Пример #1
0
    def PrintChannelRates(self, fluxname, chan, expt_config, *bgfile):
        # Iterate over interaction channels
        for i, chan_name in enumerate(chan.name):
            # Set output file
            if bgfile:
                outfile = get_abs_path(
                    f"out/{fluxname}_bg_chan_{expt_config}_events_unweighted.dat"
                )
            else:
                outfile = get_abs_path(
                    f"out/{fluxname}_{chan_name}_{expt_config}_events_unweighted.dat"
                )
            print(i, outfile)

            # Ensure the output dir exists
            os.makedirs(os.path.dirname(outfile), exist_ok=True)

            with open(outfile, 'w+') as f_out:
                ret = self.ShowChannelRates(f_out, 0, chan.num[i], lib.GLB_PRE,
                                            lib.GLB_WO_EFF, lib.GLB_WO_BG)
            if bgfile:
                outfile_smeared = get_abs_path(
                    f"out/{fluxname}_bg_chan_{expt_config}_events_smeared_unweighted.dat"
                )
            else:
                outfile_smeared = get_abs_path(
                    f"out/{fluxname}_{chan_name}_{expt_config}_events_smeared_unweighted.dat"
                )
            print(i, outfile_smeared)
            with open(outfile_smeared, 'w+') as f_out_smeared:
                ret = self.ShowChannelRates(f_out_smeared, 0, chan.num[i],
                                            lib.GLB_POST, lib.GLB_W_EFF,
                                            lib.GLB_W_BG)
Пример #2
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 def SetFlux(self, fluxname):
     self.flux = get_abs_path("glb/flux.glb")
     fluxfilename = get_abs_path(f"fluxes/{fluxname}.dat")
     if not os.path.exists(fluxfilename):
         print(f"Flux file name {fluxfilename} not found")
     with open(self.flux) as f_in:
         flux_contents = f_in.read()
         flux_contents1 = re.sub('{flux}', fluxfilename, flux_contents)
     self.file_obj.write(flux_contents1)
Пример #3
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 def SetCrossSections(self, chan):
     self.file_obj.write("\n /******** Cross-sections ********/\n\n")
     for chan_name in chan.name:
         self.file_obj.write(f"cross(#{chan_name})<\n")
         self.file_obj.write("      @cross_file= \"{}\"\n".format(
             get_abs_path(f'xscns/xs_{chan_name}.dat')))
         self.file_obj.write(">\n")
     if self.do_bg == True:
         self.file_obj.write(f"cross(#{self.bg_chan_name})<\n")
         self.file_obj.write("     @cross_file= \"{}\"\n".format(
             get_abs_path('xscns/xs_zero.dat')))
         self.file_obj.write(">\n")
Пример #4
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 def SetBackground(self, expt_config):
     self.do_bg = False
     self.bg_chan_name = "bg_chan"
     self.bg_filename = get_abs_path(
         f"backgrounds/{self.bg_chan_name}_{expt_config}.dat")
     if os.path.exists(self.bg_filename):
         self.do_bg = True
         print(f"Using background file {self.bg_filename}")
     else:
         print("No background file for this configuration")
     if self.do_bg == True:
         self.file_obj.write("include \"{}\"\n".format(
             get_abs_path(
                 f'smear/smear_{self.bg_chan_name}_{expt_config}.dat')))
Пример #5
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def apply_weights(filename, fluxname, chan, expt_config):
    for i, chan_name in enumerate(chan.name):
        unweightedfilename = get_abs_path(
            f"out/{fluxname}_{chan_name}_{expt_config}_events{filename}_unweighted.dat"
        )
        weightedfilename = get_abs_path(
            f"out/{fluxname}_{chan_name}_{expt_config}_events{filename}.dat")
        data = np.genfromtxt(unweightedfilename,
                             comments="--",
                             dtype=float,
                             encoding=None)
        data[:, 1] *= chan.factor[i]
        footer = "-------------------------\nTotal:          {:f}".format(
            data[-1, 1])
        np.savetxt(weightedfilename,
                   data[:][:-1],
                   fmt=['%1.6f'] + ['%16.6e'],
                   footer=footer,
                   comments='')
Пример #6
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 def __init__(self, channame):
     self.channel = channame
     self.chan_file_name = get_abs_path(
         f"channels/channels_{self.channel}.dat")
     data = np.genfromtxt(self.chan_file_name, dtype=None, encoding=None)
     self.name = [i[0] for i in data]
     self.num = [i[1] for i in data]
     self.cp = [i[2] for i in data]
     self.flav = [i[3] for i in data]
     self.factor = [i[4] for i in data]
Пример #7
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    def __init__(self):

