Ejemplo n.º 1
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def galaxies_moc(field, moc_field, radius, moc_order=15):
    """
    MOC with the intersection of field with galaxies
    included in the 2MASS Large Galaxy Atlas.
    """
    galaxies = Irsa.query_region(field,
                                 catalog="lga_v2",
                                 spatial="Cone",
                                 radius=2 * u.deg)
    moc_galaxies = MOC()
    if galaxies:
        w = obsid_wcs(field)
        field_reg = CircleSkyRegion(center=field, radius=radius)

        moc_galaxies = MOC()
        for g in galaxies:
            gcoords = SkyCoord(ra=g['ra'], dec=g['dec'], unit=u.deg)
            amajor = 1.5 * 2 * g['r_ext'] * u.arcsec
            galaxy_reg = EllipseSkyRegion(center=gcoords,
                                          width=amajor,
                                          height=amajor * g['sup_ba'],
                                          angle=(90 + g['sup_pa']) * u.deg)

            region = field_reg.intersection(galaxy_reg)
            moc_galaxies += reg2moc(region, moc_field, w, moc_order)

    return moc_galaxies
Ejemplo n.º 2
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def make_binmocs(obsids_table, data_folder, bincol='BIN_ID'):

    bins = np.unique(obsids_table[bincol])
    bins = bins[~np.isnan(bins)]

    mocgroups_folder = os.path.join(data_folder, 'mocs')
    binmocs_folder = os.path.join(data_folder, 'binmocs')
    if not os.path.exists(binmocs_folder):
        os.makedirs(binmocs_folder)

    for binid in tqdm(bins, desc='Making bin MOCs'):
        msk_bin = obsids_table[bincol] == binid
        bin_table = obsids_table[msk_bin]

        binmoc_filename = os.path.join(
            binmocs_folder, 'bin{}.moc'.format(str(int(binid)).zfill(3)))

        moc_bin = MOC()
        for field in bin_table['OBS_ID']:
            moc_field_file = os.path.join(mocgroups_folder,
                                          '{}.moc'.format(field))
            moc_field = MOC()
            read_moc_fits(moc_field, moc_field_file)
            moc_bin += moc_field

        moc_bin.write(binmoc_filename, filetype="FITS", overwrite=True)
Ejemplo n.º 3
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    def test_ascii_large(self):
        orig = MOC()
        orig.add(29, [
            3458700000000000000,
            3458700000000000007,
            3458700000000000008,
            3458700000000000009,
        ])

        out = StringIO()
        write_moc_ascii(orig, file=out)
        text = out.getvalue()

        self.assertEqual(
            text, '29/3458700000000000000,'
            '3458700000000000007-3458700000000000009')

        copy = MOC()
        in_ = StringIO(text)
        read_moc_ascii(copy, file=in_)

        self.assertEqual(copy.order, 29)
        self.assertEqual(copy.cells, 4)
        self.assertEqual(
            copy[29],
            frozenset([
                3458700000000000000, 3458700000000000007, 3458700000000000008,
                3458700000000000009
            ]))
Ejemplo n.º 4
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    def test_json_large(self):
        orig = MOC()
        orig.add(29, [
            3458700000000000000,
            3458700000000000007,
            3458700000000000008,
            3458700000000000009,
        ])

        out = BytesIO()
        write_moc_json(orig, file=out)
        json = out.getvalue()

        self.assertEqual(
            json, b'{"29":[3458700000000000000,3458700000000000007,'
            b'3458700000000000008,3458700000000000009]}')

        copy = MOC()
        in_ = BytesIO(json)
        read_moc_json(copy, file=in_)

        self.assertEqual(copy.order, 29)
        self.assertEqual(copy.cells, 4)
        self.assertEqual(
            copy[29],
            frozenset([
                3458700000000000000, 3458700000000000007, 3458700000000000008,
                3458700000000000009
            ]))
Ejemplo n.º 5
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def get_fitting_region(order, pixel):
    """Expand tile by quarter of a pixel for fitting

    
    :param order: the HEALPix resolution level
    :param pixel: given HEALPix pixel that needs to be fit
    :return: HEALPix pixels that need to be fit
    """

    #define old and new order
    old_nside = 2**order
    new_nside = 2**(order + 2)

