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8 changed files with 269 additions and 203 deletions

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@ -72,11 +72,11 @@ from pylot.core.util.errors import DatastructureError, \
OverwriteError OverwriteError
from pylot.core.util.connection import checkurl from pylot.core.util.connection import checkurl
from pylot.core.util.dataprocessing import Metadata, restitute_data from pylot.core.util.dataprocessing import Metadata, restitute_data
from pylot.core.util.utils import fnConstructor, getLogin, \ from pylot.core.util.utils import fnConstructor, get_login, \
full_range, readFilterInformation, pick_color_plt, \ full_range, readFilterInformation, pick_color_plt, \
pick_linestyle_plt, identifyPhaseID, excludeQualityClasses, \ pick_linestyle_plt, identifyPhaseID, excludeQualityClasses, \
transform_colors_mpl, transform_colors_mpl_str, getAutoFilteroptions, check_all_obspy, \ transform_colors_mpl, transform_colors_mpl_str, getAutoFilteroptions, check_all_obspy, \
check_all_pylot, get_bool, get_None, get_pylot_eventfile_with_extension check_all_pylot, get_bool, get_none, get_pylot_eventfile_with_extension
from pylot.core.util.gui import make_pen from pylot.core.util.gui import make_pen
from pylot.core.util.event import Event from pylot.core.util.event import Event
from pylot.core.io.location import create_creation_info, create_event from pylot.core.io.location import create_creation_info, create_event
@ -196,7 +196,7 @@ class MainWindow(QMainWindow):
if settings.value("user/FullName", None) is None: if settings.value("user/FullName", None) is None:
fulluser = QInputDialog.getText(self, "Enter Name:", "Full name") fulluser = QInputDialog.getText(self, "Enter Name:", "Full name")
settings.setValue("user/FullName", fulluser) settings.setValue("user/FullName", fulluser)
settings.setValue("user/Login", getLogin()) settings.setValue("user/Login", get_login())
if settings.value("agency_id", None) is None: if settings.value("agency_id", None) is None:
agency = QInputDialog.getText(self, agency = QInputDialog.getText(self,
"Enter authority/institution name:", "Enter authority/institution name:",
@ -1990,8 +1990,8 @@ class MainWindow(QMainWindow):
if len(curr_event.origins) > 0: if len(curr_event.origins) > 0:
origin_time = curr_event.origins[0].time origin_time = curr_event.origins[0].time
tstart = settings.value('tstart') if get_None(settings.value('tstart')) else 0 tstart = settings.value('tstart') if get_none(settings.value('tstart')) else 0
tstop = settings.value('tstop') if get_None(settings.value('tstop')) else 0 tstop = settings.value('tstop') if get_none(settings.value('tstop')) else 0
tstart = origin_time + float(tstart) tstart = origin_time + float(tstart)
tstop = origin_time + float(tstop) tstop = origin_time + float(tstop)
else: else:
@ -2306,7 +2306,7 @@ class MainWindow(QMainWindow):
# wfst += self.get_data().getWFData().select(component=alter_comp) # wfst += self.get_data().getWFData().select(component=alter_comp)
plotWidget = self.getPlotWidget() plotWidget = self.getPlotWidget()
self.adjustPlotHeight() self.adjustPlotHeight()
if get_bool(settings.value('large_dataset')): if get_bool(settings.value('large_dataset')) == True:
self.plot_method = 'fast' self.plot_method = 'fast'
else: else:
self.plot_method = 'normal' self.plot_method = 'normal'

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@ -28,7 +28,7 @@ from pylot.core.util.dataprocessing import restitute_data, Metadata
from pylot.core.util.defaults import SEPARATOR from pylot.core.util.defaults import SEPARATOR
from pylot.core.util.event import Event from pylot.core.util.event import Event
