#!/usr/bin/env python3 # vim: fdm=indent ts=4 """ Add a beacon measurement on top of the simulated airshower. """ import numpy as np import json import h5py import os.path as path from copy import deepcopy as copy from earsim import REvent, Antenna import lib tx_fname = 'tx.json' antennas_fname = 'antennas.hdf5' def write_tx_file(fname, tx, f_beacon): with open(fname, 'w') as fp: return json.dump( dict( f_beacon=f_beacon, tx=dict( x=tx.x, y=tx.y, z=tx.z, name=tx.name ) ), fp ) def read_tx_file(fname): with open(fname, 'r') as fp: data = json.load(fp) f_beacon = data['f_beacon'] tx = Antenna(**data['tx']) return tx, f_beacon def read_beacon_hdf5(fname, traces_key='traces'): with h5py.File(fname, 'r') as h5: tx_attrs = h5['tx'].attrs f_beacon = tx_attrs.get('f_beacon') mydict = { k:tx_attrs.get(k) for k in ['x', 'y', 'z', 'name'] } tx = Antenna(**mydict) antennas = [] for k, ant in h5['antennas'].items(): mydict = { k:ant.attrs.get(k) for k in ['x', 'y', 'z', 'name'] } antenna = Antenna(**mydict) antenna.t = ant[traces_key][0] antenna.Ex = ant[traces_key][1] antenna.Ey = ant[traces_key][2] antenna.Ez = ant[traces_key][3] if len(ant[traces_key]) > 4: antenna.beacon = ant[traces_key][4] if ant.attrs: antenna.attrs = {**ant.attrs} antennas.append(antenna) return f_beacon, tx, antennas def init_antenna_hdf5(fname, tx = None, f_beacon = None): with h5py.File(fname, 'w') as fp: if tx is not None or f_beacon is not None: tx_group = fp.create_group('tx') tx_attrs = tx_group.attrs if f_beacon is not None: tx_attrs['f_beacon'] = f_beacon if tx is not None: tx_attrs['x'] = tx.x tx_attrs['y'] = tx.y tx_attrs['z'] = tx.z tx_attrs['name'] = tx.name return fname def append_antenna_hdf5(fname, antenna, columns = [], name='traces', prepend_time=True, overwrite=True): if not overwrite: raise NotImplementedError with h5py.File(fname, 'a') as fp: if 'antennas' in fp.keys(): if not overwrite: raise NotImplementedError group = fp['antennas'] else: group = fp.create_group('antennas') if antenna.name in group: if not overwrite: raise NotImplementedError ant_group = group[antenna.name] else: ant_group = group.create_group(antenna.name) ant_attrs = ant_group.attrs ant_attrs['x'] = antenna.x ant_attrs['y'] = antenna.y ant_attrs['z'] = antenna.z ant_attrs['name'] = antenna.name if name in ant_group: if not overwrite: raise NotImplementedError del ant_group[name] dset = ant_group.create_dataset(name, (len(columns) + 1*prepend_time, len(columns[0])), dtype='f') if prepend_time: dset[0] = antenna.t for i, col in enumerate(columns, 1*prepend_time): dset[i] = col if __name__ == "__main__": from os import path remake_tx = True fname = "ZH_airshower/mysim.sry" tx = Antenna(x=-500,y=0,z=0,name='tx') # m f_beacon = 51.53e-3 # GHz beacon_amplitudes = 1e-6*np.array([1e2, 0, 0]) # mu V/m beacon_radiate_rsq = True if beacon_radiate_rsq: # Move tx out, and magnify beacon_amplitude (at tx) tx = Antenna(x=-20e3,y=0,z=0,name='tx') # m dist = lib.distance(tx, Antenna(x=0, y=0, z=0)) ampl = dist**2 beacon_amplitudes *= ampl #### fname_dir = path.dirname(fname) tx_fname = path.join(fname_dir, tx_fname) antennas_fname = path.join(fname_dir, antennas_fname) if not path.isfile(tx_fname) or remake_tx: write_tx_file(tx_fname, tx, f_beacon) else: tx, f_beacon = read_tx_file(tx_fname) # read in antennas ev = REvent(fname) N_antennas = len(ev.antennas) # initialize hdf5 file init_antenna_hdf5(antennas_fname, tx, f_beacon) # make beacon per antenna for i, antenna in enumerate(ev.antennas): beacon = lib.beacon_from(tx, antenna, f_beacon, antenna.t, radiate_rsq=beacon_radiate_rsq) E = np.array([antenna.Ex, antenna.Ey, antenna.Ez, beacon]) append_antenna_hdf5( antennas_fname, antenna, E, name='orig_traces', prepend_time=True) # add to relevant polarisation for j, _ in enumerate(beacon_amplitudes): E[j] += beacon_amplitudes[j]*beacon append_antenna_hdf5( antennas_fname, antenna, E, name='traces', prepend_time=True) print("Antenna HDF5 file written as " + str(antennas_fname))