    #get co-ord of main pixel
    theta, phi = pixelfunc.pix2ang(old_nside, pixel, nest=True)
    #define offsets such that main pixel is split into four sub pixels
    scale = pixelfunc.max_pixrad(old_nside)
    offset_theta = np.array([-0.125, 0.0, 0.125, 0.0]) * scale
    offset_phi = np.array([0.0, -0.125, 0.0, 0.125]) * scale
    #convert co-ords to pixels at higher order
    pix_fit = pixelfunc.ang2pix(new_nside,
                                theta + offset_theta,
                                phi + offset_phi,
                                nest=True)
    #get neighbouring pixels and remove duplicates
    moc_tile = MOC()
    pixels = np.unique(
        pixelfunc.get_all_neighbours(new_nside, pix_fit, nest=True))
    moc_tile.add(
        order + 2,
        np.unique(pixelfunc.get_all_neighbours(new_nside, pixels, nest=True)))
    return moc_tile
Ejemplo n.º 6
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    def _make_random_moc(self, order):
        m = MOC()

        for order_i in range(0, order + 1):
            m.add(order_i, sample(range(0, 12 * 4**order_i), 4**order_i))

        return m
Ejemplo n.º 7
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    def test_fits_meta(self):
        # Write a FITS HDU including metadata and read it back.
        orig = MOC(order=10, cells=(4, 5, 6, 7),
                   name='test-moc',
                   mocid='ivo://TEST/...', origin='ivo://TEST',
                   moctype='image')

        hdu = write_moc_fits_hdu(orig)
        copy = MOC()
        read_moc_fits_hdu(copy, hdu, include_meta=True)

        self.assertEqual(copy.name, 'test-moc')
        self.assertEqual(copy.id, 'ivo://TEST/...')
        self.assertEqual(copy.origin, 'ivo://TEST')
        self.assertEqual(copy.type, 'IMAGE')

        # Check that the MOC was normalized.
        self.assertEqual(copy.cells, 1)

        # Now check we do not overwrite metadata unless requested.
        other = MOC(order=10, cells=(4, 5, 6, 7),
                    name='test-moc-modified',
                    mocid='ivo://TEST2/...', origin='ivo://TEST2',
                    moctype='catalog')

        read_moc_fits_hdu(other, hdu, include_meta=False)

        self.assertEqual(other.name, 'test-moc-modified')
        self.assertEqual(other.id, 'ivo://TEST2/...')
        self.assertEqual(other.origin, 'ivo://TEST2')
        self.assertEqual(other.type, 'CATALOG')
Ejemplo n.º 8
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def read_moc(file_=None, buff=None, max_order=None):
    """
    Construct a MOC object by reading the given file or buffer.

    The MOC is then normalized to the given maximum order, if given.
    """

    moc_object = MOC()

    read_opts = {'include_meta': True}

    if file_ is not None:
        read_moc_fits(moc_object, file_, **read_opts)

    elif buff is not None:
        with closing(StringIO(buff)) as f:
            read_moc_fits(moc_object, f, **read_opts)

    else:
        raise Error('Neither MOC file nor buffer given')

    if max_order is not None:
        moc_object.normalize(max_order=max_order)

    return moc_object
Ejemplo n.º 9
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def get_fitting_region(order,pixel):
    """Expand tile by quarter of a pixel for fitting

    
    :param order: the HEALPix resolution level
    :param pixel: given HEALPix pixel that needs to be fit
    :return: HEALPix pixels that need to be fit
    """

    #define old and new order
    old_nside=2**order
    new_nside=2**(order+2)

    #get co-ord of main pixel
    theta,phi=pixelfunc.pix2ang(old_nside, pixel, nest=True)
    #define offsets such that main pixel is split into four sub pixels
    scale=pixelfunc.max_pixrad(old_nside)
    offset_theta=np.array([-0.125,0.0,0.125,0.0])*scale
    offset_phi=np.array([0.0,-0.125,0.0,0.125])*scale
    #convert co-ords to pixels at higher order
    pix_fit=pixelfunc.ang2pix(new_nside, theta+offset_theta, phi+offset_phi, nest=True)
    #get neighbouring pixels and remove duplicates
    moc_tile=MOC()
    pixels=np.unique(pixelfunc.get_all_neighbours(new_nside, pix_fit,nest=True))
    moc_tile.add(order+2,np.unique(pixelfunc.get_all_neighbours(new_nside, pixels,nest=True)))
    return moc_tile
Ejemplo n.º 10
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    def test_operators(self):
        repeats = 10
        order = 6

        for i in range(0, repeats):
            # Make random MOCs, take difference and intersection.
            p = self._make_random_moc(order)
            q = self._make_random_moc(order)

            s_pq = p - q
            s_qp = q - p
            i_pq = p.intersection(q)
            i_qp = q.intersection(p)

            # p.write('test_moc_p_{}.fits'.format(i + 1), overwrite=True)
            # q.write('test_moc_q_{}.fits'.format(i + 1), overwrite=True)
            # s_pq.write('test_moc_pq_{}.fits'.format(i + 1), overwrite=True)
            # s_qp.write('test_moc_qp_{}.fits'.format(i + 1), overwrite=True)
            # i_pq.write('test_moc_i_{}.fits'.format(i + 1), overwrite=True)

            # Intersection should be the same both ways round.
            self.assertEqual(i_pq, i_qp)

            # Areas should add up to differences + 2 x intersection.
            self.assertAlmostEqual(p.area + q.area,
                                   s_pq.area + s_qp.area + 2 * i_pq.area,
                                   places=10)