from pylot.core.util.structure import DATASTRUCTURE from pylot.core.util.structure import DATASTRUCTURE
from pylot.core.util.utils import get_None, trim_station_components, check4gapsAndRemove, check4doubled, \ from pylot.core.util.utils import get_none, trim_station_components, check4gapsAndRemove, check4doubled, \
check4rotated check4rotated
from pylot.core.util.version import get_git_version as _getVersionString from pylot.core.util.version import get_git_version as _getVersionString
@ -91,9 +91,9 @@ def autoPyLoT(input_dict=None, parameter=None, inputfile=None, fnames=None, even
sp=sp_info) sp=sp_info)
print(splash) print(splash)
parameter = get_None(parameter) parameter = get_none(parameter)
inputfile = get_None(inputfile) inputfile = get_none(inputfile)
eventid = get_None(eventid) eventid = get_none(eventid)
fig_dict = None fig_dict = None
fig_dict_wadatijack = None fig_dict_wadatijack = None
@ -154,7 +154,7 @@ def autoPyLoT(input_dict=None, parameter=None, inputfile=None, fnames=None, even
datastructure.setExpandFields(exf) datastructure.setExpandFields(exf)
# check if default location routine NLLoc is available and all stations are used # check if default location routine NLLoc is available and all stations are used
if get_None(parameter['nllocbin']) and station == 'all': if get_none(parameter['nllocbin']) and station == 'all':
locflag = 1 locflag = 1
# get NLLoc-root path # get NLLoc-root path
nllocroot = parameter.get('nllocroot') nllocroot = parameter.get('nllocroot')

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@ -1,7 +1,7 @@
from obspy import UTCDateTime from obspy import UTCDateTime
from obspy.core import event as ope from obspy.core import event as ope
from pylot.core.util.utils import getLogin, getHash from pylot.core.util.utils import get_login, get_hash
def create_amplitude(pickID, amp, unit, category, cinfo): def create_amplitude(pickID, amp, unit, category, cinfo):
@ -61,7 +61,7 @@ def create_creation_info(agency_id=None, creation_time=None, author=None):
:return: :return:
''' '''
if author is None: if author is None:
author = getLogin() author = get_login()
if creation_time is None: if creation_time is None:
creation_time = UTCDateTime() creation_time = UTCDateTime()
return ope.CreationInfo(agency_id=agency_id, author=author, return ope.CreationInfo(agency_id=agency_id, author=author,
@ -210,7 +210,7 @@ def create_resourceID(timetohash, restype, authority_id=None, hrstr=None):
''' '''
assert isinstance(timetohash, UTCDateTime), "'timetohash' is not an ObsPy" \ assert isinstance(timetohash, UTCDateTime), "'timetohash' is not an ObsPy" \
"UTCDateTime object" "UTCDateTime object"
hid = getHash(timetohash) hid = get_hash(timetohash)
if hrstr is None: if hrstr is None:
resID = ope.ResourceIdentifier(restype + '/' + hid[0:6]) resID = ope.ResourceIdentifier(restype + '/' + hid[0:6])
else: else:

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@ -16,7 +16,7 @@ from pylot.core.io.inputs import PylotParameter
from pylot.core.io.location import create_event, \ from pylot.core.io.location import create_event, \
create_magnitude create_magnitude
from pylot.core.pick.utils import select_for_phase, get_quality_class from pylot.core.pick.utils import select_for_phase, get_quality_class
from pylot.core.util.utils import getOwner, full_range, four_digits, transformFilterString4Export, \ from pylot.core.util.utils import get_owner, full_range, four_digits, transformFilterString4Export, \
backtransformFilterString, loopIdentifyPhase, identifyPhase backtransformFilterString, loopIdentifyPhase, identifyPhase
@ -58,7 +58,7 @@ def readPILOTEvent(phasfn=None, locfn=None, authority_id='RUB', **kwargs):
