+Hg') \
                        & (fitstbl['dispname'] != 'OPEN')
        msgs.warn('Cannot determine if frames are of type {0}.'.format(ftype))
        return np.zeros(len(fitstbl), dtype=bool)
示例#3
0
 def __init__(self):
     super(TNGDoloresSpectrograph, self).__init__()
     self.spectrograph = 'tng_dolores'
     self.telescope = telescopes.TNGTelescopePar()
     self.camera = 'DOLORES'
     self.timeunit = 'isot'