Exemplo n.º 1
0
    def get_gaia_data(self, index):
        # get data about star
        row = self.stars.iloc[index]
        ls_id = row.ls_id

        # get gaia id of star from decals
        q = """SELECT
                ra1, dec1, id1, ra2, dec2, id2, distance
            FROM
                ls_dr9.x1p5__tractor__gaia_edr3__gaia_source
            WHERE 
                id1 = {} """.format(ls_id)

        res = qc.query(sql=q)
        decals_data = convert(res, 'pandas')

        # get gaia id (or input id = 0 if no gaia data)
        gaia_id = 0 if len(decals_data.id2) == 0 else decals_data.id2

        # use gaia id to get info about it
        query = """SELECT 
                    source_id, ra, ra_error, dec, dec_error, parallax, pmra, pmra_error, pmdec, pmdec_error
                FROM 
                    gaiadr2.gaia_source
                WHERE 
                    source_id = {} """.format(int(gaia_id))

        gaia_data = Gaia.launch_job(query).get_results().to_pandas()

        return gaia_data
Exemplo n.º 2
0
    def get_catalog(self,
                    query=None,
                    query_fields=None,
                    print_query=False,
                    timeout=120):
        """
        Get catalog sources around the given coordinates
        within self.radius.
        
        Args:
            query (str, optional): SQL query to generate the catalog
            query_fields (list, optional): Over-ride list of items to query
            print_query (bool): Print the SQL query generated 
        
        Returns:
            astropy.table.Table:  Catalog of sources obtained from the SQL query.
        """
        qc.set_profile(self.qc_profile)
        # Generate the query
        if query is None:
            self._gen_cat_query(query_fields)
            query = self.query
        if print_query:
            print(query)
        # Do it while silencing print statements
        result = qc.query(self.token, sql=query, timeout=timeout)
        self.catalog = convert(result, outfmt="table")

        self.catalog.meta['radius'] = self.radius
        self.catalog.meta['survey'] = self.survey
        # Validate
        self.validate_catalog()
        # Return
        return self.catalog.copy()
Exemplo n.º 3
0
    def __init__(self, file=None, ra=None, dec=None, bd=None, n_arcmin=5):
        self.n_arcmin = n_arcmin

        # brown dwarf can be ra/dec or data or class
        if ra is not None and dec is not None:
            self.ra = ra
            self.dec = dec

        elif isinstance(bd, (Table, pd.DataFrame)):
            # first change df into what want
            bd = find_info(bd)

            # basic info
            self.ra = bd['ra']
            self.dec = bd['dec']
            self.mu_a = bd['mu_alpha']
            self.mu_d = bd['mu_delta']
            self.pi = bd['pi']

        elif isinstance(bd, BrownDwarf):
            self.ra = bd.ra
            self.dec = bd.dec

            self.bd = bd

        else:
            raise Exception(
                'Brown Dwarf data needs to either be ra/dec, an astropy table or pandas table of the dwarf data, or the brown dwarf class.'
            )

        # now to grab the star info
        dl.queryClient.getClient(profile='default',
                                 svc_url='https://datalab.noirlab.edu/query')

        if file == None:
            q = """SELECT
                        ls_id, ra, dec,  dered_mag_g, dered_mag_r, dered_mag_w1, dered_mag_w2, dered_mag_w3, dered_mag_w4, dered_mag_z, gaia_phot_g_mean_mag, gaia_duplicated_source, pmdec, pmra, psfsize_g, psfsize_r, psfsize_z, ref_cat, ref_epoch, ref_id, type
                    FROM
                        ls_dr9.tractor
                    WHERE
                        't' = Q3C_RADIAL_QUERY(ra, dec,  {} , {} ,  ({}/60)) """.format(
                float(self.ra), float(self.dec), float(self.n_arcmin))
            res = qc.query(sql=q)
            self.stars = convert(res, 'pandas')

        else:
            self.file = file
            self.stars = pd.read_csv(self.file)

        self.stars = self.filter_stars_only(self.stars)
        self.stars = self.filter_stars_mag(self.stars)

        # create array of paths for each star
        self.star_paths = np.zeros(len(self.stars))
Exemplo n.º 4
0
 def get_catalog(self,
                 query=None,
                 query_fields=None,
                 print_query=False,
                 timeout=120):
     """
     Get catalog sources around the given coordinates
     within self.radius.
     
