Esempio n. 1
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    def _check_global_backsub(self):
        """Check for global background subtraction"""
        # go over all inputs
        for one_input in self.axe_inputs:

            # load the config file and get the extension information
            conf = configfile.ConfigFile(
                config_util.getCONF(one_input['config']))
            ext_info = config_util.get_ext_info(
                config_util.getDATA(one_input['grisim']), conf)

            # open the fits image
            gri_fits = fits.open(config_util.getDATA(one_input['grisim']),
                                 'readonly')

            # go to the correct header
            act_header = gri_fits[ext_info['fits_ext']].header

            # make sure a sky background value is set
            if 'SKY_CPS' in act_header and act_header['SKY_CPS'] >= 0.0:
                # close the fits
                gri_fits.close()
            else:
                # close fits, complain and out
                gri_fits.close()
                err_msg = (
                    "{0:s}: The grism image: \n{1:s}\nhas no keyword "
                    "SKY_CPS>=0.0 in the extension {2:d}. This means "
                    "it had NO global\nsky subtraction, which is "
                    "required for the CRR version of aXedrizzle!".format(
                        self.taskname,
                        config_util.getDATA(one_input['grisim']),
                        ext_info['fits_ext']))
                raise aXeError(err_msg)
Esempio n. 2
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    def _check_dpps(self, back=False):
        # go over all inputs
        for one_input in self.axe_inputs:
            # load the config file and get the extension information
            conf = configfile.ConfigFile(
                config_util.getCONF(one_input['config']))
            ext_info = config_util.get_ext_info(
                config_util.getDATA(one_input['grisim']), conf)

            # derive the aXe names
            axe_names = config_util.get_axe_names(one_input['grisim'],
                                                  ext_info)

            # check the DPP file
            if not os.path.isfile(config_util.getOUTPUT(axe_names['DPP'])):
                # error and out
                err_msg = ("{0s:}: The DPP file: {1:s} does not exist!".format(
                    self.taskname, config_util.getOUTPUT(axe_names['DPP'])))
                raise aXeError(err_msg)

            # check for the background DPP file
            if back and not os.path.isfile(
                    config_util.getOUTPUT(axe_names['BCK_DPP'])):
                # error and out
                err_msg = ("{0:s}: The background DPP file: {1:s} does not "
                           "exist!".format(
                               self.taskname,
                               config_util.getOUTPUT(axe_names['BCK_DPP'])))
                raise aXeError(err_msg)
Esempio n. 3
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    def _get_grism_ext_info(self, grisim='', config='', spec_hdu=None):
        """Determine the extension information on the grism image.

        Parameters
        ----------
        grisim : str
            The name of the grism images
        config : str
            The name of the configuration file
        spec_hdu : int, None
            The extention number of the spectra data

        Returns
        -------
        ext_info : dict
            A dictionary that contains the header extension
            and the data extension
        """

        if spec_hdu is None:
            conf = configfile.ConfigFile(getCONF(config))
            ext_info = get_ext_info(getDATA(grisim), conf)

        else:
            # make by hand the extension information
            ext_info = {'axe_ext': spec_hdu, 'fits_ext': spec_hdu - 1}

        # return the extension info
        return ext_info
Esempio n. 4
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    def _get_dpp_list(self, inima, confterm, back):
        """Determine the name of all DPP files"""
        DPP_list = []

        # generate the input list for aXe
        axe_inputs = axeinputs.aXeInput(inima, confterm)

        # go over the list of all inputs
        for an_input in axe_inputs:
            # load the configuration file
            conf = configfile.ConfigFile(config_util.getCONF(an_input['config']))

            # get the image extensions
            ext_info = config_util.get_ext_info(config_util.getDATA(an_input['grisim']), conf)

            # get the name of all axe files
            axe_names = config_util.get_axe_names(an_input['grisim'], ext_info)

            # if requested,
            # append the background DPP file
            if back:
                DPP_list.append(axe_names['BCK_DPP'])
            else:
                # append the 'normal' DPP name to the list
                DPP_list.append(axe_names['DPP'])

        # return the DPP list
        return DPP_list
Esempio n. 5
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    def _get_dirname_information(self,
                                 dirname=None,
                                 config="",
                                 grisim="",
                                 grism_extinfo=None,
                                 dir_hdu=None):
        """Determine the direct image information.

