Beispiel #1
0
def ver01(test=False, clobber=False, publisher='J.X. Prochaska', **kwargs):
    """ Build version 1.0

    Parameters
    ----------
    test : bool, optional
      Run test only

    Returns
    -------

    """
    pdb.set_trace()  # THIS VERSION IS NOW FROZEN
    raise IOError("THIS VERSION IS NOW FROZEN")
    version = 'v01'
    # HDF5 file
    outfil = igmspec.__path__[0] + '/../DB/IGMspec_DB_{:s}.hdf5'.format(
        version)
    # Chk clobber
    if os.path.isfile(outfil):
        if clobber:
            warnings.warn("Overwriting previous DB file {:s}".format(outfil))
        else:
            warnings.warn(
                "Not overwiting previous DB file.  Use clobber=True to do so")
            return
    # Begin
    hdf = h5py.File(outfil, 'w')
    ''' Myers QSOs '''
    myers.orig_add_to_hdf(hdf)

    # Main DB Table
    idkey = 'IGM_ID'
    maindb, tkeys = sdbbu.start_maindb(idkey)

    # Group dict
    group_dict = {}

    # Organize for main loop
    groups = get_build_groups(version)

    pair_groups = ['SDSS_DR7']

    meta_only = False
    # Loop over the groups
    for gname in groups:
        # Meta
        if gname == 'SDSS_DR7':
            meta = groups[gname].grab_meta(hdf)
        else:
            meta = groups[gname].grab_meta()
        # Survey flag
        flag_g = sdbbu.add_to_group_dict(gname, group_dict)
        # IDs
        maindb = sdbbu.add_ids(maindb,
                               meta,
                               flag_g,
                               tkeys,
                               idkey,
                               first=(flag_g == 1),
                               close_pairs=(gname in pair_groups))
        # Spectra
        if not meta_only:
            groups[gname].hdf5_adddata(hdf, gname, meta, idkey)

    # Check for duplicates -- There is 1 pair in SDSS (i.e. 2 duplicates)
    if not sdbbu.chk_for_duplicates(maindb, dup_lim=2):
        raise ValueError("Failed duplicates")

    # Check for junk
    zpri = defs.z_priority()

    # Finish
    sdbbu.write_hdf(hdf,
                    str('igmspec'),
                    maindb,
                    zpri,
                    group_dict,
                    version,
                    Publisher=str(publisher))
    print("Wrote {:s} DB file".format(outfil))
    print("Update DB info in specdb.defs.dbase_info !!")
def hdf5_writter(path, reso, lowl, highl, outputname):
    '''
    :param path: path to the spectra file
    :param lowl float: lower limit for request redshift
    :param highl float: higher limit for request redshift
    :param reso: delta v in km/s to rebin the data
    :param outputname: the name for the output file
    :return: hdf5file
    '''
    outfil = str(outputname)
    hdf = h5py.File(outfil, 'w')
    #
    gdict = {}
    # creating group
    for z in np.arange(lowl, highl, 0.05):
        # hdf.create_group('z'+str(z)+'-'+str(z+0.05))
        print(z)
        spectest1 = []
        spec2 = []
        spectest1, spec2 = reading_data(path, reso, z, z + 0.05)
        print(np.round(z, 2), len(spectest1.z))
        # hdf_append = h5py.File('tmp'+str(z)+'.hdf', 'w')
        # hdf.create_group('z' + str(z) + '-' + str(z + 0.05))
        f = hdf.create_group('z' + str(np.round(z, 2)) + '-' +
                             str(np.round(z + 0.05, 2)))
        npix = len(spec2.wavelength)
        data = sdb_u.init_data(npix)
        nspec = len(spectest1.z)
        print(npix)
        #creat dataset
        spec_set = hdf['z' + str(np.round(z, 2)) + '-' +
                       str(np.round(z + 0.05, 2))].create_dataset(
                           'spec',
                           data=data,
                           chunks=True,
                           maxshape=(None, ),
                           compression='gzip')
        spec_set.resize((nspec, ))

        for ii in range(nspec):
            data['flux'][0][:npix] = spec2[ii].flux  # Should be flux values
            data['sig'][0][:npix] = spec2[ii].sig  # SHould be sigma values
            # print (spec[ii].sig)
            data['wave'][0][:npix] = spec2[
                ii].wavelength  # Should be wavelength values
            # Fill
            spec_set[ii] = data