if phasfn is not None and os.path.isfile(phasfn): if phasfn is not None and os.path.isfile(phasfn):
phases = sio.loadmat(phasfn) phases = sio.loadmat(phasfn)
phasctime = UTCDateTime(os.path.getmtime(phasfn)) phasctime = UTCDateTime(os.path.getmtime(phasfn))
phasauthor = getOwner(phasfn) phasauthor = get_owner(phasfn)
else: else:
phases = None phases = None
phasctime = None phasctime = None
@ -66,7 +66,7 @@ def readPILOTEvent(phasfn=None, locfn=None, authority_id='RUB', **kwargs):
if locfn is not None and os.path.isfile(locfn): if locfn is not None and os.path.isfile(locfn):
loc = sio.loadmat(locfn) loc = sio.loadmat(locfn)
locctime = UTCDateTime(os.path.getmtime(locfn)) locctime = UTCDateTime(os.path.getmtime(locfn))
locauthor = getOwner(locfn) locauthor = get_owner(locfn)
else: else:
loc = None loc = None
locctime = None locctime = None

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@ -22,7 +22,7 @@ from pylot.core.pick.picker import AICPicker, PragPicker
from pylot.core.pick.utils import checksignallength, checkZ4S, earllatepicker, \ from pylot.core.pick.utils import checksignallength, checkZ4S, earllatepicker, \
getSNR, fmpicker, checkPonsets, wadaticheck, get_quality_class, PickingFailedException, MissingTraceException getSNR, fmpicker, checkPonsets, wadaticheck, get_quality_class, PickingFailedException, MissingTraceException
from pylot.core.util.utils import getPatternLine, gen_Pool, \ from pylot.core.util.utils import getPatternLine, gen_Pool, \
get_bool, identifyPhaseID, get_None, correct_iplot get_bool, identifyPhaseID, get_none, correct_iplot
def autopickevent(data, param, iplot=0, fig_dict=None, fig_dict_wadatijack=None, ncores=0, metadata=None, origin=None): def autopickevent(data, param, iplot=0, fig_dict=None, fig_dict_wadatijack=None, ncores=0, metadata=None, origin=None):
@ -258,7 +258,7 @@ class AutopickStation(object):
self.pickparams = copy.deepcopy(pickparam) self.pickparams = copy.deepcopy(pickparam)
self.verbose = verbose self.verbose = verbose
self.iplot = correct_iplot(iplot) self.iplot = correct_iplot(iplot)
self.fig_dict = get_None(fig_dict) self.fig_dict = get_none(fig_dict)
self.metadata = metadata self.metadata = metadata
self.origin = origin self.origin = origin

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@ -15,7 +15,7 @@ import numpy as np
from obspy.core import Stream, UTCDateTime from obspy.core import Stream, UTCDateTime
from scipy.signal import argrelmax from scipy.signal import argrelmax
from pylot.core.util.utils import get_bool, get_None, SetChannelComponents from pylot.core.util.utils import get_bool, get_none, SetChannelComponents
def earllatepicker(X, nfac, TSNR, Pick1, iplot=0, verbosity=1, fig=None, linecolor='k'): def earllatepicker(X, nfac, TSNR, Pick1, iplot=0, verbosity=1, fig=None, linecolor='k'):
@ -136,7 +136,7 @@ def earllatepicker(X, nfac, TSNR, Pick1, iplot=0, verbosity=1, fig=None, linecol
PickError = symmetrize_error(diffti_te, diffti_tl) PickError = symmetrize_error(diffti_te, diffti_tl)
if iplot > 1: if iplot > 1:
if get_None(fig) is None: if get_none(fig) is None:
fig = plt.figure() # iplot) fig = plt.figure() # iplot)
plt_flag = 1 plt_flag = 1
fig._tight = True fig._tight = True
@ -275,7 +275,7 @@ def fmpicker(Xraw, Xfilt, pickwin, Pick, iplot=0, fig=None, linecolor='k'):
try: try:
P1 = np.polyfit(xslope1, xraw[islope1], 1) P1 = np.polyfit(xslope1, xraw[islope1], 1)
datafit1 = np.polyval(P1, xslope1) datafit1 = np.polyval(P1, xslope1)
except Exception as e: except ValueError as e:
print("fmpicker: Problems with data fit! {}".format(e)) print("fmpicker: Problems with data fit! {}".format(e))
print("Skip first motion determination!") print("Skip first motion determination!")