        Parameters
        ----------
        dirname : str
            Diretory name
        config : str
            The name of the config file
        grisim : str
            The name of the grisim image
        grism_extinfo : dict
            Dictionary of header information
        dir_hdu :  fits.HDU
            FITS header data unit

        Returns
        -------
        A tuple of the direct image name and a dictionary of
        extension information

        """
        # check whether ANY direct image information exists
        if ((dirname is None) and (dir_hdu is None)):
            # set the grism image as direct image
            dirname = grisim
            dirname_extinfo = grism_extinfo

        elif ((dirname is not None) and (dir_hdu is None)):
            # load the configuration file;
            # determine the extension information
            conf = configfile.ConfigFile(getCONF(config))
            dirname_extinfo = get_ext_info(getDATA(grisim), conf)
            del conf

        elif ((dirname is not None) and (dir_hdu is not None)):
            # make by hand the extension information
            dirname_extinfo = {'axe_ext': dir_hdu, 'fits_ext': dir_hdu - 1}

        else:
            # error and out
            err_msg = ("Specifying NO direct image but a direct image HDU: "
                       "{0:d} makrs NO sense!".format(dir_hdu))
            raise aXeError(err_msg)

        # return the name and the extension info
        return dirname, dirname_extinfo
Esempio n. 6
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    def run(self):
        # load the configuration files;
        # get the extension info
        conf = configfile.ConfigFile(config_util.getCONF(self.config))
        ext_info = config_util.get_ext_info(config_util.getDATA(self.grisim),
                                            conf)
        del conf

        # Does this harm data that was astrodrizzled?
        if (('drzfwhm' in self.params) and (self.params['drzfwhm'])
                or (('cont_model' in self.params) and
                    (config_util.is_quant_contam(self.params['cont_model'])))):

            # generate the non-linear distortions from the IDCTAB;
            # and store them in the fits-file header
            _log.info(
                "Generating and storing nonlinear distortions in {0}".format(
                    config_util.getDATA(self.grisim)))
            nlins = nlincoeffs.NonLinCoeffs(config_util.getDATA(self.grisim),
                                            ext_info)
            nlins.make()
            nlins.store_coeffs()
            del nlins

        # make the object PET's
        self._make_objPET()

        # make a background PET if necessary
        if 'back' in self.params and self.params['back']:
            _log.info("\nMaking backpet\n")
            self._make_bckPET()

        # extract the spectra
        if 'spectr' in self.params and self.params['spectr']:
            _log.info("\nMaking spectra\n")
            self._make_spectra()

        # make the proper non-quantitative contamination
        if ('drzfwhm' in self.params and self.params['drzfwhm']) and \
           ('cont_model' in self.params and not config_util.is_quant_contam(self.params['cont_model'])):
            _log.info("\nmaking non quant contam\n")
            self._make_drzgeocont(ext_info)
Esempio n. 7
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    def _check_fluxcubes(self):
        # go over all inputs
        for one_input in self.axe_inputs:

            # load the config file and get the extension information
            conf = configfile.ConfigFile(
                config_util.getCONF(one_input['config']))
            ext_info = config_util.get_ext_info(
                config_util.getDATA(one_input['grisim']), conf)

            # derive the aXe names
            axe_names = config_util.get_axe_names(one_input['grisim'],
                                                  ext_info)

            # check the fluxcube
            if not os.path.isfile(config_util.getDATA(axe_names['FLX'])):
                # error and out
                err_msg = (
                    "{0:s}: The fluxcube file: {1:s} does not exist!".format(
                        self.taskname, config_util.getDATA(axe_names['FLX'])))
                raise aXeError(err_msg)
Esempio n. 8
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    def run(self):
        """Run AXEPREP on one slitless image"""

        # load the configuration files;
        # get the extension info
        conf = configfile.ConfigFile(config_util.getCONF(self.config))
        ext_info = config_util.get_ext_info(self.grisim, conf)

        # make a background PET if necessary
        if 'backgr' in self.params and self.params['backgr']:
            self._subtract_background(ext_info)

        # make a background PET if necessary
        if 'norm' in self.params and self.params['norm']:
            self._transform_to_cps(ext_info, conf)

        # check wheter the gain correction is desired
        if 'gcorr' in self.params and self.params['gcorr']:

            # check whether we have NICMOS data
            if not self._is_nicmos_data():

                # check whether gain correction IS desired
                if self._check_gain_correction():

                    # make the gain correction
                    self._apply_gain_correction(ext_info)

            else:

                # make the gain correction
                self._apply_gain_correction(ext_info)

        del conf

        # return something
        return 1