        # hdf.copy('z'+str(z)+'-'+str(z+0.05), hdf_append['z'+str(z)+'-'+str(z+0.05)])

        # making meta data
        # hdfnew = h5py.File('z2.8_specdb_test1.hdf', 'w')
        # group = 'z2.8-2.85'
        # _ = hdfnew.create_group(group)
        group = 'z' + str(np.round(z, 2)) + '-' + str(np.round(z + 0.05, 2))
        id_key = 'DESI_ID'
        maindb, tkeys = spbu.start_maindb(id_key)

        meta = Table()
        meta['zem_GROUP'] = spectest1.z
        meta['RA_GROUP'] = spectest1.ra
        meta['DEC_GROUP'] = spectest1.dec

        meta['EPOCH'] = 2000.
        meta['sig_zem'] = 0.
        meta['flag_zem'] = np.string_('DESI')
        meta['STYPE'] = np.string_('QSO')
        # Observation
        meta['SPEC_FILE'] = np.array(spectest1.filename, dtype=float)
        meta['DATE-OBS'] = spectest1.date
        #
        meta['GROUP_ID'] = np.arange(len(meta)).astype(int)
        # Spectrograph
        meta['R'] = 3000.
        meta['TELESCOPE'] = np.string_('KPNO-4m')
        meta['DISPERSER'] = np.string_('ALL')
        meta['INSTR'] = np.string_('DESI')
        meta['WV_MIN'] = 3800.  # Should be the right value
        meta['WV_MAX'] = 9900.  # Should be the right value
        meta['NPIX'] = 8000  # Should be the right value
        meta['PLATE'] = np.array(np.tile(1, len(spectest1.id)), dtype=int)
        meta['FIBERID'] = spectest1.id
        meta['MOCK_ID'] = spectest1.id

        flag_g = spbu.add_to_group_dict(group, gdict)
        maindb = spbu.add_ids(maindb,
                              meta,
                              flag_g,
                              tkeys,
                              'DESI_ID',
                              first=(flag_g == flag_g))
        hdf[group]['meta'] = meta
        zpri = spb_defs.z_priority()
        print(flag_g)
    spbu.write_hdf(hdf,
                   str('DESI_v05'),
                   maindb,
                   zpri,
                   gdict,
                   str('v0.1'),
                   Publisher='jding')

    hdf.close()
Beispiel #3
0
def mk_db(dbname, tree, outfil, iztbl, version='v00', id_key='PRIV_ID',
          publisher='Unknown', **kwargs):
    """ Generate the DB

    Parameters
    ----------
    dbname : str
      Name for the database
    tree : str
      Path to top level of the tree of FITS files
      Typically, each branch in the tree corresponds to a single instrument
    outfil : str
      Output file name for the hdf5 file
    iztbl : Table or str
      If Table, see meta() docs for details on its format
      If str, it must be 'igmspec' and the user must have that DB downloaded
    version : str, optional
      Version code

    Returns
    -------

    """
    from specdb import defs

    # ztbl
    if isinstance(iztbl, str):
        if iztbl == 'igmspec':
            from specdb.specdb import IgmSpec
            igmsp = IgmSpec()
            ztbl = Table(igmsp.idb.hdf['quasars'][...])
    elif isinstance(iztbl, Table):
        ztbl = iztbl
    else:
        raise IOError("Bad type for ztbl")

    # Find the branches
    branches = glob.glob(tree+'/*')
    branches.sort()
    # HDF5 file
    hdf = h5py.File(outfil,'w')

    # Defs
    zpri = defs.z_priority()
    gdict = {}

    # Main DB Table
    maindb, tkeys = spbu.start_maindb(id_key)

    # MAIN LOOP
    for ss,branch in enumerate(branches):
        # Skip files
        if not os.path.isdir(branch):
            continue
        print('Working on branch: {:s}'.format(branch))
        # Files
        fits_files, out_tup = grab_files(branch)
        meta_file, mtbl_file, ssa_file = out_tup

        # Meta
        maxpix, phead, mdict, stype = 10000, None, None, 'QSO'
        if meta_file is not None:
            # Load
            meta_dict = ltu.loadjson(meta_file)
            # Maxpix
            if 'maxpix' in meta_dict.keys():
                maxpix = meta_dict['maxpix']
            # STYPE
            if 'stype' in meta_dict.keys():
                stype = meta_dict['stype']
            # Parse header
            if 'parse_head' in meta_dict.keys():
                phead = meta_dict['parse_head']
            if 'meta_dict' in meta_dict.keys():
                mdict = meta_dict['meta_dict']
        full_meta = mk_meta(fits_files, ztbl, mtbl_file=mtbl_file,
                            parse_head=phead, mdict=mdict, **kwargs)
        # Update group dict
        group_name = branch.split('/')[-1]
        flag_g = spbu.add_to_group_dict(group_name, gdict)
        # IDs
        maindb = add_ids(maindb, full_meta, flag_g, tkeys, 'PRIV_ID', first=(flag_g==1))
        # Ingest
        ingest_spectra(hdf, group_name, full_meta, max_npix=maxpix, **kwargs)
        # SSA
        if ssa_file is not None:
            user_ssa = ltu.loadjson(ssa_file)
            ssa_dict = default_fields(user_ssa['Title'], flux=user_ssa['flux'], fxcalib=user_ssa['fxcalib'])
            hdf[group_name]['meta'].attrs['SSA'] = json.dumps(ltu.jsonify(ssa_dict))