return FM return FM
@ -321,7 +321,7 @@ def fmpicker(Xraw, Xfilt, pickwin, Pick, iplot=0, fig=None, linecolor='k'):
try: try:
P2 = np.polyfit(xslope2, xfilt[islope2], 1) P2 = np.polyfit(xslope2, xfilt[islope2], 1)
datafit2 = np.polyval(P2, xslope2) datafit2 = np.polyval(P2, xslope2)
except Exception as e: except ValueError as e:
emsg = 'fmpicker: polyfit failed: {}'.format(e) emsg = 'fmpicker: polyfit failed: {}'.format(e)
print(emsg) print(emsg)
return FM return FM
@ -344,7 +344,7 @@ def fmpicker(Xraw, Xfilt, pickwin, Pick, iplot=0, fig=None, linecolor='k'):
print("fmpicker: Found polarity %s" % FM) print("fmpicker: Found polarity %s" % FM)
if iplot > 1: if iplot > 1:
if get_None(fig) is None: if get_none(fig) is None:
fig = plt.figure() # iplot) fig = plt.figure() # iplot)
plt_flag = 1 plt_flag = 1
fig._tight = True fig._tight = True
@ -868,7 +868,7 @@ def checksignallength(X, pick, minsiglength, pickparams, iplot=0, fig=None, line
returnflag = 0 returnflag = 0
if iplot > 1: if iplot > 1:
if get_None(fig) is None: if get_none(fig) is None:
fig = plt.figure() # iplot) fig = plt.figure() # iplot)
plt_flag = 1 plt_flag = 1
fig._tight = True fig._tight = True
@ -1213,14 +1213,14 @@ def checkZ4S(X, pick, pickparams, iplot, fig=None, linecolor='k'):
t = np.linspace(diff_dict[key], trace.stats.endtime - trace.stats.starttime + diff_dict[key], t = np.linspace(diff_dict[key], trace.stats.endtime - trace.stats.starttime + diff_dict[key],
trace.stats.npts) trace.stats.npts)
if i == 0: if i == 0:
if get_None(fig) is None: if get_none(fig) is None:
fig = plt.figure() # self.iplot) ### WHY? MP MP fig = plt.figure() # self.iplot) ### WHY? MP MP
plt_flag = 1 plt_flag = 1
ax1 = fig.add_subplot(3, 1, i + 1) ax1 = fig.add_subplot(3, 1, i + 1)
ax = ax1 ax = ax1
ax.set_title('CheckZ4S, Station %s' % zdat[0].stats.station) ax.set_title('CheckZ4S, Station %s' % zdat[0].stats.station)
else: else:
if get_None(fig) is None: if get_none(fig) is None:
fig = plt.figure() # self.iplot) ### WHY? MP MP fig = plt.figure() # self.iplot) ### WHY? MP MP
plt_flag = 1 plt_flag = 1
ax = fig.add_subplot(3, 1, i + 1, sharex=ax1) ax = fig.add_subplot(3, 1, i + 1, sharex=ax1)
@ -1494,7 +1494,7 @@ def getQualityFromUncertainty(uncertainty, Errors):
# set initial quality to 4 (worst) and change only if one condition is hit # set initial quality to 4 (worst) and change only if one condition is hit
quality = 4 quality = 4
if get_None(uncertainty) is None: if get_none(uncertainty) is None:
return quality return quality
if uncertainty <= Errors[0]: if uncertainty <= Errors[0]:

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@ -8,6 +8,7 @@ import platform
import re import re
import subprocess import subprocess
import warnings import warnings
from typing import Literal, Tuple, Type
from functools import lru_cache from functools import lru_cache
import numpy as np import numpy as np
@ -20,6 +21,10 @@ from pylot.core.io.inputs import PylotParameter, FilterOptions
from pylot.core.util.obspyDMT_interface import check_obspydmt_eventfolder from pylot.core.util.obspyDMT_interface import check_obspydmt_eventfolder
from pylot.styles import style_settings from pylot.styles import style_settings
Rgba: Type[tuple] = Tuple[int, int, int, int]
Mplrgba: Type[tuple] = Tuple[float, float, float, float]
Mplrgbastr: Type[tuple] = Tuple[str, str, str, str]
