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process_blueseis.py
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process_blueseis.py
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#! /usr/bin/env python
"""
"""
import sys, os
import numpy as np
import ctypes
import numpy.ctypeslib as npct
import argparse
from obspy.core import read, Stream, Trace, UTCDateTime
from blueseis_utils import rotate, deramp, deramp_median, deramp_mode, plot_deramp
#"""
#The script can handle day-files (or shorter) in miniseed format.
#
#The output files will be named after miniseed convention: NN.SSSSS.LL.CCC.D.YYYY.DDD.pro (note the suffix .pro!)
#
#The input rotation rate and ramp files have to contain the same time spans.
#
#"""
######################################################################################################################
# This script takes exactly three rotation rate files and the corresponding three ramp files as input.
# It rotates the three rotation rate traces into the original blueseis system (by using the required rotation matrix),
# deramps the traces using the ramp traces,
# and rotates the three rotation rate traces back.
#
# The script can handle day-files (or shorter) in miniseed format.
#
# The output files will be named after miniseed convention: NN.SSSSS.LL.CCC.D.YYYY.DDD.pro (note the suffix .pro!)
#
# The input rotation rate and ramp files have to contain the same time spans.
#######################################################################################################################
def check_time_uvw(st_rot_u, st_rot_v, st_rot_w, st_ramp_u, st_ramp_v, st_ramp_w):
for i in range(len(st_rot_u)):
if st_rot_u[i].stats.starttime != st_rot_v[i].stats.starttime\
or st_rot_u[i].stats.starttime != st_rot_w[i].stats.starttime\
or st_rot_w[i].stats.starttime != st_rot_v[i].stats.starttime\
or st_rot_u[i].stats.endtime != st_rot_v[i].stats.endtime\
or st_rot_u[i].stats.endtime != st_rot_w[i].stats.endtime\
or st_rot_w[i].stats.endtime != st_rot_v[i].stats.endtime:
print("Warning: Traces do not have the same start or end time. Traces will be trimmed!")
t0 = max(st_rot_u[i].stats.starttime, st_rot_v[i].stats.starttime, st_rot_w[i].stats.starttime)
t1 = min(st_rot_u[i].stats.endtime, st_rot_v[i].stats.endtime, st_rot_w[i].stats.endtime)
st_rot_u[i].trim(t0, t1)
st_rot_v[i].trim(t0, t1)
st_rot_w[i].trim(t0, t1)
def check_traces(tr_rot, tr_ramp, i, n_samp):
tr = Trace(header=tr_rot.stats)
# check start times and channels
if tr_rot.stats.starttime != tr_ramp.stats.starttime or tr_rot.stats.endtime != tr_ramp.stats.endtime:
t1 = max(tr_rot.stats.starttime, tr_ramp.stats.starttime)
t2 = min(tr_rot.stats.endtime, tr_ramp.stats.endtime)
print("Warning: Rotation rate and ramp data for trace "+str(i)+" of channel "+tr_rot.stats.channel+" do not have same time stamps!")
tr_rot.trim(t1, t2)
tr_ramp.trim(t1, t2)
if tr_rot.stats.channel[-1] != tr_ramp.stats.channel[-1]:
print("ERROR: Rotation rate and ramp data for trace "+str(i)+" do not have same channel id")
sys.exit(1)
# handle traces with different length
if len(tr_rot.data) != len(tr_ramp.data):
n_max = min(len(tr_rot.data), len(tr_ramp.data))
else:
n_max = len(tr_rot.data)
start = 0
stop = n_samp
if stop > n_max:
stop = n_max
return tr, start, stop, n_max
def create_outfile(st_in, out_folder, method, suff, overwrite):
net = st_in[0].stats.network
sta = st_in[0].stats.station
loc = st_in[0].stats.location
cha = st_in[0].stats.channel
dq = 'D'
yyyy = str(st_in[0].stats.starttime.year)
ddd = str(st_in[0].stats.starttime.julday).zfill(3)
if not suff == '':
fname = net+'.'+sta+'.'+loc+'.'+cha+'.'+dq+'.'+yyyy+'.'+ddd+'.pro_'+method+'.'+suff
else:
fname = net+'.'+sta+'.'+loc+'.'+cha+'.'+dq+'.'+yyyy+'.'+ddd+'.pro_'+method
outfname = out_folder+fname
# check if out file exists
if os.path.isfile(outfname) and overwrite == 0:
print('ERROR: file '+outfname+' already exists!')
sys.exit(1)
if os.path.isfile(outfname) and overwrite == 1:
print('Warning: file '+outfname+' will be overwritten!')
