m-thesis-introduction/simulations/airshower_beacon_simulation/do_reconstruction.py

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#!/usr/bin/env python3
# vim: fdm=indent ts=4
import h5py
import matplotlib.pyplot as plt
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from mpl_toolkits.mplot3d import Axes3D # required for projection='3d' on old matplotliblib versions
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import numpy as np
from copy import deepcopy
import aa_generate_beacon as beacon
import lib
from lib import rit
from earsim import REvent, Antenna
from atmocal import AtmoCal
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import pickle
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if __name__ == "__main__":
from os import path
import sys
fname = "ZH_airshower/mysim.sry"
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dirname = '/scratch/etdeboone/reconstructions/'+ (sys.argv[2]+'/' if 2 in sys.argv else '')
print("Dirname:", dirname)
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####
fname_dir = path.dirname(fname)
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max_clock_offset = None
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if True: # use the original files
ev = REvent(fname)
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max_clock_offset = int(sys.argv[1]) if len(sys.argv) > 1 else 5# ns
# randomise timing for antenna copies
seed = 12345
rng = np.random.default_rng(seed)
dirname += f'rand{max_clock_offset}ns'
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else:
raise NotImplementedError
antennas_fname = path.join(fname_dir, beacon.antennas_fname)
if not path.isfile(antennas_fname):
print("Antenna file cannot be found, did you try generating a beacon?")
sys.exit(1)
# Full reconstruction?
if False:
print("Full reconstruction")
if max_clock_offset:
print(f"Randomising timing: {max_clock_offset}")
clock_offsets = max_clock_offset * (2*rng.uniform(size=len(ev.antennas)) - 1)
for i, ant in enumerate(ev.antennas):
ev.antennas[i].t += clock_offsets[i]
else:
print(f"Not randomising timing")
with open(dirname + '/res.pkl', 'wb') as fp:
res = rit.reconstruction(ev, outfile=dirname+'/fig.pdf', slice_outdir=dirname+'/', Xlow=100, N_X=23, Xhigh=1200)
pickle.dump(res, fp)
sys.exit(0)
# Only a single slice
else:
print("Shower plane reconstruction")
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# atm = AtmoCal()
# X = 750
# rit.set_pol_and_bp(ev)
# dXref = atm.distance_to_slant_depth(np.deg2rad(ev.zenith),750,0)
# scale2d = dXref*np.tan(np.deg2rad(2.))
if max_clock_offset is None:
print(" + randomised timing")
ants_copy = deepcopy(ev.antennas)
clock_offsets = max_clock_offset * (2*rng.uniform(size=len(ants_copy)) - 1)
for i, ant in enumerate(ants_copy):
ant.t -= clock_offsets[i]
fig, axs = plt.subplots(1,1+(max_clock_offset is not None), sharex=True, sharey=True)
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fig.suptitle(f"Reconstructed Shower plane slice at X={X}")
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if max_clock_offset is None:
axs = [ax]
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for ax in axs:
ax.set_xlabel("-v x B (m)")
ax.set_ylabel(" vxvxB (m)")
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if max_clock_offset is not None:
axs[0].set_title("Simulated timing")
axs[1].set_title(f"Randomised timing [0, {max_clock_offset}]")
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try:
for i, ax in enumerate(axs):
# modify timing
if i == 1:
ev.antennas = ants_copy
xx,yy,p,km= rit.shower_plane_slice(ev,X,21,21,scale2d,scale2d)
if i == 0:
vmax, vmin = max(p), min(p)
sc = ax.scatter(xx,yy,c=p, vmax=vmax, vmin=vmin)
# Plot centers
im = np.argmax(p)
ax.plot(0, 0,'r+',ms=30)
ax.plot(xx[im],yy[im],'bx',ms=30)
fig.colorbar(sc, ax=axs[0])
# Always make sure to show the plot
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except:
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if True:
fig.savefig(dirname + f"/shower_plane_slice_X{X}_T{max_clock_offset}_exception.pdf")
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plt.show()
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if True:
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fig.savefig(dirname + f"/shower_plane_slice_X{X}_T{max_clock_offset}.pdf")
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plt.show()