            # Make differences and intersection via flattened set.
            p_flat = p.flattened(order=order)
            q_flat = q.flattened(order=order)

            s_pq_flat = p_flat - q_flat
            s_qp_flat = q_flat - p_flat
            i_flat = p_flat & q_flat

            # Compare with flattened-method version via MOC equality.
            self.assertEqual(s_pq, MOC(order, s_pq_flat))
            self.assertEqual(s_qp, MOC(order, s_qp_flat))
            self.assertEqual(i_pq, MOC(order, i_flat))

            # Compare with flattened-method version via flat set.
            s_pq_flattened = s_pq.flattened(order=order)
            s_qp_flattened = s_qp.flattened(order=order)
            i_pq_flattened = i_pq.flattened(order=order)
            i_qp_flattened = i_qp.flattened(order=order)

            self.assertEqual(s_pq_flattened, s_pq_flat)
            self.assertEqual(s_qp_flattened, s_qp_flat)
            self.assertEqual(i_pq_flattened, i_flat)
            self.assertEqual(i_qp_flattened, i_flat)

            # Differences and intersection should be disjoint.
            self.assertTrue(s_pq_flattened.isdisjoint(s_qp_flattened))
            self.assertTrue(s_pq_flattened.isdisjoint(i_pq_flattened))
            self.assertTrue(s_qp_flattened.isdisjoint(i_pq_flattened))
Ejemplo n.º 11
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    def test_copy(self):
        # TODO: check metadata copying

        p = MOC(1, (2, 3))
        p.add(4, (5, 6))

        q = p.copy()

        self.assertEqual(q.cells, 4)
        self.assertEqual(sorted(q[1]), [2, 3])
        self.assertEqual(sorted(q[4]), [5, 6])
Ejemplo n.º 12
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    def test_copy(self):
        # TODO: check metadata copying

        p = MOC(1, (2, 3))
        p.add(4, (5, 6))

        q = p.copy()

        self.assertEqual(q.cells, 4)
        self.assertEqual(sorted(q[1]), [2, 3])
        self.assertEqual(sorted(q[4]), [5, 6])
Ejemplo n.º 13
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def create_MOC_from_cat(ra,dec):
    """Generate MOC from catalogue

    :param ra: Right ascension of sources
    :param dec: Declination of sources
    :return: MOC :rtype: pymoc.MOC
    """
    pixels=get_HEALPix_pixels(11,ra,dec)
    cat_moc=MOC()
    cat_moc.add(11,pixels)
    return cat_moc
Ejemplo n.º 14
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def create_MOC_from_cat(ra, dec):
    """Generate MOC from catalogue

    :param ra: Right ascension of sources
    :param dec: Declination of sources
    :return: MOC :rtype: pymoc.MOC
    """
    pixels = get_HEALPix_pixels(11, ra, dec)
    cat_moc = MOC()
    cat_moc.add(11, pixels)
    return cat_moc
Ejemplo n.º 15
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    def test_fits_large_32(self):
        orig = MOC()
        orig.add(13, [805306367])

        hdu = write_moc_fits_hdu(orig)
        self.assertIn('J', hdu.header['TFORM1'])

        copy = MOC()
        read_moc_fits_hdu(copy, hdu)

        self.assertEqual(copy.order, 13)
        self.assertEqual(copy[13], frozenset([805306367]))
Ejemplo n.º 16
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    def test_fits_large_64(self):
        orig = MOC()
        orig.add(29, [3458700000000000000])

        hdu = write_moc_fits_hdu(orig)
        self.assertIn('K', hdu.header['TFORM1'])

        copy = MOC()
        read_moc_fits_hdu(copy, hdu)

        self.assertEqual(copy.order, 29)
        self.assertEqual(copy[29], frozenset([3458700000000000000]))
Ejemplo n.º 17
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    def test_aggregate(self):
        m = MOC(10, set([0, 1, 2, 3, 4]))

        self.assertEqual(m.order, 10)
        self.assertEqual(m[10], frozenset([0, 1, 2, 3, 4]))
        self.assertEqual(m[9], frozenset())

        m.normalize()

        self.assertEqual(m.order, 10)
        self.assertEqual(m[10], frozenset([4]))
        self.assertEqual(m[9], frozenset([0]))
Ejemplo n.º 18
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    def test_fits_64(self):
        orig = MOC()
        orig.add(14, [0])

        hdu = write_moc_fits_hdu(orig)
        self.assertIn('K', hdu.header['TFORM1'])

        copy = MOC()
        read_moc_fits_hdu(copy, hdu)

        self.assertEqual(copy.order, 14)
        self.assertEqual(copy[14], frozenset([0]))
Ejemplo n.º 19
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def sources_in_tile(pixel, order, ra, dec):
    """Check which sources are in HEALPix pixel

