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#!/usr/bin/env python3
# vim: fdm=indent ts=4
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"""
Find beacon phases in antenna traces
And save these to a file
"""
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import h5py
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import matplotlib . pyplot as plt
import numpy as np
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import aa_generate_beacon as beacon
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import lib
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if __name__ == " __main__ " :
from os import path
import sys
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import matplotlib
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import os
if os . name == ' posix ' and " DISPLAY " not in os . environ :
matplotlib . use ( ' Agg ' )
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from scriptlib import MyArgumentParser
parser = MyArgumentParser ( )
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group1 = parser . add_mutually_exclusive_group ( )
group1 . add_argument ( ' --AxB ' , dest = ' use_AxB_trace ' , action = ' store_true ' , help = ' Only use AxB trace, if both AxB and beacon are not used, we use the antenna polarisations. ' )
group1 . add_argument ( ' --beacon ' , dest = ' use_beacon_trace ' , action = ' store_true ' , help = ' Only use the beacon trace ' )
parser . add_argument ( ' --N-mask ' , type = float , default = 500 , help = ' Mask N_MASK samples around the absolute maximum of the trace. (Default: %(default)d ) ' )
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args = parser . parse_args ( )
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f_beacon_band = ( 49e-3 , 55e-3 ) #GHz
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allow_frequency_fitting = False
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read_frequency_from_file = True
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N_mask = int ( args . N_mask )
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use_only_AxB_trace = args . use_AxB_trace
use_only_beacon_trace = args . use_beacon_trace # only applicable if AxB = False
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show_plots = args . show_plots
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figsize = ( 12 , 8 )
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print ( " use_only_AxB_trace: " , use_only_AxB_trace , " use_only_beacon_trace: " , use_only_beacon_trace )
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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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fig_dir = args . fig_dir # set None to disable saving
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if not path . isfile ( antennas_fname ) :
print ( " Antenna file cannot be found, did you try generating a beacon? " )
sys . exit ( 1 )
# read in antennas
with h5py . File ( antennas_fname , ' a ' ) as fp :
if ' antennas ' not in fp . keys ( ) :
print ( " Antenna file corrupted? no antennas " )
sys . exit ( 1 )
group = fp [ ' antennas ' ]
f_beacon = None
if read_frequency_from_file and ' tx ' in fp :
tx = fp [ ' tx ' ]
if ' f_beacon ' in tx . attrs :
f_beacon = tx . attrs [ ' f_beacon ' ]
else :
print ( " No frequency found in file. " )
sys . exit ( 2 )
f_beacon_estimate_band = 0.01 * f_beacon
elif allow_frequency_fitting :
f_beacon_estimate_band = ( f_beacon_band [ 1 ] - f_beacon_band [ 0 ] ) / 2
f_beacon = f_beacon_band [ 1 ] - f_beacon_estimate_band
else :
print ( " Not allowed to fit frequency and no tx group found in file. " )
sys . exit ( 2 )
N_antennas = len ( group . keys ( ) )
# just for funzies
found_data = np . zeros ( ( N_antennas , 3 ) )
# Determine frequency and phase
for i , name in enumerate ( group . keys ( ) ) :
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h5ant = group [ name ]
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# use E_AxB only instead of polarisations
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if use_only_AxB_trace :
traces_key = ' E_AxB '
if traces_key not in h5ant . keys ( ) :
print ( f " Antenna does not have ' { traces_key } ' in { name } " )
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sys . exit ( 1 )
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traces = h5ant [ traces_key ]
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t_trace = traces [ 0 ]
test_traces = [ traces [ 1 ] ]
orients = [ ' E_AxB ' ]
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# Only beacon
elif use_only_beacon_trace :
traces_key = ' filtered_traces '
if traces_key not in h5ant . keys ( ) :
print ( f " Antenna file corrupted? no ' { traces_key } ' in { name } " )
sys . exit ( 1 )
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traces = h5ant [ traces_key ]
t_trace = traces [ 0 ]
test_traces = [ traces [ 4 ] ]
orients = [ ' B ' ]
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# use separate polarisations
else :
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traces_key = ' filtered_traces '
if traces_key not in h5ant . keys ( ) :
print ( f " Antenna file corrupted? no ' { traces_key } ' in { name } " )
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sys . exit ( 1 )
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traces = h5ant [ traces_key ]
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t_trace = traces [ 0 ]
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test_traces = [ traces [ i ] for i in range ( 1 , 4 ) ]
orients = [ ' Ex ' , ' Ey ' , ' Ez ' ]
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# Really only select the first component
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if True :
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test_traces = [ test_traces [ 0 ] ]
orients = [ orients [ 0 ] ]
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# TODO: refine masking
# use beacon but remove where E_AxB-Beacon != 0
# Uses the first traces as reference
if N_mask and orients [ 0 ] != ' B ' :
N_pre , N_post = N_mask / / 2 , N_mask / / 2
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max_idx = np . argmax ( test_traces [ 0 ] )
low_idx = max ( 0 , max_idx - N_pre )
high_idx = min ( len ( t_trace ) , max_idx + N_post )
t_mask = np . ones ( len ( t_trace ) , dtype = bool )
t_mask [ low_idx : high_idx ] = False
t_trace = t_trace [ t_mask ]
for j , t in enumerate ( test_traces ) :
test_traces [ j ] = t [ t_mask ]
orients [ j ] = orients [ j ] + ' masked '
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# Do Fourier Transforms
# to find phases and amplitudes
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if True :
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freqs , beacon_phases , amps = lib . find_beacon_in_traces (
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test_traces , t_trace ,
f_beacon_estimate = f_beacon ,