    # Check stacking
    if not spbu.chk_vstack(hdf):
        print("Meta data will not stack using specdb.utils.clean_vstack")
        print("Proceed to write at your own risk..")
        pdb.set_trace()

    # Write
    write_hdf(hdf, str(dbname), maindb, zpri, gdict, version,
              Publisher=publisher)
    print("Wrote {:s} DB file".format(outfil))
Beispiel #4
0
def generate_by_refs(input_refs, outfile, version):
    """
    Build a specDB file according to the input references

    Args:
        input_refs (list):
            List of references from which to build the specDB
        outfile (str):
            Output filename
        version (str):
            Version number
    """
    # Not elegant but it works
    all_folders = glob.glob(db_path+'/*/*')
    all_refs = [os.path.basename(ifolder) for ifolder in all_folders]

    # z_tbl
    allz_tbl = Table()
    
    # Loop in input refs
    all_spec_files = []
    refs_list = []
    for ref in input_refs:
        idx = all_refs.index(ref)
        # Redshift tables
        z_tbl = load_z_tables(all_folders[idx])
        allz_tbl = vstack([allz_tbl, z_tbl])
        # Grab the list of spectra
        specs = glob.glob(os.path.join(all_folders[idx], 'J*_spec.fits'))
        if len(specs) == 0:
            continue
        # Save
        all_spec_files += specs
        refs_list += [ref]*len(specs)

    # Get it started
    # HDF5 file
    hdf = h5py.File(outfile, 'w')

    # Defs
    zpri = defs.z_priority()

    # Main DB Table
    id_key = 'FRB_ID'
    maindb, tkeys = spbu.start_maindb(id_key)
    tkeys += ['ZQ']
    gdict = {}

    # Loop on Instruments
    #pair_groups = ['MUSE']
    pair_groups = []
    badf = None
    for instr in all_instruments:
        print("Working on {}".format(instr))
        fits_files, irefs = grab_files(all_spec_files, refs_list, instr)
        if len(fits_files) == 0:
            continue
        # Option dicts
        mwargs = {}
        mwargs['toler'] = 1.0 * units.arcsec  # Require an
        skipz = False
        swargs = {}
        # Meta
        parse_head, mdict, fname = None, None, True
        if instr == 'SDSS':
            mdict = dict(DISPERSER='BOTH', R=2000., TELESCOPE='SDSS 2.5-M', INSTR='SDSS')
            parse_head = {'DATE-OBS': 'MJD'}
            maxpix = 4000
            scale = 1e-17
        elif instr == 'FORS2':
            mdict = dict(TELESCOPE='VLT', INSTR='FORS2')
            parse_head = {'DATE-OBS': 'MJD', 'DISPERSER': 'DISPNAME', 'R': True}
            maxpix = 2050
            scale = 1e-17
        elif instr == 'MUSE':
            mdict = dict(TELESCOPE='VLT', R=2000.)
            parse_head = {'DATE-OBS': 'MJD-OBS', 'DISPERSER': 'DISPNAME', 'INSTR': 'INSTRUME'}
            maxpix = 4000
            scale = 1e-20
        elif instr == 'KCWI':
            mdict = dict(TELESCOPE='Keck-2')
            parse_head = {'DATE-OBS': 'MJD', 'DISPERSER': 'DISPNAME', 'INSTR': 'INSTRUME', 'R': True}
            maxpix = 4000
            scale = 1e-17
        elif instr == 'MagE':
            parse_head = {'R': True, 'DATE-OBS': 'MJD-OBS', 'TELESCOPE': 'TELESCOP',
                          'INSTR': 'INSTRUME', 'DISPERSER': 'DISPNAME'}
            maxpix = 18000
            scale = 1e-17
        elif instr == 'GMOS-S':
            mdict = dict(TELESCOPE='Gemini-S', INSTR='GMOS-S')
            parse_head = {'R': True, 'DATE-OBS': 'MJD-OBS', 'DISPERSER': 'DISPNAME'}
            maxpix = 3500
            scale = 1e-17
        elif instr == 'LRISb':
            mdict = dict(TELESCOPE='Keck-1')
            parse_head = {'DATE-OBS': 'MJD', 'DISPERSER': 'DISPNAME', 'INSTR': 'INSTRUME'}
            maxpix = 2050  # 2x binning
        elif instr == 'GMOS-N':
            mdict = dict(TELESCOPE='Gemini-N', INSTR='GMOS-N')
            parse_head = {'R': True, 'DATE-OBS': 'MJD-OBS', 
                          'DISPERSER': 'DISPNAME'}
            maxpix = 3500
            scale = 1e-17
        elif instr == 'LRISr':
            mdict = dict(TELESCOPE='Keck-1')
            parse_head = {'DATE-OBS': 'MJD', 'DISPERSER': 'DISPNAME', 'INSTR': 'INSTRUME'}
            maxpix = 2050
            scale = 1e-17
        elif instr == 'DEIMOS':
            mdict = dict(TELESCOPE='Keck-2')
            parse_head = {'DATE-OBS': 'MJD', 'DISPERSER': 'DISPNAME', 
                          'INSTR': 'INSTRUME'}
            maxpix = 9000
            scale = 1e-17
        elif instr == 'Goodman':
            mdict = dict(TELESCOPE='SOAR', INSTR='Goodman')
            parse_head = {'DATE-OBS': 'MJD', 'DISPERSER': 'DISPNAME',
                          'R': True}
            maxpix = 2048
            scale = 1e-17
        elif instr == 'XSHOOTER':
            mdict = dict(TELESCOPE='VLT')
            parse_head = {'DATE-OBS': 'MJD', 'DISPERSER': 'DISPNAME', 'INSTR': 'INSTRUME'}
            maxpix = 33000
            scale = 1e-17
        else:
            embed(header='172')
        