def _pickle_method(m): def _pickle_method(m):
if m.im_self is None: if m.im_self is None:
@ -83,25 +88,6 @@ def fit_curve(x, y):
return splev, splrep(x, y) return splev, splrep(x, y)
def getindexbounds(f, eta):
"""
Get indices of values closest below and above maximum value in an array
:param f: array
:type f: `~numpy.ndarray`
:param eta: look for value in array that is closes to max_value * eta
:type eta: float
:return: tuple containing index of max value, index of value closest below max value,
index of value closest above max value
:rtype: (int, int, int)
"""
mi = f.argmax() # get indices of max values
m = max(f) # get maximum value
b = m * eta #
l = find_nearest(f[:mi], b) # find closest value below max value
u = find_nearest(f[mi:], b) + mi # find closest value above max value
return mi, l, u
def gen_Pool(ncores=0): def gen_Pool(ncores=0):
""" """
Generate mulitprocessing pool object utilizing ncores amount of cores Generate mulitprocessing pool object utilizing ncores amount of cores
@ -167,11 +153,11 @@ def clims(lim1, lim2):
""" """
takes two pairs of limits and returns one pair of common limts takes two pairs of limits and returns one pair of common limts
:param lim1: limit 1 :param lim1: limit 1
:type lim1: int :type lim1: List[int]
:param lim2: limit 2 :param lim2: limit 2
:type lim2: int :type lim2: List[int]
:return: new upper and lower limit common to both given limits :return: new upper and lower limit common to both given limits
:rtype: [int, int] :rtype: List[int]
>>> clims([0, 4], [1, 3]) >>> clims([0, 4], [1, 3])
[0, 4] [0, 4]
@ -303,7 +289,7 @@ def fnConstructor(s):
if type(s) is str: if type(s) is str:
s = s.split(':')[-1] s = s.split(':')[-1]
else: else:
s = getHash(UTCDateTime()) s = get_hash(UTCDateTime())
badchars = re.compile(r'[^A-Za-z0-9_. ]+|^\.|\.$|^ | $|^$') badchars = re.compile(r'[^A-Za-z0-9_. ]+|^\.|\.$|^ | $|^$')
badsuffix = re.compile(r'(aux|com[1-9]|con|lpt[1-9]|prn)(\.|$)') badsuffix = re.compile(r'(aux|com[1-9]|con|lpt[1-9]|prn)(\.|$)')
@ -315,15 +301,32 @@ def fnConstructor(s):
return fn return fn
def get_None(value): def get_none(value):
""" """
Convert "None" to None Convert "None" to None
:param value: :param value:
:type value: str, bool :type value: str, NoneType
:return: :return:
:rtype: bool :rtype: type(value) or NoneType
>>> st = read()
>>> print(get_none(st))
3 Trace(s) in Stream:
BW.RJOB..EHZ | 2009-08-24T00:20:03.000000Z - 2009-08-24T00:20:32.990000Z | 100.0 Hz, 3000 samples
BW.RJOB..EHN | 2009-08-24T00:20:03.000000Z - 2009-08-24T00:20:32.990000Z | 100.0 Hz, 3000 samples
BW.RJOB..EHE | 2009-08-24T00:20:03.000000Z - 2009-08-24T00:20:32.990000Z | 100.0 Hz, 3000 samples
>>> get_none('Stream')
'Stream'
>>> get_none(0)
0
>>> get_none(0.)
0.0
>>> print(get_none('None'))
None
>>> print(get_none(None))
None
""" """
if value == 'None': if value is None or (type(value) is str and value == 'None'):
return None return None
else: else:
return value return value
@ -333,9 +336,26 @@ def get_bool(value):
""" """
Convert string representations of bools to their true boolean value Convert string representations of bools to their true boolean value
:param value: :param value:
:type value: str, bool :type value: str, bool, int, float
:return: true boolean value :return: true boolean value
:rtype: bool :rtype: bool
>>> get_bool(True)
True
>>> get_bool(False)
False
>>> get_bool(0)
False
>>> get_bool(0.)
