예제 #1
0
파일: irfs.py 프로젝트: jefemagril/fermipy
    def create(cls, skydir, ltc, event_class, event_types, energies, cth_bins=None,
               ndtheta=500, use_edisp=False, fn=None, nbin=64):
        """Create a PSFModel object.  This class can be used to evaluate the
        exposure-weighted PSF for a source with a given observing
        profile and energy distribution.

        Parameters
        ----------
        skydir : `~astropy.coordinates.SkyCoord`

        ltc : `~fermipy.irfs.LTCube`

        energies : `~numpy.ndarray`
            Grid of energies at which the PSF will be pre-computed.

        cth_bins : `~numpy.ndarray`
            Bin edges in cosine of the inclination angle.

        use_edisp : bool
            Generate the PSF model accounting for the influence of
            energy dispersion.

        fn : `~fermipy.spectrum.SpectralFunction`
            Model for the spectral energy distribution of the source.

        """

        if isinstance(event_types, int):
            event_types = bitmask_to_bits(event_types)

        if fn is None:
            fn = spectrum.PowerLaw([1E-13, -2.0])

        dtheta = np.logspace(-4, 1.75, ndtheta)
        dtheta = np.insert(dtheta, 0, [0])
        log_energies = np.log10(energies)
        egy_bins = 10**utils.center_to_edge(log_energies)

        if cth_bins is None:
            cth_bins = np.array([0.2, 1.0])

        if use_edisp:
            psf = create_wtd_psf(skydir, ltc, event_class, event_types,
                                 dtheta, egy_bins, cth_bins, fn, nbin=nbin)
            wts = calc_counts_edisp(skydir, ltc, event_class, event_types,
                                    egy_bins, cth_bins, fn, nbin=nbin)
        else:
            psf = create_avg_psf(skydir, ltc, event_class, event_types,
                                 dtheta, energies, cth_bins)
            wts = calc_counts(skydir, ltc, event_class, event_types,
                              egy_bins, cth_bins, fn)

        exp = calc_exp(skydir, ltc, event_class, event_types,
                       energies, cth_bins)

        return cls(dtheta, energies, cth_bins, np.squeeze(exp), np.squeeze(psf),
                   np.squeeze(wts))
예제 #2
0
파일: irfs.py 프로젝트: NAH8/fermipy
    def create(skydir, ltc, event_class, event_types, energies, cth_bins=None,
               ndtheta=500, use_edisp=False, fn=None, nbin=64):
        """Create a PSFModel object.  This class can be used to evaluate the
        exposure-weighted PSF for a source with a given observing
        profile and energy distribution.

        Parameters
        ----------
        skydir : `~astropy.coordinates.SkyCoord`

        ltc : `~fermipy.irfs.LTCube`

        energies : `~numpy.ndarray`
            Grid of energies at which the PSF will be pre-computed.

        cth_bins : `~numpy.ndarray`
            Bin edges in cosine of the inclination angle.

        use_edisp : bool
            Generate the PSF model accounting for the influence of
            energy dispersion.

        fn : `~fermipy.spectrum.SpectralFunction`
            Model for the spectral energy distribution of the source.

        """

        if isinstance(event_types, int):
            event_types = bitmask_to_bits(event_types)

        if fn is None:
            fn = spectrum.PowerLaw([1E-13, -2.0])

        dtheta = np.logspace(-4, 1.75, ndtheta)
        dtheta = np.insert(dtheta, 0, [0])
        log_energies = np.log10(energies)
        egy_bins = 10**utils.center_to_edge(log_energies)

        if cth_bins is None:
            cth_bins = np.array([0.2, 1.0])

        if use_edisp:
            psf = create_wtd_psf(skydir, ltc, event_class, event_types,
                                 dtheta, egy_bins, cth_bins, fn, nbin=nbin)
            wts = calc_counts_edisp(skydir, ltc, event_class, event_types,
                                    egy_bins, cth_bins, fn, nbin=nbin)
        else:
            psf = create_avg_psf(skydir, ltc, event_class, event_types,
                                 dtheta, energies, cth_bins)
            wts = calc_counts(skydir, ltc, event_class, event_types,
                              egy_bins, cth_bins, fn)