        # Meta
        full_meta = pbuild.mk_meta(fits_files, allz_tbl, mdict=mdict, fname=fname,
                                   verbose=True, parse_head=parse_head, skip_badz=skipz,
                                   stype='GAL',
                                   chkz=True, **mwargs)
        full_meta['Ref'] = irefs
        # Survey flag
        flag_g = spbu.add_to_group_dict(instr, gdict, skip_for_debug=True)
        # IDs
        #if 'MUSE' in instr:
        #    embed(header='278 of build specdb')
        maindb = spbu.add_ids(maindb, full_meta, flag_g, tkeys, id_key, 
                              first=(flag_g==1), 
                              mtch_toler=1.*units.arcsec,
                              close_pairs=(instr in pair_groups))

        # Ingest --
        pbuild.ingest_spectra(hdf, instr, full_meta, max_npix=maxpix, verbose=False,
                              badf=badf, grab_conti=False, scale=scale, **swargs)

    # Write
    spbu.write_hdf(hdf, str('FRB'), maindb, zpri, gdict, version, Publisher=str('JXP'))
    print("Wrote {:s} DB file".format(outfile))
    print("You probably need to move it into SPECDB")
Beispiel #5
0
def ver01(test=False, clobber=False, publisher='J.X. Prochaska', **kwargs):
    """ Build version 1.0

    Parameters
    ----------
    test : bool, optional
      Run test only

    Returns
    -------

    """
    pdb.set_trace()  # THIS VERSION IS NOW FROZEN
    raise IOError("THIS VERSION IS NOW FROZEN")
    version = 'v01'
    # HDF5 file
    outfil = igmspec.__path__[0]+'/../DB/IGMspec_DB_{:s}.hdf5'.format(version)
    # Chk clobber
    if os.path.isfile(outfil):
        if clobber:
            warnings.warn("Overwriting previous DB file {:s}".format(outfil))
        else:
            warnings.warn("Not overwiting previous DB file.  Use clobber=True to do so")
            return
    # Begin
    hdf = h5py.File(outfil,'w')

    ''' Myers QSOs '''
    myers.orig_add_to_hdf(hdf)

    # Main DB Table
    idkey = 'IGM_ID'
    maindb, tkeys = sdbbu.start_maindb(idkey)

    # Group dict
    group_dict = {}

    # Organize for main loop
    groups = get_build_groups(version)

    pair_groups = ['SDSS_DR7']

    meta_only = False
    # Loop over the groups
    for gname in groups:
        # Meta
        if gname == 'SDSS_DR7':
            meta = groups[gname].grab_meta(hdf)
        else:
            meta = groups[gname].grab_meta()
        # Survey flag
        flag_g = sdbbu.add_to_group_dict(gname, group_dict)
        # IDs
        maindb = sdbbu.add_ids(maindb, meta, flag_g, tkeys, idkey,
                               first=(flag_g==1), close_pairs=(gname in pair_groups))
        # Spectra
        if not meta_only:
            groups[gname].hdf5_adddata(hdf, gname, meta, idkey)

    # Check for duplicates -- There is 1 pair in SDSS (i.e. 2 duplicates)
    if not sdbbu.chk_for_duplicates(maindb, dup_lim=2):
        raise ValueError("Failed duplicates")

    # Check for junk
    zpri = defs.z_priority()

    # Finish
    sdbbu.write_hdf(hdf, str('igmspec'), maindb, zpri,
                    group_dict, version, Publisher=str(publisher))
    print("Wrote {:s} DB file".format(outfil))
    print("Update DB info in specdb.defs.dbase_info !!")