False
>>> get_bool(0.1)
True
>>> get_bool(2)
True
>>> get_bool(-1)
False
>>> get_bool(-0.3)
False
""" """
if type(value) is bool: if type(value) is bool:
return value return value
@ -343,8 +363,11 @@ def get_bool(value):
return True return True
elif value in ['False', 'false']: elif value in ['False', 'false']:
return False return False
elif value > 0. or value > 0:
return True
else: else:
return bool(value) return False
def four_digits(year): def four_digits(year):
""" """
@ -355,8 +378,8 @@ def four_digits(year):
:return: four digit year correspondent :return: four digit year correspondent
:rtype: int :rtype: int
>>> four_digits(20) >>> four_digits(75)
1920 1975
>>> four_digits(16) >>> four_digits(16)
2016 2016
>>> four_digits(00) >>> four_digits(00)
@ -438,36 +461,53 @@ def backtransformFilterString(st):
return st return st
def getHash(time): def get_hash(time):
""" """
takes a time object and returns the corresponding SHA1 hash of the formatted date string takes a time object and returns the corresponding SHA1 hash of the formatted date string
:param time: time object for which a hash should be calculated :param time: time object for which a hash should be calculated
:type time: `~obspy.core.utcdatetime.UTCDateTime` :type time: `~obspy.core.utcdatetime.UTCDateTime`
:return: SHA1 hash :return: SHA1 hash
:rtype: str :rtype: str
>>> time = UTCDateTime(0)
>>> get_hash(time)
'7627cce3b1b58dd21b005dac008b34d18317dd15'
>>> get_hash(0)
Traceback (most recent call last):
...
AssertionError: 'time' is not an ObsPy UTCDateTime object
""" """
assert isinstance(time, UTCDateTime), '\'time\' is not an ObsPy UTCDateTime object'
hg = hashlib.sha1() hg = hashlib.sha1()
hg.update(time.strftime('%Y-%m-%d %H:%M:%S.%f')) hg.update(time.strftime('%Y-%m-%d %H:%M:%S.%f').encode('utf-8'))
return hg.hexdigest() return hg.hexdigest()
def getLogin(): def get_login():
""" """
returns the actual user's login ID returns the actual user's name
:return: login ID :return: login name
:rtype: str :rtype: str
""" """
import getpass import getpass
return getpass.getuser() return getpass.getuser()
def getOwner(fn): def get_owner(fn):
""" """
takes a filename and return the login ID of the actual owner of the file takes a filename and return the login ID of the actual owner of the file
:param fn: filename of the file tested :param fn: filename of the file tested
:type fn: str :type fn: str
:return: login ID of the file's owner :return: login ID of the file's owner
:rtype: str :rtype: str
>>> import tempfile
>>> with tempfile.NamedTemporaryFile() as tmpfile:
... tmpfile.write(b'') and True
... tmpfile.flush()
... get_owner(tmpfile.name) == os.path.expanduser('~').split('/')[-1]
0
True
""" """
system_name = platform.system() system_name = platform.system()
if system_name in ["Linux", "Darwin"]: if system_name in ["Linux", "Darwin"]:
@ -513,6 +553,11 @@ def is_executable(fn):
:param fn: path to the file to be tested :param fn: path to the file to be tested
:return: True or False :return: True or False
:rtype: bool :rtype: bool
>>> is_executable('/bin/ls')
True
>>> is_executable('/var/log/system.log')
False
""" """
return os.path.isfile(fn) and os.access(fn, os.X_OK) return os.path.isfile(fn) and os.access(fn, os.X_OK)
@ -539,24 +584,36 @@ def isSorted(iterable):
>>> isSorted([2,3,1,4]) >>> isSorted([2,3,1,4])
False False
""" """
assert isIterable(iterable), 'object is not iterable; object: {' \ assert is_iterable(iterable), "object is not iterable; object: {}".format(iterable)
'}'.format(iterable)
if type(iterable) is str: if type(iterable) is str:
iterable = [s for s in iterable] iterable = [s for s in iterable]
return sorted(iterable) == iterable return sorted(iterable) == iterable
def isIterable(obj): def is_iterable(obj):
""" """
takes a python object and returns True is the object is iterable and takes a python object and returns True is the object is iterable and
False otherwise False otherwise
:param obj: a python object :param obj: a python object
:type obj: object :type obj: obj
:return: True of False :return: True of False
:rtype: bool :rtype: bool
>>> is_iterable(1)
False
>>> is_iterable(True)
False
>>> is_iterable(0.)
