mirror of
https://gitlab.science.ru.nl/mthesis-edeboone/m-thesis-introduction.git
synced 2024-11-14 02:23:32 +01:00
164 lines
5.8 KiB
Python
Executable file
164 lines
5.8 KiB
Python
Executable file
#!/usr/bin/env python3
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# vim: fdm=indent ts=4
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import h5py
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from itertools import combinations, product
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import matplotlib.pyplot as plt
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import numpy as np
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import aa_generate_beacon as beacon
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import lib
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from lib import figlib
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if __name__ == "__main__":
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from os import path
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import sys
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import os
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import matplotlib
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if os.name == 'posix' and "DISPLAY" not in os.environ:
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matplotlib.use('Agg')
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from scriptlib import MyArgumentParser
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parser = MyArgumentParser()
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parser.add_argument('ref_ant_idx', default=None, nargs='*', type=int, help='Reference Antenna Indices for Baselines(ref_ant_idx, *). Leave empty to use all available antennas. (Default: %(default)s) ')
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args = parser.parse_args()
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figsize = (12,8)
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c_light = 3e8*1e-9
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show_plots = args.show_plots
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ref_ant_id = args.ref_ant_idx # leave None for all baselines
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####
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fname_dir = args.data_dir
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antennas_fname = path.join(fname_dir, beacon.antennas_fname)
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time_diffs_fname = 'time_diffs.hdf5' if False else antennas_fname
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beacon_snr_fname = path.join(fname_dir, beacon.beacon_snr_fname)
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fig_dir = args.fig_dir # set None to disable saving
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if not path.isfile(antennas_fname):
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print("Antenna file cannot be found, did you try generating a beacon?")
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sys.exit(1)
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# Read in antennas from file
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f_beacon, tx, antennas = beacon.read_beacon_hdf5(antennas_fname)
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# run over all baselines
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if not ref_ant_id:
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print("Doing all baselines")
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baselines = combinations(antennas,2)
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# use ref_ant
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else:
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ref_ants = [antennas[i] for i in ref_ant_id]
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print("Doing all baselines with {}".format([int(a.name) for a in ref_ants]))
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baselines = product(ref_ants, antennas)
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# For now, only one beacon_frequency is supported
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freq_names = antennas[0].beacon_info.keys()
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if len(freq_names) > 1:
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raise NotImplementedError
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freq_name = next(iter(freq_names))
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# Collect baselines from optional generators
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baselines = list(baselines)
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# Get phase difference per baseline
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phase_diffs = np.empty( (len(baselines), 2) )
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for i, base in enumerate(baselines):
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if i%1000==0:
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print(i, "out of", len(baselines))
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# read f_beacon from the first antenna
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f_beacon = base[0].beacon_info[freq_name]['freq']
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# Get true phase diffs
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try:
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clock_phases = np.array([ant.beacon_info[freq_name]['clock_phase'] for ant in base])
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clock_phases_diff = lib.phase_mod(lib.phase_mod(clock_phases[1]) - lib.phase_mod(clock_phases[0]))
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except IndexError:
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# clock_phase not determined yet
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print(f"Missing clock_phases for {freq_name} in baseline {base[0].name},{base[1].name}")
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clock_phases_diff = np.nan
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# save phase difference with antenna names
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phase_diffs[i] = [f_beacon, clock_phases_diff]
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beacon.write_baseline_time_diffs_hdf5(time_diffs_fname, baselines, phase_diffs[:,1], [0]*len(phase_diffs), phase_diffs[:,0])
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##############################
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# Compare actual time shifts #
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##############################
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beacon_snrs = beacon.read_snr_file(beacon_snr_fname)
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snr_str = f"$\\langle SNR \\rangle$ = {beacon_snrs['mean']: .1e}"
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actual_antenna_clock_phases = { a.name: -2*np.pi*a.attrs['clock_offset']*f_beacon for a in sorted(antennas, key=lambda a: int(a.name)) }
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# Compare actual time shifts
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my_phase_diffs = []
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for i,b in enumerate(baselines):
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actual_clock_phase_diff = lib.phase_mod( lib.phase_mod(actual_antenna_clock_phases[b[1].name]) - lib.phase_mod(actual_antenna_clock_phases[b[0].name]))
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this_actual_clock_phase_diff = lib.phase_mod( actual_clock_phase_diff )
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my_phase_diffs.append(this_actual_clock_phase_diff)
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# Make a plot
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if True:
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N_base = len(baselines)
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N_ant = len(antennas)
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for i in range(2):
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plot_residuals = i == 1
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true_phases = my_phase_diffs
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measured_phases = phase_diffs[:,1]
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hist_kwargs = {}
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if plot_residuals:
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measured_phases = lib.phase_mod(measured_phases - true_phases)
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hist_kwargs['histtype'] = 'stepfilled'
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fig = figlib.phase_comparison_figure(
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measured_phases,
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true_phases,
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plot_residuals=plot_residuals,
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f_beacon=f_beacon,
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figsize=figsize,
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hist_kwargs=hist_kwargs,
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fit_gaussian=plot_residuals,
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)
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axs = fig.get_axes()
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axs[0].legend(title=snr_str)
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if plot_residuals:
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axs[0].set_title("Difference between Measured and Actual phase difference\n for Baselines (i,j" + (')' if not ref_ant_id else '='+str([ int(a.name) for a in ref_ants])+')'))
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axs[-1].set_xlabel("Baseline Phase Residual $\\Delta\\varphi_{ij_{meas}} - \\Delta\\varphi_{ij_{true}}$ [rad]")
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else:
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axs[0].set_title("Comparison Measured and Actual phase difference\n for Baselines (i,j" + (')' if not ref_ant_id else '='+str([ int(a.name) for a in ref_ants])+')'))
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axs[-1].set_xlabel("Baseline Phase $\\Delta\\varphi_{ij}$ [rad]")
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#
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i=0
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secax = axs[i].child_axes[0]
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secax.set_xlabel('Time $\\Delta\\varphi/(2\\pi f_{beac})$ [ns]')
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#
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i=1
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axs[i].set_ylabel("Baseline no.")
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fig.tight_layout()
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if fig_dir:
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extra_name = "measured"
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if plot_residuals:
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extra_name = "residuals"
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fig.savefig(path.join(fig_dir, path.basename(__file__) + f".{extra_name}.F{freq_name}.pdf"))
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if show_plots:
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plt.show()
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