     Args:
         query (str, optional): SQL query to generate the catalog
         query_fields (list, optional): Over-ride list of items to query
         print_query (bool): Print the SQL query generated 
     
     Returns:
         astropy.table.Table:  Catalog of sources obtained from the SQL query.
     """
     qc.set_profile(self.qc_profile)
     # Generate the query
     if query is None:
         self._gen_cat_query(query_fields)
         query = self.query
     if print_query:
         print(query)
     # Do it while silencing print statements
     result = qc.query(self.token, sql=query, timeout=timeout)
     sys.stdout = open(os.devnull, "w")
     temp = convert(result)
     sys.stdout = sys.__stdout__
     self.catalog = Table.from_pandas(temp)
     # TODO:: Dig into why the heck it doesn't want to natively
     #        output to a table when it was clearly intended to with 'outfmt=table'
     # Finish
     self.catalog.meta['radius'] = self.radius
     self.catalog.meta['survey'] = self.survey
     # Validate
     self.validate_catalog()
     # Return
     return self.catalog.copy()
Exemplo n.º 5
0
 def test_votable_value(self):
     """Result of convert() to votable should have res['mag_auto_i'][0] == 23.168003"""
     res = utils.convert(self.votable, 'votable')
     self.assertEqual(int(res.array['mag_auto_i'][0]), self.intval)
Exemplo n.º 6
0
 def test_is_votable(self):
     """Result of convert() to votable should be a votable"""
     res = utils.convert(self.votable, 'votable')
     self.assertIsInstance(res, astropy.io.votable.tree.Table)
Exemplo n.º 7
0
 def test_astropy_table_value(self):
     """Result of convert() to table should have res['mag_auto_i'][0] == 23.168003"""
     res = utils.convert(self.csvtable, 'table')
     self.assertEqual(int(res['mag_auto_i'][0]), self.intval)
Exemplo n.º 8
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 def test_is_astropy_table(self):
     """Result of convert() to table should be an astropy table.Table"""
     res = utils.convert(self.csvtable, 'table')
     self.assertIsInstance(res, astropy.table.table.Table)
Exemplo n.º 9
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 def test_pandas_dataframe_value(self):
     """Result of convert() to pandas should have res['mag_auto_i'][0] == 23.168003"""
     res = utils.convert(self.csvtable, 'pandas')
     self.assertEqual(int(res['mag_auto_i'][0]), self.intval)
Exemplo n.º 10
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 def test_is_pandas_dataframe(self):
     """Result of convert() to pandas should be a numpy array"""
     res = utils.convert(self.csvtable, 'pandas')
     self.assertIsInstance(res, pandas.DataFrame)
Exemplo n.º 11
0
 def test_structarray_value(self):
     """Result of convert() to structarray should have res['mag_auto_i'][0] == 23.168003"""
     res = utils.convert(self.csvtable, 'structarray')
     self.assertEqual(int(res['mag_auto_i'][0]), self.intval)
Exemplo n.º 12
0
 def test_is_structarray(self):
     """Result of convert() to structarray should be a numpy array"""
     res = utils.convert(self.csvtable, 'structarray')
     self.assertIsInstance(res, numpy.ndarray)
Exemplo n.º 13
0
 def test_array_value(self):
     """Result of convert() to array should have res[0,2] == 23.168003"""
     res = utils.convert(self.csvtable, 'array')
     self.assertEqual(int(res[0, 2]), self.intval)
Exemplo n.º 14
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 def test_string(self):
     """Result of convert() to string should be identical to the input string"""
     res = utils.convert(self.csvtable, 'string')
     self.assertEqual(res, self.csvtable)