False
>>> is_iterable((0,1,3,4))
True
>>> is_iterable([1])
True
>>> is_iterable('a')
True
""" """
try: try:
iterator = iter(obj) iter(obj)
except TypeError as te: except TypeError as te:
return False return False
return True return True
@ -565,13 +622,19 @@ def isIterable(obj):
def key_for_set_value(d): def key_for_set_value(d):
""" """
takes a dictionary and returns the first key for which's value the takes a dictionary and returns the first key for which's value the
boolean is True boolean representation is True
:param d: dictionary containing values :param d: dictionary containing values
:type d: dict :type d: dict
:return: key to the first non-False value found; None if no value's :return: key to the first non-False value found; None if no value's
boolean equals True boolean equals True
:rtype: :rtype: bool or NoneType
>>> key_for_set_value({'one': 0, 'two': 1})
'two'
>>> print(key_for_set_value({1: 0, 2: False}))
None
""" """
assert type(d) is dict, "Function only defined for inputs of type 'dict'."
r = None r = None
for k, v in d.items(): for k, v in d.items():
if v: if v:
@ -579,32 +642,53 @@ def key_for_set_value(d):
return r return r
def prepTimeAxis(stime, trace, verbosity=0): def prep_time_axis(offset, trace, verbosity=0):
""" """
takes a starttime and a trace object and returns a valid time axis for takes an offset and a trace object and returns a valid time axis for
plotting plotting
:param stime: start time of the actual seismogram as UTCDateTime :param offset: offset of the actual seismogram on plotting axis
:type stime: `~obspy.core.utcdatetime.UTCDateTime` :type offset: float or int
:param trace: seismic trace object :param trace: seismic trace object
:type trace: `~obspy.core.trace.Trace` :type trace: `~obspy.core.trace.Trace`
:param verbosity: if != 0, debug output will be written to console :param verbosity: if != 0, debug output will be written to console
:type verbosity: int :type verbosity: int
:return: valid numpy array with time stamps for plotting :return: valid numpy array with time stamps for plotting
:rtype: `~numpy.ndarray` :rtype: `~numpy.ndarray`
>>> tr = read()[0]
>>> prep_time_axis(0., tr)
array([0.00000000e+00, 1.00033344e-02, 2.00066689e-02, ...,
2.99799933e+01, 2.99899967e+01, 3.00000000e+01])
>>> prep_time_axis(22.5, tr)
array([22.5 , 22.51000333, 22.52000667, ..., 52.47999333,
52.48999667, 52.5 ])
>>> prep_time_axis(tr.stats.starttime, tr)
Traceback (most recent call last):
...