    :param pixel: HEALPix pixel
    :param order: order of HEALPix pixel
    :param ra: Right Ascension
    :param dec: Declination
    :return: boolean array expressing whether in MOC or not :rtype:boolean array
    """
    moc_pix = MOC()
    moc_pix.add(order, pixel)
    kept_sources = check_in_moc(ra, dec, moc_pix)
    return kept_sources
Ejemplo n.º 20
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def sources_in_tile(pixel,order,ra,dec):
    """Check which sources are in HEALPix pixel

    :param pixel: HEALPix pixel
    :param order: order of HEALPix pixel
    :param ra: Right Ascension
    :param dec: Declination
    :return: boolean array expressing whether in MOC or not :rtype:boolean array
    """
    moc_pix=MOC()
    moc_pix.add(order,pixel)
    kept_sources=check_in_moc(ra,dec,moc_pix)
    return kept_sources
Ejemplo n.º 21
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    def test_clear(self):
        p = MOC()
        p.add(4, (5, 6))
        p.add(0, (11,))
        p.add(1, (42, 43, 44))
        self.assertEqual(p.cells, 6)
        self.assertEqual(p.normalized, False)

        p.clear()
        self.assertEqual(p.cells, 0)
        self.assertEqual(p.normalized, True)
Ejemplo n.º 22
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    def apply_hpxmoc(self, lon=None, lat=None):

        try:
            moc = MOC()
            moc.read(self.filename, filetype="fits")
        except:
            raise Exception(f"Unable to find/open Healpix MOC file: {self.filename}")

        # get the moc nside at the max resolution of the MOC
        nside = hp.order2nside(moc.order)
        #get the healpix pixels indices of the targets at the max resolution
        idx = hp.ang2pix(nside, lon, lat, lonlat=True, nest=True )

        m_mask = moc.contains(idx)
        return m_mask
Ejemplo n.º 23
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def create_MOC_from_map(good,wcs):
    """Generate MOC from map


    :param good: boolean array associated with map
    :param wcs: wcs information
    :return: MOC :rtype: pymoc.MOC
    """
    x_pix,y_pix=np.meshgrid(np.arange(0,wcs._naxis1),np.arange(0,wcs._naxis2))
    ra,dec= wcs.wcs_pix2world(x_pix,y_pix,0)

    pixels=get_HEALPix_pixels(15,ra[good],dec[good])
    map_moc=MOC()
    map_moc.add(15,pixels)
    return map_moc
Ejemplo n.º 24
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def clean_obsids(obsids, radius, opt_survey='pstarrs', moc=None):
    # Select clean observations
    xmmobs_clean = obsids[obsids.columns['OBS_CLASS'] < 4]

    if opt_survey == 'pstarrs':
        # Select observations in Pan-STARRS footprint (dec>-30. deg)
        msk_pstarrs = xmmobs_clean.columns['DEC'] > -30 + radius.to(
            u.deg).value
        xmmobs_clean_opt = xmmobs_clean[msk_pstarrs]

    elif opt_survey == 'sdss':
        # Select observations in SDSS footprint
        sdss_moc = MOC()
        read_moc_fits(sdss_moc, moc)
        moc_order = sdss_moc.order

        hp = HEALPix(nside=2**moc_order, order='nested', frame=ICRS())
        xmmobs_clean_opt = utils.sources_inmoc(xmmobs_clean,
                                               hp,
                                               sdss_moc,
                                               moc_order=moc_order,
                                               ra='RA',
                                               dec='DEC',
                                               units=u.deg)
    else:
        raise ValueError('Unknown optical survey: {}'.format(opt_survey))

    return xmmobs_clean_opt
Ejemplo n.º 25
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    def test_included(self):
        m = MOC(10, set([0, 1, 2, 3, 4]))

        m.add(8, set([0]))

        self.assertEqual(m.order, 10)
        self.assertEqual(m[8], frozenset([0]))
        self.assertEqual(m[9], frozenset())
        self.assertEqual(m[10], frozenset([0, 1, 2, 3, 4]))

        m.normalize()

        self.assertEqual(m.order, 8)
        self.assertEqual(m[8], frozenset([0]))
        self.assertEqual(m[9], frozenset())
        self.assertEqual(m[10], frozenset())
Ejemplo n.º 26
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    def test_ascii_empty(self):
        in_ = StringIO('')

        moc = MOC()
        read_moc_ascii(moc, file=in_)

        self.assertEqual(moc.order, 0)
        self.assertEqual(moc[0], frozenset())
Ejemplo n.º 27
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def get_moc(url, survey, folder):
    """
    Get the moc of the area covered by survey from url and store it in folder.
    """
    if survey is 'UKIDSS':
        filenameJ = 'las-J1-DR10.fits'
        filenameH = 'las-H-DR10.fits'
        filenameK = 'las-K-DR10.fits'

    elif survey is 'VISTA':
        filenameJ = 'vhs-J-dr4.fits'
        filenameH = 'vhs-H-dr4.fits'
        filenameK = 'vhs-Ks-dr4.fits'

    elif survey is '2MASS':
        return None

    elif survey is 'sdss':
        downloadFile(url, folder, 'moc_{}.fits'.format(survey.lower()))

    else:
        raise ValueError('Invalid near-infrared survey!')

