561 lines
28 KiB
Python
Executable File
561 lines
28 KiB
Python
Executable File
#!/usr/bin/python
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# -*- coding: utf-8 -*-
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from __future__ import print_function
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import argparse
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import datetime
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import glob
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import os
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import pylot.core.loc.focmec as focmec
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import pylot.core.loc.hash as hash
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import pylot.core.loc.hypo71 as hypo71
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import pylot.core.loc.hypodd as hypodd
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import pylot.core.loc.hyposat as hyposat
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import pylot.core.loc.nll as nll
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import pylot.core.loc.velest as velest
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from obspy import read_events
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from obspy.core.event import ResourceIdentifier
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# from PySide.QtGui import QWidget, QInputDialog
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from pylot.core.analysis.magnitude import MomentMagnitude, LocalMagnitude
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from pylot.core.io.data import Data
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from pylot.core.io.inputs import PylotParameter
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from pylot.core.pick.autopick import autopickevent, iteratepicker
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from pylot.core.util.dataprocessing import restitute_data, read_metadata, Metadata
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from pylot.core.util.defaults import SEPARATOR
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from pylot.core.util.event import Event
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from pylot.core.util.structure import DATASTRUCTURE
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from pylot.core.util.utils import real_None, remove_underscores, trim_station_components, check4gaps, check4doubled, \
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check4rotated
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from pylot.core.util.version import get_git_version as _getVersionString
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__version__ = _getVersionString()
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def autoPyLoT(input_dict=None, parameter=None, inputfile=None, fnames=None, eventid=None, savepath=None,
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savexml=True, station='all', iplot=0, ncores=0, obspyDMT_wfpath=False):
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"""
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Determine phase onsets automatically utilizing the automatic picking
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algorithms by Kueperkoch et al. 2010/2012.
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:param input_dict:
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:type input_dict:
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:param parameter: PylotParameter object containing parameters used for automatic picking
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:type parameter: pylot.core.io.inputs.PylotParameter
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:param inputfile: path to the input file containing all parameter information for automatic picking
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(for formatting details, see. `~pylot.core.io.inputs.PylotParameter`
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:type inputfile: str
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:param fnames: list of data file names or None when called from GUI
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:type fnames: str
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:param eventid: event path incl. event ID (path to waveform files)
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:type eventid: str
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:param savepath: save path for autoPyLoT output, if None/"None" output will be saved in event folder
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:type savepath: str
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:param savexml: export results in XML file if True
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:type savexml: bool
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:param station: list of station names or 'all' to pick all stations
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:type station: str
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:param iplot: logical variable for plotting: 0=none, 1=partial, 2=all
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:type iplot: int
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:param ncores: number of cores used for parallel processing. Default (0) uses all available cores
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:type ncores: int
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:return: dictionary containing picks
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:rtype: dict
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"""
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if ncores == 1:
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sp_info = 'autoPyLoT is running serial on 1 cores.'