# outfnames.append(outfname)
return open(outfname, 'wb')
def get_samples(tr1, tr2, start, stop):
if len(tr1) <= stop or len(tr2) <= stop:
GoOn = False
else:
GoOn = True
data1 = tr1.data[start:stop]
data2 = tr2.data[start:stop]
return data1, data2, GoOn
def process_data(infnames_rot, infnames_ramp, out_folder, n_samp, overwrite, navg, matrix_file, method, suff, plot_flagg):
# check if output directory exists. If not, create it.
if not out_folder.endswith('/'):
out_folder = out_folder+'/'
if not os.path.exists(out_folder):
os.makedirs(out_folder)
# check list of input files
if len(infnames_rot) != 3 and len(infnames_ramp) != 3:
print("ERROR: You must process at least three input channels!")
sys.exit(1)
# read input files
st_rot = Stream()
st_ramp = Stream()
for infname_rot in infnames_rot:
st_rot += read(infname_rot)
for infname_ramp in infnames_ramp:
st_ramp += read(infname_ramp)
st_rot_u = st_rot.select(channel='HJ1')
out_file_u = create_outfile(st_rot_u, out_folder, method, suff, overwrite)
st_rot_v = st_rot.select(channel='HJ2')
out_file_v = create_outfile(st_rot_v, out_folder, method, suff, overwrite)
st_rot_w = st_rot.select(channel='HJ3')
out_file_w = create_outfile(st_rot_w, out_folder, method, suff, overwrite)
st_ramp_u = st_ramp.select(channel='YR1')
st_ramp_v = st_ramp.select(channel='YR2')
st_ramp_w = st_ramp.select(channel='YR3')
# read rotation matrix file
M = np.loadtxt(matrix_file, skiprows=1)
# check start and end times of u, v, w:
check_time_uvw(st_rot_u, st_rot_v, st_rot_w, st_ramp_u, st_ramp_v, st_ramp_w)
# loop over traces
for i in range(len(st_rot_u)):
GoOn = True
tr_u, start_u, stop_u, n_max_u = check_traces(st_rot_u[i], st_ramp_u[i], i, n_samp)
tr_v, start_v, stop_v, n_max_v = check_traces(st_rot_v[i], st_ramp_v[i], i, n_samp)
tr_w, start_w, stop_w, n_max_w = check_traces(st_rot_w[i], st_ramp_w[i], i, n_samp)
print(st_rot_u[i])
print(st_ramp_u[i])
print(st_rot_v[i])
print(st_ramp_v[i])
print(st_rot_w[i])
print(st_ramp_w[i])
print('')
print('processing trace '+str(i+1)+' of '+str(len(st_rot_u)))
while GoOn:
# get data
sys.stdout.write('U: start: %10i | stop: %10i | total %15i\r\n' %(start_u, stop_u, n_max_u))
sys.stdout.write('V: start: %10i | stop: %10i | total %15i\r\n' %(start_v, stop_v, n_max_v))
sys.stdout.write('W: start: %10i | stop: %10i | total %15i\r\n' %(start_w, stop_u, n_max_w))
sys.stdout.flush()
fu, ru, GoOn = get_samples(st_rot_u[i], st_ramp_u[i], start_u, stop_u)
fv, rv, GoOn = get_samples(st_rot_v[i], st_ramp_v[i], start_v, stop_v)
fw, rw, GoOn = get_samples(st_rot_w[i], st_ramp_w[i], start_w, stop_w)
start_u = stop_u
stop_u += n_samp
if stop_u > n_max_u:
stop_u = n_max_u
start_v = stop_v
stop_v += n_samp
if stop_v > n_max_v:
stop_v = n_max_v
start_w = stop_w
stop_w += n_samp
if stop_w > n_max_w:
stop_w = n_max_w
#######################################################
sys.stdout.write('rotating ...\r\n')
fx, fy, fz = rotate(fu, fv, fw, M, True)
fog = [fx, fy, fz]
ramp = [ru, rv, rw]
sys.stdout.write('deramping ...\r\n')
if method == 'mean':