    filename = os.path.join(folder, 'moc_{}.fits'.format(survey.lower()))

    if not os.path.isfile(filename):
        # J moc
        moc_J = MOC()
        downloadFile(os.path.join(url, filenameJ), folder)
        read_moc_fits(moc_J, os.path.join(folder, filenameJ))

        # H moc
        moc_H = MOC()
        downloadFile(os.path.join(url, filenameH), folder)
        read_moc_fits(moc_H, os.path.join(folder, filenameH))

        # K moc
        moc_K = MOC()
        downloadFile(os.path.join(url, filenameK), folder)
        read_moc_fits(moc_K, os.path.join(folder, filenameK))

        moc_JH = moc_J.intersection(moc_H)
        moc_JHK = moc_JH.intersection(moc_K)
        moc_JHK.write(filename, filetype="FITS", overwrite=True)

    return filename
Ejemplo n.º 28
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    def test_flattened(self):
        p = MOC(4, (11, 12))

        self.assertEqual(p.flattened(), set((11, 12)))

        q = p + MOC(3, (0, ))

        self.assertEqual(q.flattened(), set((0, 1, 2, 3, 11, 12)))

        q = p + MOC(5, (55, ))

        self.assertEqual(q.flattened(4), set((11, 12, 13)))

        self.assertEqual(q.flattened(4, False), set((11, 12)))

        self.assertEqual(q.flattened(5),
                         set((44, 45, 46, 47, 48, 49, 50, 51, 55)))
Ejemplo n.º 29
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    def test_clear(self):
        p = MOC()
        p.add(4, (5, 6))
        p.add(0, (11, ))
        p.add(1, (42, 43, 44))
        self.assertEqual(p.cells, 6)
        self.assertEqual(p.normalized, False)

        p.clear()
        self.assertEqual(p.cells, 0)
        self.assertEqual(p.normalized, True)
Ejemplo n.º 30
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def merge_cat(tmass, ukidss, vista):
    moc_vista = MOC()
    read_moc_fits(moc_vista, '../data/vista/moc_vista.fits')
    moc_ukidss = MOC()
    read_moc_fits(moc_ukidss, '../data/ukidss/moc_ukidss.fits')

    moc_order = moc_vista.order
    hp = HEALPix(nside=2**moc_order, order='nested', frame=ICRS())
    moc_allsky = MOC(0, tuple(range(12)))
    moc_tmass = moc_allsky - moc_ukidss - moc_vista
    moc_vista = moc_vista - moc_ukidss

    vista_final = utils.sources_inmoc(vista,
                                      hp,
                                      moc_vista,
                                      moc_order=moc_order,
                                      ra='posRA',
                                      dec='posDec')
    vista_final.rename_column('NVTobjID', 'NIRobjID')
    vista_final.add_column(
        Table.Column(['VISTA'] * len(vista_final), name='NIR_SURVEY'))

    tmass_final = utils.sources_inmoc(tmass,
                                      hp,
                                      moc_tmass,
                                      moc_order=moc_order,
                                      ra='posRA',
                                      dec='posDec')
    tmass_final.rename_column('NTMobjID', 'NIRobjID')
    tmass_final.add_column(
        Table.Column(['2MASS'] * len(tmass_final), name='NIR_SURVEY'))

    ukidss.rename_column('NUKobjID', 'NIRobjID')
    ukidss.add_column(Table.Column(['UKIDSS'] * len(ukidss),
                                   name='NIR_SURVEY'))

    xmatchcat_final = vstack([tmass_final, vista_final, ukidss])

    msk = np.logical_or(xmatchcat_final['NIR_SURVEY'] == 'UKIDSS',
                        xmatchcat_final['NIR_SURVEY'] == '2MASS')
    msk = np.logical_and(xmatchcat_final['NIRobjID'].mask, msk)

    return xmatchcat_final
Ejemplo n.º 31
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    def test_catalog(self):
        catalog = SkyCoord([150.0, 300.0], [-45.0, 45.0],
                           frame='icrs', unit='deg')

        moc = catalog_to_moc(catalog, 0.5, 20)

        self.assertIsInstance(moc, MOC)
        self.assertEqual(moc.type, 'CATALOG')

        expected = MOC()
        expected.add(19, [
            994284930659, 994284930660, 994284930662, 2579127859609,
            2579127859611, 2579127859612])
        expected.add(20, [
            3977139722630, 3977139722631, 3977139722644, 3977139722646,
            3977139722652, 3977139722661, 10316511438426, 10316511438435,
            10316511438441, 10316511438443, 10316511438456, 10316511438457])

        self.assertEqual(moc, expected)
Ejemplo n.º 32
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    def _get_moc_from_cell(self, moc_id, _conn=None):
        """
        Retrieve a MOC object from the moc_cell database table.