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else:
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if ncores == 0:
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ncores_readable = 'all available'
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else:
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ncores_readable = ncores
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sp_info = 'autoPyLoT is running in parallel on {} cores.'.format(ncores_readable)
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splash = '''************************************\n
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*********autoPyLoT starting*********\n
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The Python picking and Location Tool\n
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Version {version} 2017\n
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\n
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Authors:\n
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L. Kueperkoch (BESTEC GmbH, Landau i. d. Pfalz)\n
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M. Paffrath (Ruhr-Universitaet Bochum)\n
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S. Wehling-Benatelli (Ruhr-Universitaet Bochum)\n
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{sp}
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***********************************'''.format(version=_getVersionString(),
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sp=sp_info)
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print(splash)
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parameter = real_None(parameter)
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inputfile = real_None(inputfile)
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eventid = real_None(eventid)
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fig_dict = None
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fig_dict_wadatijack = None
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if input_dict and isinstance(input_dict, dict):
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if 'parameter' in input_dict:
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parameter = input_dict['parameter']
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if 'fig_dict' in input_dict:
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fig_dict = input_dict['fig_dict']
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if 'fig_dict_wadatijack' in input_dict:
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fig_dict_wadatijack = input_dict['fig_dict_wadatijack']
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if 'station' in input_dict:
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station = input_dict['station']
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if 'fnames' in input_dict:
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fnames = input_dict['fnames']
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if 'eventid' in input_dict:
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eventid = input_dict['eventid']
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if 'iplot' in input_dict:
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iplot = input_dict['iplot']
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if 'savexml' in input_dict:
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savexml = input_dict['savexml']
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if 'obspyDMT_wfpath' in input_dict:
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obspyDMT_wfpath = input_dict['obspyDMT_wfpath']
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if not parameter:
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if inputfile:
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parameter = PylotParameter(inputfile)
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#iplot = parameter['iplot']
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else:
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infile = os.path.join(os.path.expanduser('~'), '.pylot', 'pylot.in')
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print('Using default input file {}'.format(infile))
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parameter = PylotParameter(infile)
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else:
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if not type(parameter) == PylotParameter:
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print('Wrong input type for parameter: {}'.format(type(parameter)))
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return
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if inputfile:
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print('Parameters set and input file given. Choose either of both.')
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return
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evt = None
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# reading parameter file
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if parameter.hasParam('datastructure'):
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# getting information on data structure
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datastructure = DATASTRUCTURE[parameter.get('datastructure')]()
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dsfields = {'root': parameter.get('rootpath'),
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'dpath': parameter.get('datapath'),
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'dbase': parameter.get('database')}
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exf = ['root', 'dpath', 'dbase']
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if parameter['eventID'] is not '*' and fnames == 'None':
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dsfields['eventID'] = parameter['eventID']
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exf.append('eventID')
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datastructure.modifyFields(**dsfields)
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datastructure.setExpandFields(exf)
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# check if default location routine NLLoc is available
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if real_None(parameter['nllocbin']):
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locflag = 1
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# get NLLoc-root path
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nllocroot = parameter.get('nllocroot')
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# get path to NLLoc executable
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nllocbin = parameter.get('nllocbin')
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nlloccall = '%s/NLLoc' % nllocbin
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# get name of phase file
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phasef = parameter.get('phasefile')
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phasefile = '%s/obs/%s' % (nllocroot, phasef)
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# get name of NLLoc-control file
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ctrf = parameter.get('ctrfile')
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ctrfile = '%s/run/%s' % (nllocroot, ctrf)
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# pattern of NLLoc ttimes from location grid
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ttpat = parameter.get('ttpatter')
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# pattern of NLLoc-output file
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nllocoutpatter = parameter.get('outpatter')
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maxnumit = 2 # maximum number of iterations for re-picking
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else:
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locflag = 0
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print(" !!! ")
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print("!!No location routine available, autoPyLoT is running in non-location mode!!")
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print("!!No source parameter estimation possible!!")
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print(" !!! ")
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wfpath_extension = ''
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if obspyDMT_wfpath not in [None, False, 'False', '']:
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wfpath_extension = obspyDMT_wfpath
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print('Using obspyDMT structure. There will be no restitution, as pre-processed data are expected.')
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if wfpath_extension != 'processed':
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print('WARNING: Expecting wfpath_extension to be "processed" for'
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' pre-processed data but received "{}" instead!!!'.format(wfpath_extension))
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if not input_dict:
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# started in production mode
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datapath = datastructure.expandDataPath()
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if fnames == 'None' and parameter['eventID'] is '*':
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# multiple event processing
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# read each event in database
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events = [events for events in glob.glob(os.path.join(datapath, '*')) if os.path.isdir(events)]
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elif fnames == 'None' and parameter['eventID'] is not '*' and not type(parameter['eventID']) == list:
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# single event processing
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events = glob.glob(os.path.join(datapath, parameter['eventID']))
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elif fnames == 'None' and type(parameter['eventID']) == list:
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# multiple event processing
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events = []
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for eventID in parameter['eventID']:
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events.append(os.path.join(datapath, eventID))
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else:
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# autoPyLoT was initialized from GUI
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events = []
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events.append(eventid)
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evID = os.path.split(eventid)[-1]
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locflag = 2
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else:
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# started in tune or interactive mode
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datapath = os.path.join(parameter['rootpath'],
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parameter['datapath'])
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events = []
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for eventID in eventid:
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events.append(os.path.join(datapath,
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parameter['database'],
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eventID))
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if not events:
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print('autoPyLoT: No events given. Return!')