f_corr, x, ramp_sort, fog_sort, mean = deramp(fog, ramp, navg, plot_flagg)
if method == 'median':
f_corr, x, ramp_sort, fog_sort, mean = deramp_median(fog, ramp, navg, plot_flagg)
if method == 'mode':
f_corr, x, ramp_sort, fog_sort, mean = deramp_mode(fog, ramp, navg, plot_flagg)
sys.stdout.write('rotating back again ...\r\n')
fu_corr, fv_corr, fw_corr = rotate(f_corr[0], f_corr[1], f_corr[2], M, False)
#######################################################
if plot_flagg:
plot_deramp(fog, ramp, f_corr, x, ramp_sort, fog_sort, mean)
tr_u.data = np.append(tr_u.data, fu_corr)
tr_v.data = np.append(tr_v.data, fv_corr)
tr_w.data = np.append(tr_w.data, fw_corr)
# write processed data
out_file_u.seek(0, 2)
tr_u.write(out_file_u, format='mseed', reclen=512, encoding='FLOAT64')
out_file_u.flush()
out_file_v.seek(0, 2)
tr_v.write(out_file_v, format='mseed', reclen=512, encoding='FLOAT64')
out_file_v.flush()
out_file_w.seek(0, 2)
tr_w.write(out_file_w, format='mseed', reclen=512, encoding='FLOAT64')
out_file_w.flush()
print('')
out_file_u.flush()
out_file_u.close()
out_file_v.flush()
out_file_v.close()
out_file_w.flush()
out_file_w.close()
def main():
parser = argparse.ArgumentParser(description=__doc__, prog='process_bs.py')
parser.add_argument('-F', metavar='', type=str, nargs=3, required=True,
default='', dest='fogfiles', help='three files containing raw rotation rates, in minseed')
parser.add_argument('-R', metavar='', type=str, nargs=3, required=True,
default=5, dest='rampfiles', help='three files containing ramp data, in minseed')
parser.add_argument('-O', metavar='', type=str,
default='./', dest='outfolder', help='output directory')
parser.add_argument('-l', metavar='', type=int,
default=75000, dest='nsamp', help='[int] length of window to be processed, in samples')
parser.add_argument('-o', default=False,
action='store_true', dest='ow', help='if "-o" option is set, existing output file will be over written')
parser.add_argument('-m', metavar='', type=int,
default=100, dest='navg', help='[int] length of moving average window, in samples')
parser.add_argument('-M', metavar='', type=str, required=True,
default='', dest='matrixfile', help='file containing BlueSeis rotation matrix')
parser.add_argument('-a', metavar='', type=str, required=True,
default='', dest='method', help='specify method: "mean", "median" or "mode"')
parser.add_argument('-s', metavar='', type=str, required=False,
default='', dest='suff', help='specify any suffix to the out put file name.')
parser.add_argument('-p', metavar='', type=int, required=False,
default=0, dest='plot', help='[0 or 1]: results will be plotted or not.')
args = parser.parse_args()
rotfnames = args.fogfiles
rampfnames = args.rampfiles
out_folder = args.outfolder
n_samp = args.nsamp
if args.ow:
ow = 1
if not args.ow:
ow = 0
n_avg = args.navg
matrix_file = args.matrixfile
method = args.method
suff = args.suff
plot_flagg = args.plot
process_data(rotfnames, rampfnames, out_folder, n_samp, ow, n_avg, matrix_file, method, suff, plot_flagg)
if __name__ == "__main__":
main()