        __slots__ = ('filename', 'config', 'mass', 'norm')

        self.filename = get_abs_path("detector_configurations.dat")

        if not os.path.exists(self.filename):
            print(f"Detector file name {self.filename} not found")

        data = np.genfromtxt(self.filename, dtype=None, encoding=None)
        self.config = [i[0] for i in data]
        self.mass = [i[1] for i in data]
        self.norm = [i[2] for i in data]
Пример #8
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 def SetChannels(self, chan, expt_config):
     self.file_obj.write("\n /********* Channels ********/\n\n")
     if not os.path.exists(chan.chan_file_name):
         print("Channel file name {} not found".format(chan.chan_file_name))
     for i, chan_name in enumerate(chan.name):
         self.file_obj.write(f"channel(#{chan_name}_signal)<\n")
         self.file_obj.write(
             f"      @channel= #supernova_flux:  {chan.cp[i]}:    {chan.flav[i]}:     {chan.flav[i]}:    #{chan_name}:    #{chan_name}_smear\n"
         )
         eff_file = get_abs_path(
             f"effic/effic_{chan_name}_{expt_config}.dat")
         with open(eff_file) as f_in:
             eff_file_contents = f_in.read()
             self.file_obj.write(
                 f"       @post_smearing_efficiencies = {eff_file_contents}\n"
             )
             self.file_obj.write(">\n\n")
Пример #9
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def supernova(fluxname, chan, expt_config):

    glb = GLB()

    channel_file_name = chan.chan_file_name

    if os.path.exists(channel_file_name):
        print(f"Channels from {channel_file_name}")
        print(f"Number of channels found: {len(chan.name)}")

    else:
        print("Cannot open channel file")

    true_values = glb.AllocParams()
    test_values = glb.AllocParams()

    theta12 = 0
    theta13 = 0
    theta23 = 0
    deltacp = 0
    sdm = 0
    ldm = 0

    glb.DefineParams(true_values, theta12, theta13, theta23, deltacp, sdm, ldm)
    glb.SetDensityParams(true_values, 1.0, lib.GLB_ALL)
    glb.DefineParams(test_values, theta12, theta13, theta23, deltacp, sdm, ldm)
    glb.SetDensityParams(test_values, 1.0, lib.GLB_ALL)

    glb.SetOscillationParams(true_values)
    glb.SetRates()

    glb.PrintChannelRates(fluxname, chan, expt_config)

    bgfile = get_abs_path(f'backgrounds/bg_chan_{expt_config}.dat')

    if os.path.exists(bgfile):
        bg_file = True
        glb.PrintChannelRates(fluxname, chan, expt_config, bg_file)
    else:
        print("No background file")

    glb.FreeParams(true_values)
    glb.FreeParams(test_values)

    return(0)
Пример #10
0
 def SetSmearing(self, chan, expt_config):
     for chan_name in chan.name:
         output_line = "include \"{}\"\n".format(
             get_abs_path(f'smear/smear_{chan_name}_{expt_config}.dat'))
         self.file_obj.write(output_line)
Пример #11
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 def Preamble(self):
     self.preamble = get_abs_path("glb/preamble.glb")
     with open(self.preamble) as f_in:
         preamble_contents = f_in.read()
     self.file_obj.write(preamble_contents)