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return
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# transform system path separator to '/'
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for index, eventpath in enumerate(events):
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eventpath = eventpath.replace(SEPARATOR, '/')
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events[index] = eventpath
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allpicks = {}
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glocflag = locflag
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for eventpath in events:
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evID = os.path.split(eventpath)[-1]
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event_datapath = os.path.join(eventpath, wfpath_extension)
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fext = '.xml'
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filename = os.path.join(eventpath, 'PyLoT_' + evID + fext)
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try:
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data = Data(evtdata=filename)
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data.get_evt_data().path = eventpath
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print('Reading event data from filename {}...'.format(filename))
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except Exception as e:
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print('Could not read event from file {}: {}'.format(filename, e))
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data = Data()
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pylot_event = Event(eventpath) # event should be path to event directory
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data.setEvtData(pylot_event)
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if fnames == 'None':
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data.setWFData(glob.glob(os.path.join(datapath, event_datapath, '*')))
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# the following is necessary because within
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# multiple event processing no event ID is provided
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# in autopylot.in
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try:
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parameter.get('eventID')
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except Exception:
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now = datetime.datetime.now()
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eventID = '%d%02d%02d%02d%02d' % (now.year,
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now.month,
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now.day,
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now.hour,
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now.minute)
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parameter.setParam(eventID=eventID)
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else:
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data.setWFData(fnames)
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eventpath = events[0]
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# now = datetime.datetime.now()
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# evID = '%d%02d%02d%02d%02d' % (now.year,
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# now.month,
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# now.day,
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# now.hour,
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# now.minute)
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parameter.setParam(eventID=eventid)
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wfdat = data.getWFData() # all available streams
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if not station == 'all':
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wfdat = wfdat.select(station=station)
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if not wfdat:
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print('Could not find station {}. STOP!'.format(station))
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return
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wfdat = remove_underscores(wfdat)
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# trim components for each station to avoid problems with different trace starttimes for one station
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wfdat = check4gaps(wfdat)
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wfdat = check4doubled(wfdat)
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wfdat = trim_station_components(wfdat, trim_start=True, trim_end=False)
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if not wfpath_extension:
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metadata = Metadata(parameter.get('invdir'))
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else:
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metadata = Metadata(os.path.join(eventpath, 'resp'))
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# metadata = read_metadata(parameter.get('invdir'))
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# TODO: (idea) read metadata from obspy_dmt database
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# if not wfpath_extension:
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# metadata = read_metadata(parameter.get('invdir'))
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# else:
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# metadata = None
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corr_dat = None
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if metadata:
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# rotate stations to ZNE
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#wfdat = check4rotated(wfdat, metadata) # MP MP TEMPORARILY DISABLED !!!!!!!!!!!
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if locflag:
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print("Restitute data ...")
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corr_dat = restitute_data(wfdat.copy(), metadata, ncores=ncores)
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if not corr_dat and locflag:
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locflag = 2
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print('Working on event %s. Stations: %s' % (eventpath, station))
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print(wfdat)
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##########################################################
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# !automated picking starts here!
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fdwj = None
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if fig_dict_wadatijack:
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fdwj = fig_dict_wadatijack[evID]
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picks = autopickevent(wfdat, parameter, iplot=iplot, fig_dict=fig_dict,
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fig_dict_wadatijack=fdwj,
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ncores=ncores, metadata=metadata, origin=data.get_evt_data().origins)
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##########################################################
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# locating
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if locflag > 0:
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# write phases to NLLoc-phase file
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nll.export(picks, phasefile, parameter)
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# For locating the event the NLLoc-control file has to be modified!
