def make_psf_mapcube(skydir, psf, outfile, npix=500, cdelt=0.01, rebin=1): energies = psf.energies nebin = len(energies) k = utils.make_psf_kernel(psf, npix * rebin, cdelt / rebin) if rebin > 1: k = utils.rebin_map(k, nebin, npix, rebin) w = wcs_utils.create_wcs(skydir, cdelt=cdelt, crpix=npix / 2. + 0.5, naxis=3) w.wcs.crpix[2] = 1 w.wcs.crval[2] = 10**energies[0] w.wcs.cdelt[2] = energies[1] - energies[0] w.wcs.ctype[2] = 'Energy' ecol = fits.Column(name='Energy', format='D', array=10**energies) hdu_energies = fits.BinTableHDU.from_columns([ecol], name='ENERGIES') hdu_image = fits.PrimaryHDU(np.zeros((nebin, npix, npix)), header=w.to_header()) hdu_image.data[...] = k hdu_image.header['CUNIT3'] = 'MeV' with fits.HDUList([hdu_image, hdu_energies]) as hdulist: hdulist.writeto(outfile, overwrite=True)
def make_psf_mapcube(skydir, psf, outfile, npix=500, cdelt=0.01, rebin=1): energies = psf.energies nebin = len(energies) k = utils.make_psf_kernel(psf, npix * rebin, cdelt / rebin) if rebin > 1: k = utils.rebin_map(k, nebin, npix, rebin) w = wcs_utils.create_wcs(skydir, cdelt=cdelt, crpix=npix / 2. + 0.5, naxis=3) w.wcs.crpix[2] = 1 w.wcs.crval[2] = 10 ** energies[0] w.wcs.cdelt[2] = energies[1] - energies[0] w.wcs.ctype[2] = 'Energy' ecol = fits.Column(name='Energy', format='D', array=10 ** energies) hdu_energies = fits.BinTableHDU.from_columns([ecol], name='ENERGIES') hdu_image = fits.PrimaryHDU(np.zeros((nebin, npix, npix)), header=w.to_header()) hdu_image.data[...] = k hdu_image.header['CUNIT3'] = 'MeV' with fits.HDUList([hdu_image, hdu_energies]) as hdulist: hdulist.writeto(outfile, overwrite=True)
def make_srcmap_old(psf, spatial_model, sigma, npix=500, xpix=0.0, ypix=0.0, cdelt=0.01, rebin=1, psf_scale_fn=None): """Compute the source map for a given spatial model. Parameters ---------- psf : `~fermipy.irfs.PSFModel` spatial_model : str Spatial model. sigma : float Spatial size parameter for extended models. xpix : float Source position in pixel coordinates in X dimension. ypix : float Source position in pixel coordinates in Y dimension. rebin : int Factor by which the original map will be oversampled in the spatial dimension when computing the model. psf_scale_fn : callable Function that evaluates the PSF scaling function. Argument is energy in MeV. """ if rebin > 1: npix = npix * rebin xpix = xpix * rebin + (rebin - 1.0) / 2. ypix = ypix * rebin + (rebin - 1.0) / 2. cdelt = cdelt / rebin if spatial_model == 'RadialGaussian': k = utils.make_cgauss_kernel(psf, sigma, npix, cdelt, xpix, ypix, psf_scale_fn) elif spatial_model == 'RadialDisk': k = utils.make_cdisk_kernel(psf, sigma, npix, cdelt, xpix, ypix, psf_scale_fn) elif spatial_model == 'PointSource': k = utils.make_psf_kernel(psf, npix, cdelt, xpix, ypix, psf_scale_fn) else: raise Exception('Unsupported spatial model: %s', spatial_model) if rebin > 1: k = utils.sum_bins(k, 1, rebin) k = utils.sum_bins(k, 2, rebin) k *= psf.exp[:, np.newaxis, np.newaxis] * np.radians(cdelt)**2 return k
def make_srcmap_old(psf, spatial_model, sigma, npix=500, xpix=0.0, ypix=0.0, cdelt=0.01, rebin=1, psf_scale_fn=None): """Compute the source map for a given spatial model. Parameters ---------- psf : `~fermipy.irfs.PSFModel` spatial_model : str Spatial model. sigma : float Spatial size parameter for extended models. xpix : float Source position in pixel coordinates in X dimension. ypix : float Source position in pixel coordinates in Y dimension. rebin : int Factor by which the original map will be oversampled in the spatial dimension when computing the model. psf_scale_fn : callable Function that evaluates the PSF scaling function. Argument is energy in MeV. """ if rebin > 1: npix = npix * rebin xpix = xpix * rebin + (rebin - 1.0) / 2. ypix = ypix * rebin + (rebin - 1.0) / 2. cdelt = cdelt / rebin if spatial_model == 'RadialGaussian': k = utils.make_cgauss_kernel(psf, sigma, npix, cdelt, xpix, ypix, psf_scale_fn) elif spatial_model == 'RadialDisk': k = utils.make_cdisk_kernel(psf, sigma, npix, cdelt, xpix, ypix, psf_scale_fn) elif spatial_model == 'PointSource': k = utils.make_psf_kernel(psf, npix, cdelt, xpix, ypix, psf_scale_fn) else: raise Exception('Unsupported spatial model: %s', spatial_model) if rebin > 1: k = utils.sum_bins(k, 1, rebin) k = utils.sum_bins(k, 2, rebin) k *= psf.exp[:, np.newaxis, np.newaxis] * np.radians(cdelt) ** 2 return k
def make_srcmap(skydir, psf, spatial_model, sigma, npix=500, xpix=0.0, ypix=0.0, cdelt=0.01, rebin=1, psf_scale_fn=None): """Compute the source map for a given spatial model. Parameters ---------- skydir : `~astropy.coordinates.SkyCoord` psf : `~fermipy.irfs.PSFModel` spatial_model : str Spatial model. sigma : float Spatial size parameter for extended models. xpix : float Source position in pixel coordinates in X dimension. ypix : float Source position in pixel coordinates in Y dimension. rebin : int Factor by which the original map will be oversampled in the spatial dimension when computing the model. psf_scale_fn : callable Function that evaluates the PSF scaling function. Argument is energy in MeV. """ energies = psf.energies nebin = len(energies) if spatial_model == 'GaussianSource' or spatial_model == 'RadialGaussian': k = utils.make_cgauss_kernel(psf, sigma, npix * rebin, cdelt / rebin, xpix * rebin, ypix * rebin, psf_scale_fn) elif spatial_model == 'DiskSource' or spatial_model == 'RadialDisk': k = utils.make_cdisk_kernel(psf, sigma, npix * rebin, cdelt / rebin, xpix * rebin, ypix * rebin, psf_scale_fn) elif spatial_model == 'PSFSource' or spatial_model == 'PointSource': k = utils.make_psf_kernel(psf, npix * rebin, cdelt / rebin, xpix * rebin, ypix * rebin, psf_scale_fn) else: raise Exception('Unrecognized spatial model: %s' % spatial_model) if rebin > 1: k = utils.rebin_map(k, nebin, npix, rebin) k *= psf.exp[:, np.newaxis, np.newaxis] * np.radians(cdelt)**2 return k