        This routine should not generally be used to retrieve a MOC: instead
        use get_moc_fits, or search the moc using search_moc_cell.  This
        method is intended to be used only to optimize update operations
        (and for use by the test suite).
        """

        moc_object = MOC()

        with self._transaction(_conn=_conn) as conn:
            for (order, cell) in conn.execute(select([
                    moc_cell.c.order, moc_cell.c.cell,
                    ]).where(moc_cell.c.moc_id == moc_id)):
                moc_object.add(order, (cell,))

        return moc_object
Ejemplo n.º 33
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    def test_flattened(self):
        p = MOC(4, (11, 12))

        self.assertEqual(p.flattened(), set((11, 12)))

        q = p + MOC(3, (0,))

        self.assertEqual(q.flattened(), set((0, 1, 2, 3, 11, 12)))

        q = p + MOC(5, (55,))

        self.assertEqual(q.flattened(4),
                         set((11, 12, 13)))

        self.assertEqual(q.flattened(4, False),
                         set((11, 12)))

        self.assertEqual(q.flattened(5),
                         set((44, 45, 46, 47, 48, 49, 50, 51, 55)))
Ejemplo n.º 34
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    def test_iadd(self):
        p = MOC(4, (11, 12))
        p.add(5, (100, ))

        q = MOC(4, (13, ))
        q.add(5, (101, ))

        p += q

        self.assertEqual(p.cells, 5)
        self.assertEqual(sorted(p[4]), [11, 12, 13])
        self.assertEqual(sorted(p[5]), [100, 101])
Ejemplo n.º 35
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    def test_sub(self):
        p = MOC()
        p.add(1, (3, 4, 5))

        q = MOC()
        q.add(0, (0,))
        q.add(1, (5,))
        q.add(2, (19,))

        d = p - q

        self.assertEqual(d, MOC(2, (16, 17, 18)))
Ejemplo n.º 36
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def plot_moc(moc_file, plot_file, title):
    """
    Output the coverage map to an image file.
    :param moc_file: The name of the input multi-order coverage (MOC) fits file.
    :param plot_file: The name of the image file to be produced.
    :param title: The title of the plot.
    :return: None
    """
    moc = MOC()
    pymocfits.read_moc_fits(moc, moc_file)
    pymocplt.plot_moc(moc, projection='moll', title=title, filename=plot_file)
Ejemplo n.º 37
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    def _get_moc_from_cell(self, moc_id, _conn=None):
        """
        Retrieve a MOC object from the moc_cell database table.

        This routine should not generally be used to retrieve a MOC: instead
        use get_moc_fits, or search the moc using search_moc_cell.  This
        method is intended to be used only to optimize update operations
        (and for use by the test suite).
        """

        moc_object = MOC()

        with self._transaction(_conn=_conn) as conn:
            for (order, cell) in conn.execute(
                    select([
                        moc_cell.c.order,
                        moc_cell.c.cell,
                    ]).where(moc_cell.c.moc_id == moc_id)):
                moc_object.add(order, (cell, ))

        return moc_object
Ejemplo n.º 38
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def reg2moc(region, moc_field, wcs, moc_order=15):
    """
    Transform a the intersection of moc_field with a Region object into a MOC.
    """
    list_cells = np.array([c for c in moc_field.flattened()])

    hp = HEALPix(nside=2**moc_order, order='nested', frame=ICRS())
    cells_skycoords = hp.healpix_to_skycoord(list_cells)

    mask = region.contains(cells_skycoords, wcs)
    region_moc = MOC(moc_order, list_cells[mask])

    return region_moc
Ejemplo n.º 39
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def jsa_tile_moc(in_, out, max_order):
    """Create image MOC representation of a JSA tile."""

    if in_.lower().endswith('.fits') or in_.lower().endswith('.fit'):
        (data, tile_number, nside) = read_jsa_tile_fits(in_)
        good = np.logical_not(np.isnan(data))

    else:
        (data, tile_number, nside) = read_jsa_tile_sdf(in_)
        try:
            good = data != np.finfo(data.dtype).min
        except ValueError:
            good = data != np.iinfo(data.dtype).min

    (tile_order, map_suborder) = get_tile_params(data, nside)

    pixels = get_pixel_set(good, tile_number, map_suborder)

    moc = MOC(tile_order + map_suborder, pixels, moctype='image')

    moc.normalize(max_order=max_order)

    write_moc_fits(moc, out, clobber=True)
Ejemplo n.º 40
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def jsa_tile_moc(in_, out, max_order):
    """Create image MOC representation of a JSA tile."""

    if in_.lower().endswith('.fits') or in_.lower().endswith('.fit'):
        (data, tile_number, nside) = read_jsa_tile_fits(in_)
        good = np.logical_not(np.isnan(data))

    else:
        (data, tile_number, nside) = read_jsa_tile_sdf(in_)
        try:
            good = data != np.finfo(data.dtype).min
        except ValueError:
            good = data != np.iinfo(data.dtype).min