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nllocout = '%s_%s' % (evID, nllocoutpatter)
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# create comment line for NLLoc-control file
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nll.modify_inputs(ctrf, nllocroot, nllocout, phasef,
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ttpat)
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# locate the event
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nll.locate(ctrfile, parameter)
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# !iterative picking if traces remained unpicked or occupied with bad picks!
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# get theoretical onset times for picks with weights >= 4
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# in order to reprocess them using smaller time windows around theoretical onset
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# get stations with bad onsets
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badpicks = []
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for key in picks:
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if picks[key]['P']['weight'] >= 4 or picks[key]['S']['weight'] >= 4:
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badpicks.append([key, picks[key]['P']['mpp']])
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# TODO keep code DRY (Don't Repeat Yourself) the following part is written twice
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# suggestion: delete block and modify the later similar block to work properly
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if len(badpicks) == 0:
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print("autoPyLoT: No bad onsets found, thus no iterative picking necessary!")
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# get NLLoc-location file
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locsearch = '%s/loc/%s.????????.??????.grid?.loc.hyp' % (nllocroot, nllocout)
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if len(glob.glob(locsearch)) > 0:
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# get latest NLLoc-location file if several are available
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nllocfile = max(glob.glob(locsearch), key=os.path.getctime)
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evt = read_events(nllocfile)[0]
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# calculate seismic moment Mo and moment magnitude Mw
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moment_mag = MomentMagnitude(corr_dat, evt, parameter.get('vp'),
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parameter.get('Qp'),
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parameter.get('rho'), True,
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iplot)
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# update pick with moment property values (w0, fc, Mo)
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for stats, props in moment_mag.moment_props.items():
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picks[stats]['P'].update(props)
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evt = moment_mag.updated_event()
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net_mw = moment_mag.net_magnitude()
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if net_mw is not None:
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print("Network moment magnitude: %4.1f" % net_mw.mag)
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# calculate local (Richter) magntiude
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WAscaling = parameter.get('WAscaling')
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magscaling = parameter.get('magscaling')
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local_mag = LocalMagnitude(corr_dat, evt,
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parameter.get('sstop'),
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WAscaling, True, iplot)
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# update pick with local magnitude property values
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for stats, amplitude in local_mag.amplitudes.items():
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picks[stats]['S']['Ao'] = amplitude.generic_amplitude
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print("Local station magnitudes scaled with:")
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print("log(Ao) + %f * log(r) + %f * r + %f" % (WAscaling[0],
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WAscaling[1],
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WAscaling[2]))
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evt = local_mag.updated_event(magscaling)
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net_ml = local_mag.net_magnitude(magscaling)
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if net_ml:
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print("Network local magnitude: %4.1f" % net_ml.mag)
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if magscaling == None:
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scaling = False
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elif magscaling[0] != 0 and magscaling[1] != 0:
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scaling = False
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else:
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scaling = True
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if scaling:
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print("Network local magnitude scaled with:")
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print("%f * Ml + %f" % (magscaling[0], magscaling[1]))
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else:
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print("autoPyLoT: No NLLoc-location file available!")
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print("No source parameter estimation possible!")
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locflag = 9
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else:
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# get theoretical P-onset times from NLLoc-location file
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locsearch = '%s/loc/%s.????????.??????.grid?.loc.hyp' % (nllocroot, nllocout)
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if len(glob.glob(locsearch)) > 0:
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# get latest file if several are available
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nllocfile = max(glob.glob(locsearch), key=os.path.getctime)
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nlloccounter = 0
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while len(badpicks) > 0 and nlloccounter <= maxnumit:
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nlloccounter += 1
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if nlloccounter > maxnumit:
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print("autoPyLoT: Number of maximum iterations reached, stop iterative picking!")