frequency_fit = allow_frequency_fitting ,
f_beacon_estimate_band = f_beacon_estimate_band
)
else :
# Testing
freqs = [ f_beacon ]
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t0 = h5ant . attrs [ ' t0 ' ]
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beacon_phases = [ 2 * np . pi * t0 * f_beacon ]
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amps = [ 3e-7 ]
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# choose highest amp
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idx = np . argmax ( amps )
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if False and len ( beacon_phases ) > 1 :
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#idx = np.argmax(amplitudes, axis=-1)
raise NotImplementedError
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frequency = freqs [ idx ]
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beacon_phase = beacon_phases [ idx ]
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amplitude = amps [ idx ]
orientation = orients [ idx ]
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# Correct for phase by t_trace[0]
corr_phase = lib . phase_mod ( 2 * np . pi * f_beacon * t_trace [ 0 ] )
if False :
# Subtract phase due to not starting at t=0
# This is already done in beacon_find_traces
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beacon_phase = lib . phase_mod ( beacon_phase + corr_phase )
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# for reporting using plots
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found_data [ i ] = frequency , beacon_phase , amplitude
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if ( show_plots or fig_dir ) and ( i == 0 or i == 72 ) :
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p2t = lambda phase : phase / ( 2 * np . pi * f_beacon )
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fig , ax = plt . subplots ( figsize = figsize )
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ax . set_title ( f " Beacon at antenna { h5ant . attrs [ ' name ' ] } \n F: { frequency : .2e } , P: { beacon_phase : .4f } , A: { amplitude : .1e } " )
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ax . set_xlabel ( " t [ns] " )
ax . set_ylabel ( " Amplitude " )
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if True :
# let the trace start at t=0
t_0 = min ( t_trace )
extra_phase = corr_phase
else :
t_0 = 0
extra_phase = - 1 * corr_phase
for j , trace in enumerate ( test_traces ) :
ax . plot ( t_trace - t_0 , test_traces [ j ] , marker = ' . ' , label = ' trace ' + orients [ j ] )
myt = np . linspace ( min ( t_trace ) , max ( t_trace ) , 10 * len ( t_trace ) ) - t_0
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ax . plot ( myt , lib . sine_beacon ( frequency , myt , amplitude = amplitude , t0 = 0 , phase = beacon_phase + extra_phase ) , ls = ' dotted ' , label = ' simulated beacon ' )
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ax . axvline ( p2t ( lib . phase_mod ( - 1 * ( beacon_phase + extra_phase ) , low = 0 ) ) , color = ' r ' , ls = ' dashed ' , label = ' $t_ \\ varphi$ ' )
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ax . axvline ( 0 , color = ' grey ' , alpha = 0.5 )
ax . axhline ( 0 , color = ' grey ' , alpha = 0.5 )
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ax . legend ( )
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if fig_dir :
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old_xlims = ax . get_xlim ( )
ax . set_xlim ( min ( t_trace ) - t_0 - 10 , min ( t_trace ) - t_0 + 40 )
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fig . savefig ( path . join ( fig_dir , path . basename ( __file__ ) + f " .A { h5ant . attrs [ ' name ' ] } .zoomed.pdf " ) )
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ax . set_xlim ( * old_xlims )
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fig . savefig ( path . join ( fig_dir , path . basename ( __file__ ) + f " .A { h5ant . attrs [ ' name ' ] } .pdf " ) )
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# save to file
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h5beacon_info = h5ant . require_group ( ' beacon_info ' )
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# only take n_sig significant digits into account
# for naming in hdf5 file
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n_sig = 3
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decimal = int ( np . floor ( np . log10 ( abs ( frequency ) ) ) )
freq_name = str ( np . around ( frequency , n_sig - decimal ) )
# delete previous values
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if freq_name in h5beacon_info :
del h5beacon_info [ freq_name ]
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h5beacon_freq_info = h5beacon_info . create_group ( freq_name )
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h5attrs = h5beacon_freq_info . attrs
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h5attrs [ ' freq ' ] = frequency
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h5attrs [ ' beacon_phase ' ] = beacon_phase
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h5attrs [ ' amplitude ' ] = amplitude
h5attrs [ ' orientation ' ] = orientation
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print ( " Beacon Phases, Amplitudes and Frequencies written to " , antennas_fname )
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# show histogram of found frequencies
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if show_plots or fig_dir :
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if True or allow_frequency_fitting :
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fig , ax = plt . subplots ( figsize = figsize )
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ax . set_xlabel ( " Frequency " )
ax . set_ylabel ( " Counts " )
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ax . axvline ( f_beacon , ls = ' dashed ' , color = ' g ' )
ax . hist ( found_data [ : , 0 ] , bins = ' sqrt ' , density = False )
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if fig_dir :
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fig . savefig ( path . join ( fig_dir , path . basename ( __file__ ) + f " .hist_freq.pdf " ) )
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if True :
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fig , ax = plt . subplots ( figsize = figsize )
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ax . set_xlabel ( " Amplitudes " )
ax . set_ylabel ( " Counts " )
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ax . hist ( found_data [ : , 2 ] , bins = ' sqrt ' , density = False )
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if fig_dir :
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fig . savefig ( path . join ( fig_dir , path . basename ( __file__ ) + f " .hist_amp.pdf " ) )
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if show_plots :
plt . show ( )