コード例 #1
0
    def _perform(self):
        args = self.action.args
        img = args.img
        h, w = img.shape

        out_args = Arguments()
        out_args.name = args.name
        out_args.img = self._applyAHEC(img).reshape((h, w)).astype(dtype="uint8")
        return out_args
    def _perform(self):
        """
        Expects action.args.name as fits file name
        Returns HDUs or (later) data model
        """
        name = self.action.args.name
        self.logger.debug(f"Reading {name}")
        out_args = Arguments()
        out_args.name = name
        out_args.img = self.readData(name)

        return out_args
コード例 #3
0
    def _perform(self):
        '''
        Expects action.args.name as fits file name
        Returns HDUs or (later) data model
        '''
        name = self.action.args.name
        self.logger.info(f"Reading {name}")
        out_args = Arguments()
        out_args.name = name
        out_args.hdus = open_nowarning(name)

        return out_args
コード例 #4
0
    def _perform(self):
        # if self.context.data_set is None:
        #    self.context.data_set = DataSet(None, self.logger, self.config,
        #    self.context.event_queue)
        # self.context.data_set.append_item(self.action.args.name)
        self.logger.info(
            "------------------- Ingesting file %s -------------------" %
            self.action.args.name)
        self.name = self.action.args.name
        out_args = Arguments()

        ccddata, table = kcwi_fits_reader(self.name)

        # save the ccd data into an object
        # that can be shared across the functions
        self.ccddata = ccddata

        out_args.ccddata = ccddata
        out_args.table = table

        imtype = self.get_keyword("IMTYPE")
        groupid = self.get_keyword("GROUPID")
        if imtype is None:
            fname = os.path.basename(self.action.args.name)
            self.logger.warn(f"Unknown IMTYPE {fname}")

        out_args.name = self.action.args.name
        out_args.imtype = imtype
        out_args.groupid = groupid
        # CAMERA
        out_args.camera = self.camera()
        # DICH
        out_args.dich = self.dich()
        # CAMANGLE
        out_args.camangle = self.camang()
        # FILTER
        out_args.filter = self.filter()
        # GRANGLE
        out_args.grangle = self.grangle()
        # GRATING
        out_args.grating = self.grating()
        # ADJANGLE
        out_args.adjang = self.adjang()
        # RHO
        out_args.rho = self.rho()
        # CWAVE
        out_args.cwave = self.cwave()
        # RESOLUTION
        out_args.resolution = self.resolution()
        # ATSIG
        out_args.atsig = self.atsig()
        # DELTA WAVE OUT
        out_args.dwout = self.delta_wave_out()
        # NAMPS
        out_args.namps = int(self.get_keyword('NVIDINP'))
        # NASMASK
        out_args.nasmask = self.nasmask()
        # SHUFROWS
        out_args.shufrows = self.shufrows()
        # NUMOPEN
        out_args.numopen = self.numopen()
        # AMPMODE
        out_args.ampmode = self.ampmode()
        # BINNING
        out_args.xbinsize, out_args.ybinsize = \
            map(int, self.get_keyword('BINNING').split(','))
        # IFUNUM
        out_args.ifunum = int(self.get_keyword('IFUNUM'))
        # IFUNAM
        out_args.ifuname = self.get_keyword('IFUNAM')
        # PLOTLABEL
        out_args.plotlabel = self.plotlabel()
        # ILUM
        out_args.illum = self.illum()
        # MAPCCD
        out_args.map_ccd = self.map_ccd()
        # CALIBRATION LAMP
        out_args.calibration_lamp = self.calibration_lamp()
        # TTIME
        out_args.ttime = self.get_keyword('TTIME')
        # Are we already in proctab?
        out_args.in_proctab = self.context.proctab.in_proctab(
            frame=out_args.ccddata)

        return out_args