    (tile_order, map_suborder) = get_tile_params(data, nside)

    pixels = get_pixel_set(good, tile_number, map_suborder)

    moc = MOC(tile_order + map_suborder, pixels, moctype='image')

    moc.normalize(max_order=max_order)

    write_moc_fits(moc, out, clobber=True)
Ejemplo n.º 41
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    def test_fits(self):
        orig = MOC()
        orig.add(10, [5, 6, 7, 8])
        orig.add(11, [1000, 1001, 2000])

        hdu = write_moc_fits_hdu(orig)

        copy = MOC()
        read_moc_fits_hdu(copy, hdu)

        self.assertEqual(copy.order, 11)
        self.assertEqual(copy[10], frozenset([5, 6, 7, 8]))
        self.assertEqual(copy[11], frozenset([1000, 1001, 2000]))
Ejemplo n.º 42
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    def test_ascii_large(self):
        orig = MOC()
        orig.add(29, [
            3458700000000000000, 3458700000000000007,
            3458700000000000008, 3458700000000000009,
        ])

        out = StringIO()
        write_moc_ascii(orig, file=out)
        text = out.getvalue()

        self.assertEqual(
            text, '29/3458700000000000000,'
            '3458700000000000007-3458700000000000009')

        copy = MOC()
        in_ = StringIO(text)
        read_moc_ascii(copy, file=in_)

        self.assertEqual(copy.order, 29)
        self.assertEqual(copy.cells, 4)
        self.assertEqual(copy[29], frozenset([
            3458700000000000000, 3458700000000000007,
            3458700000000000008, 3458700000000000009]))
Ejemplo n.º 43
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    def test_json_large(self):
        orig = MOC()
        orig.add(29, [
            3458700000000000000, 3458700000000000007,
            3458700000000000008, 3458700000000000009,
        ])

        out = BytesIO()
        write_moc_json(orig, file=out)
        json = out.getvalue()

        self.assertEqual(
            json, b'{"29":[3458700000000000000,3458700000000000007,'
            b'3458700000000000008,3458700000000000009]}')

        copy = MOC()
        in_ = BytesIO(json)
        read_moc_json(copy, file=in_)

        self.assertEqual(copy.order, 29)
        self.assertEqual(copy.cells, 4)
        self.assertEqual(copy[29], frozenset([
            3458700000000000000, 3458700000000000007,
            3458700000000000008, 3458700000000000009]))
Ejemplo n.º 44
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    def test_iadd(self):
        p = MOC(4, (11, 12))
        p.add(5, (100,))

        q = MOC(4, (13,))
        q.add(5, (101,))

        p += q

        self.assertEqual(p.cells, 5)
        self.assertEqual(sorted(p[4]), [11, 12, 13])
        self.assertEqual(sorted(p[5]), [100, 101])
Ejemplo n.º 45
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    def test_add(self):
        p = MOC(4, (11, 12))
        p.add(5, (100,))

        q = MOC(4, (13,))
        q.add(5, (101,))

        s = p + q

        # Check the original MOCs were not altered.
        self.assertEqual(p.cells, 3)
        self.assertEqual(q.cells, 2)

        # Check the sum is the union of p and q.
        self.assertEqual(s.cells, 5)
        self.assertEqual(sorted(s[4]), [11, 12, 13])
        self.assertEqual(sorted(s[5]), [100, 101])
Ejemplo n.º 46
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    def test_properties(self):
        m = MOC(4, (11, 12))

        self.assertEqual(m.normalized, False)
        self.assertEqual(m.order, 4)
        self.assertEqual(m.cells, 2)
        self.assertEqual(len(m), 1)

        m.add(5, (198, 199))

        self.assertEqual(m.normalized, False)
        self.assertEqual(m.order, 5)
        self.assertEqual(m.cells, 4)
        self.assertEqual(len(m), 2)

        m.normalize()

        self.assertEqual(m.normalized, True)

        m.add(6, (1, 2))

        self.assertEqual(m.normalized, False)
Ejemplo n.º 47
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    def test_metadata(self):
        m = MOC(name='test-moc',
                mocid='ivo://TEST/...', origin='ivo://TEST',
                moctype='image')

        self.assertEqual(m.name, 'test-moc')
        self.assertEqual(m.id, 'ivo://TEST/...')
        self.assertEqual(m.origin, 'ivo://TEST')
        self.assertEqual(m.type, 'IMAGE')

        m.type = 'catalog'
        m.name = 'test-moc-modified'
        m.id = 'ivo://TEST2/...'
        m.origin = 'ivo://TEST2'

        self.assertEqual(m.name, 'test-moc-modified')
        self.assertEqual(m.id, 'ivo://TEST2/...')
        self.assertEqual(m.origin, 'ivo://TEST2')
        self.assertEqual(m.type, 'CATALOG')

