diff options
Diffstat (limited to 'fg21sim/galactic/freefree.py')
-rw-r--r-- | fg21sim/galactic/freefree.py | 142 |
1 files changed, 90 insertions, 52 deletions
diff --git a/fg21sim/galactic/freefree.py b/fg21sim/galactic/freefree.py index c20f0c1..2c34374 100644 --- a/fg21sim/galactic/freefree.py +++ b/fg21sim/galactic/freefree.py @@ -60,31 +60,29 @@ class FreeFree: 1998, ApJ, 500, 525, http://adsabs.harvard.edu/abs/1998ApJ...500..525S """ + # Component name + name = "Galactic free-free" + def __init__(self, configs): self.configs = configs self._set_configs() - self._load_halphamap() - self._load_dustmap() def _set_configs(self): """Load the configs and set the corresponding class attributes.""" - self.halphamap_path = self.configs.get_path( - "galactic/freefree/halphamap") + comp = "galactic/freefree" + self.halphamap_path = self.configs.get_path(comp+"halphamap") self.halphamap_unit = au.Unit( - self.configs.getn("galactic/freefree/halphamap_unit")) - self.dustmap_path = self.configs.get_path( - "galactic/freefree/dustmap") + self.configs.getn(comp+"/halphamap_unit")) + self.dustmap_path = self.configs.get_path(comp+"/dustmap") self.dustmap_unit = au.Unit( - self.configs.getn("galactic/freefree/dustmap_unit")) - # output - self.prefix = self.configs.getn("galactic/freefree/prefix") - self.save = self.configs.getn("galactic/freefree/save") - self.output_dir = self.configs.get_path( - "galactic/freefree/output_dir") + self.configs.getn(comp+"/dustmap_unit")) + self.prefix = self.configs.getn(comp+"/prefix") + self.save = self.configs.getn(comp+"/save") + self.output_dir = self.configs.get_path(comp+"/output_dir") + # self.filename_pattern = self.configs.getn("output/filename_pattern") self.use_float = self.configs.getn("output/use_float") self.clobber = self.configs.getn("output/clobber") - # self.nside = self.configs.getn("common/nside") self.freq_unit = au.Unit(self.configs.getn("frequency/unit")) # @@ -134,7 +132,7 @@ class FreeFree: References: [Dickinson2003]: Eq.(1, 3); Sec.(2.5) """ - if hasattr(self, "dust_corrected") and self.dust_corrected: + if hasattr(self, "_dust_corrected") and self._dust_corrected: return # logger.info("Correct H[alpha] map for dust absorption") @@ -161,7 +159,7 @@ class FreeFree: # halphamap_corr = self.halphamap * 10**(self.dustmap * 0.0185 * f_dust) self.halphamap = halphamap_corr - self.dust_corrected = True + self._dust_corrected = True logger.info("Done dust absorption correction") def _calc_ratio_a(self, Te, nu_GHz): @@ -176,39 +174,22 @@ class FreeFree: a = term1 * term2 return a - def _simulate_frequency(self, frequency): - """Simulate the free-free map at the specified frequency. - - References: [Dickinson2003], Eq.(11) - - NOTE: [Dickinson2003], Eq.(11) may wrongly have the "10^3" term. + def _make_filepath(self, **kwargs): + """Make the path of output file according to the filename pattern + and output directory loaded from configurations. """ - # Correct for dust absorption first - self._correct_dust_absorption() - # Assumed electron temperature [ K ] - Te = 7000.0 - T4 = Te / 1e4 - nu = frequency * self.freq_unit.to(au.GHz) # frequency [ GHz ] - ratio_a = self._calc_ratio_a(Te, nu) - # NOTE: ignored the "10^3" term in the referred equation - ratio_mK_R = (8.396 * ratio_a * nu**(-2.1) * - T4**0.667 * 10**(0.029/T4) * (1+0.08)) - # Use "Kelvin" as the brightness temperature unit - ratio_K_R = ratio_mK_R * au.mK.to(au.K) - hpmap_f = self.halphamap * ratio_K_R - return hpmap_f - - def simulate(self, frequencies): - """Simulate the free-free map at the specified frequencies.""" - hpmaps = [] - for f in np.array(frequencies, ndmin=1): - logger.info("Simulating free-free map at {0} ({1}) ...".format( - f, self.freq_unit)) - hpmap_f = self._simulate_frequency(f) - hpmaps.append(hpmap_f) - if self.save: - self.output(hpmap_f, f) - return hpmaps + data = { + "prefix": self.prefix, + } + data.update(kwargs) + filename = self.filename_pattern.format(**data) + filetype = self.configs.getn("output/filetype") + if filetype == "fits": + filename += ".fits" + else: + raise NotImplementedError("unsupported filetype: %s" % filetype) + filepath = os.path.join(self.output_dir, filename) + return filepath def _make_header(self): """Make the header with detail information (e.g., parameters and @@ -237,10 +218,7 @@ class FreeFree: os.mkdir(self.output_dir) logger.info("Created output dir: {0}".format(self.output_dir)) # - filename = self.filename_pattern.format(prefix=self.prefix, - frequency=frequency) - filename += ".fits" - filepath = os.path.join(self.output_dir, filename) + filepath = self._make_filepath(frequency=frequency) if not hasattr(self, "header"): self._make_header() header = self.header.copy() @@ -254,3 +232,63 @@ class FreeFree: write_fits_healpix(filepath, hpmap, header=header, clobber=self.clobber) logger.info("Write simulated map to file: {0}".format(filepath)) + + def preprocess(self): + """Perform the preparation procedures for the final simulations. + + Attributes + ---------- + _preprocessed : bool + This attribute presents and is ``True`` after the preparation + procedures are performed, which indicates that it is ready to + do the final simulations. + """ + if hasattr(self, "_preprocessed") and self._preprocessed: + return + # + logger.info("{name}: preprocessing ...".format(name=self.name)) + self._load_halphamap() + self._load_dustmap() + # Correct for dust absorption + self._correct_dust_absorption() + # + self._preprocessed = True + + def simulate_frequency(self, frequency): + """Simulate the free-free map at the specified frequency. + + References: [Dickinson2003], Eq.(11) + + NOTE: [Dickinson2003], Eq.(11) may wrongly have the "10^3" term. + """ + self.preprocess() + # + logger.info("Simulating {name} map at {freq} ({unit}) ...".format( + name=self.name, freq=frequency, unit=self.freq_unit)) + # Assumed electron temperature [ K ] + Te = 7000.0 + T4 = Te / 1e4 + nu = frequency * self.freq_unit.to(au.GHz) # frequency [ GHz ] + ratio_a = self._calc_ratio_a(Te, nu) + # NOTE: ignored the "10^3" term in the referred equation + ratio_mK_R = (8.396 * ratio_a * nu**(-2.1) * + T4**0.667 * 10**(0.029/T4) * (1+0.08)) + # Use "Kelvin" as the brightness temperature unit + ratio_K_R = ratio_mK_R * au.mK.to(au.K) + hpmap_f = self.halphamap * ratio_K_R + # + if self.save: + self.output(hpmap_f, frequency) + return hpmap_f + + def simulate(self, frequencies): + """Simulate the free-free map at every specified frequency.""" + hpmaps = [] + for f in np.array(frequencies, ndmin=1): + hpmap_f = self.simulate_frequency(f) + hpmaps.append(hpmap_f) + return hpmaps + + def postprocess(self): + """Perform the post-simulation operations before the end.""" + pass |