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break
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print("autoPyLoT: Starting with iteration No. %d ..." % nlloccounter)
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if input_dict:
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if 'fig_dict' in input_dict:
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fig_dict = input_dict['fig_dict']
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picks = iteratepicker(wfdat, nllocfile, picks, badpicks, parameter,
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fig_dict=fig_dict)
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else:
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picks = iteratepicker(wfdat, nllocfile, picks, badpicks, parameter)
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# write phases to NLLoc-phase file
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nll.export(picks, phasefile, parameter)
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# remove actual NLLoc-location file to keep only the last
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os.remove(nllocfile)
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# locate the event
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nll.locate(ctrfile, parameter)
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print("autoPyLoT: Iteration No. %d finished." % nlloccounter)
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# get updated NLLoc-location file
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nllocfile = max(glob.glob(locsearch), key=os.path.getctime)
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# check for bad picks
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badpicks = []
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for key in picks:
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if picks[key]['P']['weight'] >= 4 or picks[key]['S']['weight'] >= 4:
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badpicks.append([key, picks[key]['P']['mpp']])
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print("autoPyLoT: After iteration No. %d: %d bad onsets found ..." % (nlloccounter,
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len(badpicks)))
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if len(badpicks) == 0:
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print("autoPyLoT: No more bad onsets found, stop iterative picking!")
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nlloccounter = maxnumit
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evt = read_events(nllocfile)[0]
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if locflag < 2:
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# calculate seismic moment Mo and moment magnitude Mw
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moment_mag = MomentMagnitude(corr_dat, evt, parameter.get('vp'),
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parameter.get('Qp'),
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parameter.get('rho'), True,
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iplot)
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# update pick with moment property values (w0, fc, Mo)
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for stats, props in moment_mag.moment_props.items():
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if stats in picks:
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picks[stats]['P'].update(props)
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evt = moment_mag.updated_event()
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net_mw = moment_mag.net_magnitude()
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if net_mw is not None:
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print("Network moment magnitude: %4.1f" % net_mw.mag)
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# calculate local (Richter) magntiude
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WAscaling = parameter.get('WAscaling')
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magscaling = parameter.get('magscaling')
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local_mag = LocalMagnitude(corr_dat, evt,
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parameter.get('sstop'),
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WAscaling, True, iplot)
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# update pick with local magnitude property values
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for stats, amplitude in local_mag.amplitudes.items():
|
|
if stats in picks:
|
|
picks[stats]['S']['Ao'] = amplitude.generic_amplitude
|
|
print("Local station magnitudes scaled with:")
|
|
print("log(Ao) + %f * log(r) + %f * r + %f" % (WAscaling[0],
|
|
WAscaling[1],
|
|
WAscaling[2]))
|
|
evt = local_mag.updated_event(magscaling)
|
|
net_ml = local_mag.net_magnitude(magscaling)
|
|
if net_ml:
|
|
print("Network local magnitude: %4.1f" % net_ml.mag)
|
|
if magscaling == None:
|
|
scaling = False
|
|
elif magscaling[0] != 0 and magscaling[1] != 0:
|
|
scaling = False
|
|
else:
|
|
scaling = True
|
|
if scaling:
|
|
print("Network local magnitude scaled with:")
|
|
print("%f * Ml + %f" % (magscaling[0], magscaling[1]))
|
|
else:
|
|
print("autoPyLoT: No NLLoc-location file available! Stop iteration!")