        with self.assertRaises(ValueError):
            m.type = 'something other than image or catalog'
Ejemplo n.º 48
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    def test_intersection(self):
        p = MOC(4, (10, 11, 12))
        q = MOC(4, (9, 11, 13))
        i = p.intersection(q)

        self.assertFalse(i.normalized)
        self.assertEqual(i, MOC(4, (11,)))

        p = MOC(0, (0,))
        p.add(1, (4, 5, 6))

        q = MOC(0, (1,))
        q.add(1, (1, 2, 3))

        i = p.intersection(q)

        self.assertFalse(i.normalized)
        self.assertEqual(i, MOC(1, (1, 2, 3, 4, 5, 6)))

        p = MOC(0, (1,))
        q = MOC(2, (15, 19))
        i = p.intersection(q)

        self.assertFalse(i.normalized)
        self.assertEqual(i, MOC(2, (19,)))

        p.add(0, (2,))
        q.add(0, (2,))
        i = p.intersection(q)

        self.assertFalse(i.normalized)
        self.assertEqual(i, MOC(0, (2,)) + MOC(2, (19,)))

        # Test of intersection with 2 levels difference.
        # (This test is based on GitHub issue #2.)
        p = MOC(4, (1024,))
        q = MOC(6, (16385,))

        i = p.intersection(q)
        self.assertFalse(i.normalized)
        self.assertEqual(i, MOC(6, (16385,)))

        i = q.intersection(p)
        self.assertFalse(i.normalized)
        self.assertEqual(i, MOC(6, (16385,)))

        # Test of intersection with values at multiple levels.
        p = MOC(1, (1,))
        q = MOC()
        q.add(2, (4, 8))
        q.add(3, (20, 192))
        q.add(4, (96, 256))

        expect = MOC()
        expect.add(2, (4,))
        expect.add(3, (20,))
        expect.add(4, (96,))

        i = p.intersection(q)
        self.assertFalse(i.normalized)
        self.assertEqual(i, expect)

        i = q.intersection(p)
        self.assertFalse(i.normalized)
        self.assertEqual(i, expect)
Ejemplo n.º 49
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    def test_moc_update(self):
        facility_id = self.db.ensure_facility('moc testing facility')

        moc = MOC(order=5, cells=(1, 2, 3))

        moc_id = self.db.add_moc(facility_id, 'test', 'test', FormatType.PLAIN,
                                 True, moc)
        self.assertIsInstance(moc_id, int)

        self.assertEqual(self.db.update_moc_cell(moc_id, moc, block_pause=0), {
            5: 'insert'})
        self.assertEqual(self.db._get_moc_from_cell(moc_id), moc)

        moc.add(7, (1001, 1002, 1003))

        self.assertEqual(self.db.update_moc_cell(moc_id, moc, block_pause=0), {
            5: 'unchanged',
            7: 'insert'})
        self.assertEqual(self.db._get_moc_from_cell(moc_id), moc)

        moc.add(5, (11, 12, 13))
        moc.remove(7, (1001, 1002, 1003))
        self.assertEqual(self.db.update_moc_cell(moc_id, moc, block_pause=0), {
            5: 'individual',
            7: 'delete'})
        self.assertEqual(self.db._get_moc_from_cell(moc_id), moc)

        moc.add(5, (21, 22, 23))
        self.assertEqual(self.db.update_moc_cell(moc_id, moc, block_pause=0), {
            5: 'individual'})
        self.assertEqual(self.db._get_moc_from_cell(moc_id), moc)

        moc.add(5, (31, 32, 33))
        moc.remove(5, (1, 2, 3, 11, 12, 13))
        self.assertEqual(self.db.update_moc_cell(moc_id, moc, block_pause=0), {
            5: 'bulk'})
        self.assertEqual(self.db._get_moc_from_cell(moc_id), moc)

        # Check the MOC really ended up as expected.
        self.assertEqual(list(moc), [(5, frozenset((21, 22, 23, 31, 32, 33)))])
Ejemplo n.º 50
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 def test_remove(self):
     m = MOC(4, (10, 11, 12, 13))
     m.remove(4, (10, 13))
     self.assertEqual(m, MOC(4, (11, 12)))
Ejemplo n.º 51
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    def test_contains(self):
        m = MOC()
        m.add(0, (10, 11))
        m.add(1, (36, 37))
        m.add(2, (128, 129))
        m.add(3, (448, 499))

        self.assertEqual(m.contains(0, 10), True)
        self.assertEqual(m.contains(0, 11), True)

        self.assertEqual(m.contains(0, 0, True), False)
        self.assertEqual(m.contains(0, 0, False), False)

        self.assertEqual(m.contains(1, 40), True)
        self.assertEqual(m.contains(2, 160), True)

        self.assertEqual(m.contains(0, 7, True), True)
        self.assertEqual(m.contains(0, 7, False), False)