        exp = calc_exp(skydir, ltc, event_class, event_types,
                       energies, cth_bins)

        return PSFModel(dtheta, energies, cth_bins, np.squeeze(exp), np.squeeze(psf),
                        np.squeeze(wts))
예제 #3
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def find_and_read_ebins(hdulist):
    """  Reads and returns the energy bin edges.

    This works for both the CASE where the energies are in the ENERGIES HDU
    and the case where they are in the EBOUND HDU
    """
    from fermipy import utils
    ebins = None
    if 'ENERGIES' in hdulist:
        hdu = hdulist['ENERGIES']
        ectr = hdu.data.field(hdu.columns[0].name)
        ebins = np.exp(utils.center_to_edge(np.log(ectr)))
    elif 'EBOUNDS' in hdulist:
        hdu = hdulist['EBOUNDS']
        emin = hdu.data.field('E_MIN') / 1E3
        emax = hdu.data.field('E_MAX') / 1E3
        ebins = np.append(emin, emax[-1])
    return ebins
예제 #4
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def find_and_read_ebins(hdulist):
    """  Reads and returns the energy bin edges.

    This works for both the CASE where the energies are in the ENERGIES HDU
    and the case where they are in the EBOUND HDU
    """
    from fermipy import utils
    ebins = None
    if 'ENERGIES' in hdulist:
        hdu = hdulist['ENERGIES']
        ectr = hdu.data.field(hdu.columns[0].name)
        ebins = np.exp(utils.center_to_edge(np.log(ectr)))
    elif 'EBOUNDS' in hdulist:
        hdu = hdulist['EBOUNDS']
        emin = hdu.data.field('E_MIN') / 1E3
        emax = hdu.data.field('E_MAX') / 1E3
        ebins = np.append(emin, emax[-1])
    return ebins
예제 #5
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파일: skymap.py 프로젝트: NAH8/fermipy
    def create_from_fits(fitsfile, **kwargs):
        hdu = kwargs.get('hdu', 0)

        hdulist = fits.open(fitsfile)
        header = hdulist[hdu].header
        data = hdulist[hdu].data
        header = fits.Header.fromstring(header.tostring())
        wcs = WCS(header)

        ebins = None
        if 'ENERGIES' in hdulist:
            tab = Table.read(fitsfile, 'ENERGIES')
            ectr = np.array(tab.columns[0])
            ebins = np.exp(utils.center_to_edge(np.log(ectr)))
        elif 'EBOUNDS' in hdulist:
            tab = Table.read(fitsfile, 'EBOUNDS')
            emin = np.array(tab['E_MIN']) / 1E3
            emax = np.array(tab['E_MAX']) / 1E3
            ebins = np.append(emin, emax[-1])

        return Map(data, wcs, ebins)
예제 #6
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    def create_from_fits(cls, fitsfile, **kwargs):
        hdu = kwargs.get('hdu', 0)

        with fits.open(fitsfile) as hdulist:
            header = hdulist[hdu].header
            data = hdulist[hdu].data
            header = fits.Header.fromstring(header.tostring())
            wcs = WCS(header)

            ebins = None
            if 'ENERGIES' in hdulist:
                tab = Table.read(fitsfile, 'ENERGIES')
                ectr = np.array(tab.columns[0])
                ebins = np.exp(utils.center_to_edge(np.log(ectr)))
            elif 'EBOUNDS' in hdulist:
                tab = Table.read(fitsfile, 'EBOUNDS')
                emin = np.array(tab['E_MIN']) / 1E3
                emax = np.array(tab['E_MAX']) / 1E3
                ebins = np.append(emin, emax[-1])

        return cls(data, wcs, ebins)