|
|
locflag = 9
|
|
##########################################################
|
|
# write phase files for various location
|
|
# and fault mechanism calculation routines
|
|
# ObsPy event object
|
|
if evt is not None:
|
|
event_id = eventpath.split('/')[-1]
|
|
evt.resource_id = ResourceIdentifier('smi:local/' + event_id)
|
|
data.applyEVTData(evt, 'event')
|
|
data.applyEVTData(picks)
|
|
if savexml:
|
|
if savepath == 'None' or savepath is None:
|
|
saveEvtPath = eventpath
|
|
else:
|
|
saveEvtPath = savepath
|
|
fnqml = '%s/PyLoT_%s' % (saveEvtPath, evID)
|
|
data.exportEvent(fnqml, fnext='.xml', fcheck=['auto', 'magnitude', 'origin'])
|
|
if locflag == 1:
|
|
# HYPO71
|
|
hypo71file = '%s/PyLoT_%s_HYPO71_phases' % (eventpath, evID)
|
|
hypo71.export(picks, hypo71file, parameter)
|
|
# HYPOSAT
|
|
hyposatfile = '%s/PyLoT_%s_HYPOSAT_phases' % (eventpath, evID)
|
|
hyposat.export(picks, hyposatfile, parameter)
|
|
# VELEST
|
|
velestfile = '%s/PyLoT_%s_VELEST_phases.cnv' % (eventpath, evID)
|
|
velest.export(picks, velestfile, evt, parameter)
|
|
# hypoDD
|
|
hypoddfile = '%s/PyLoT_%s_hypoDD_phases.pha' % (eventpath, evID)
|
|
hypodd.export(picks, hypoddfile, parameter, evt)
|
|
# FOCMEC
|
|
focmecfile = '%s/PyLoT_%s_FOCMEC.in' % (eventpath, evID)
|
|
focmec.export(picks, focmecfile, parameter, evt)
|
|
# HASH
|
|
hashfile = '%s/PyLoT_%s_HASH' % (eventpath, evID)
|
|
hash.export(picks, hashfile, parameter, evt)
|
|
|
|
endsplash = '''------------------------------------------\n'
|
|
-----Finished event %s!-----\n'
|
|
------------------------------------------'''.format \
|
|
(version=_getVersionString()) % evID
|
|
print(endsplash)
|
|
locflag = glocflag
|
|
if locflag == 0:
|
|
print("autoPyLoT was running in non-location mode!")
|
|
|
|
# save picks for current event ID to dictionary with ALL picks
|
|
allpicks[evID] = picks
|
|
|
|
endsp = '''####################################\n
|
|
************************************\n
|
|
*********autoPyLoT terminates*******\n
|
|
The Python picking and Location Tool\n
|
|
************************************'''.format(version=_getVersionString())
|
|
print(endsp)
|
|
return allpicks
|
|
|
|
|
|
if __name__ == "__main__":
|
|
# parse arguments
|
|
parser = argparse.ArgumentParser(
|
|
description='''autoPyLoT automatically picks phase onset times using higher order statistics,
|
|
autoregressive prediction and AIC followed by locating the seismic events using
|
|
NLLoc''')
|
|
|
|
parser.add_argument('-i', '-I', '--inputfile', type=str,
|
|
action='store',
|
|
help='''full path to the file containing the input
|
|
parameters for autoPyLoT''')
|
|
parser.add_argument('-p', '-P', '--iplot', type=int,
|
|
action='store', default=0,
|
|
help='''optional, logical variable for plotting: 0=none, 1=partial, 2=all''')
|
|
parser.add_argument('-f', '-F', '--fnames', type=str,
|
|
action='store',
|
|
help='''optional, list of data file names''')
|
|
parser.add_argument('-e', '--eventid', type=str,
|
|
action='store',
|
|
help='''optional, event path incl. event ID''')
|
|
parser.add_argument('-s', '-S', '--spath', type=str,
|
|
action='store',
|
|
help='''optional, save path for autoPyLoT output''')
|
|
parser.add_argument('-c', '-C', '--ncores', type=int,
|
|
action='store', default=0,
|
|
help='''optional, number of CPU cores used for parallel processing (default: all available(=0))''')
|
|
parser.add_argument('-dmt', '-DMT', '--obspy_dmt_wfpath', type=str,
|
|
action='store', default=False,
|
|
help='''optional, wftype (raw, processed) used for obspyDMT database structure''')
|
|
|
|
cla = parser.parse_args()
|
|
|
|
picks = autoPyLoT(inputfile=str(cla.inputfile), fnames=str(cla.fnames),
|
|
eventid=str(cla.eventid), savepath=str(cla.spath),
|
|
ncores=cla.ncores, iplot=int(cla.iplot), obspyDMT_wfpath=str(cla.obspy_dmt_wfpath))
|