AssertionError: 'offset' is not of type 'float' or 'int'; type: <class 'obspy.core.utcdatetime.UTCDateTime'>
>>> tr.stats.npts -= 1
>>> prep_time_axis(0, tr)
array([0.00000000e+00, 1.00033356e-02, 2.00066711e-02, ...,
2.99699933e+01, 2.99799967e+01, 2.99900000e+01])
>>> tr.stats.npts += 2
>>> prep_time_axis(0, tr)
array([0.00000000e+00, 1.00033333e-02, 2.00066667e-02, ...,
2.99899933e+01, 2.99999967e+01, 3.00100000e+01])
""" """
assert isinstance(offset, (float, int)), "'offset' is not of type 'float' or 'int'; type: {}".format(type(offset))
nsamp = trace.stats.npts nsamp = trace.stats.npts
srate = trace.stats.sampling_rate srate = trace.stats.sampling_rate
tincr = trace.stats.delta tincr = trace.stats.delta
etime = stime + nsamp / srate etime = offset + nsamp / srate
time_ax = np.linspace(stime, etime, nsamp) time_ax = np.linspace(offset, etime, nsamp)
if len(time_ax) < nsamp: if len(time_ax) < nsamp:
if verbosity: if verbosity:
print('elongate time axes by one datum') print('elongate time axes by one datum')
time_ax = np.arange(stime, etime + tincr, tincr) time_ax = np.arange(offset, etime + tincr, tincr)
elif len(time_ax) > nsamp: elif len(time_ax) > nsamp:
if verbosity: if verbosity:
print('shorten time axes by one datum') print('shorten time axes by one datum')
time_ax = np.arange(stime, etime - tincr, tincr) time_ax = np.arange(offset, etime - tincr, tincr)
if len(time_ax) != nsamp: if len(time_ax) != nsamp:
print('Station {0}, {1} samples of data \n ' print('Station {0}, {1} samples of data \n '
'{2} length of time vector \n' '{2} length of time vector \n'
@ -620,13 +704,13 @@ def find_horizontals(data):
:param data: waveform data :param data: waveform data
:type data: `obspy.core.stream.Stream` :type data: `obspy.core.stream.Stream`
:return: components list :return: components list
:rtype: list :rtype: List(str)
..example:: ..example::
>>> st = read() >>> st = read()
>>> find_horizontals(st) >>> find_horizontals(st)
[u'N', u'E'] ['N', 'E']
""" """
rval = [] rval = []
for tr in data: for tr in data:
@ -637,7 +721,7 @@ def find_horizontals(data):
return rval return rval
def pick_color(picktype, phase, quality=0): def pick_color(picktype: Literal['manual', 'automatic'], phase: Literal['P', 'S'], quality: int = 0) -> Rgba:
""" """
Create pick color by modifying the base color by the quality. Create pick color by modifying the base color by the quality.
@ -650,7 +734,7 @@ def pick_color(picktype, phase, quality=0):
:param quality: quality of pick. Decides the new intensity of the modifier color :param quality: quality of pick. Decides the new intensity of the modifier color
:type quality: int :type quality: int
:return: tuple containing modified rgba color values :return: tuple containing modified rgba color values
:rtype: (int, int, int, int) :rtype: Rgba
""" """
min_quality = 3 min_quality = 3
bpc = base_phase_colors(picktype, phase) # returns dict like {'modifier': 'g', 'rgba': (0, 0, 255, 255)} bpc = base_phase_colors(picktype, phase) # returns dict like {'modifier': 'g', 'rgba': (0, 0, 255, 255)}
@ -706,17 +790,17 @@ def pick_linestyle_plt(picktype, key):
return linestyles[picktype][key] return linestyles[picktype][key]
def modify_rgba(rgba, modifier, intensity): def modify_rgba(rgba: Rgba, modifier: Literal['r', 'g', 'b'], intensity: float) -> Rgba:
""" """
Modify rgba color by adding the given intensity to the modifier color Modify rgba color by adding the given intensity to the modifier color
:param rgba: tuple containing rgba values :param rgba: tuple containing rgba values
:type rgba: (int, int, int, int) :type rgba: Rgba
:param modifier: which color should be modified, eg. 'r', 'g', 'b' :param modifier: which color should be modified; options: 'r', 'g', 'b'
:type modifier: str :type modifier: Literal['r', 'g', 'b']
:param intensity: intensity to be added to selected color :param intensity: intensity to be added to selected color
:type intensity: float :type intensity: float
:return: tuple containing rgba values :return: tuple containing rgba values
:rtype: (int, int, int, int) :rtype: Rgba
""" """
rgba = list(rgba) rgba = list(rgba)
index = {'r': 0, index = {'r': 0,
@ -750,18 +834,20 @@ def transform_colors_mpl_str(colors, no_alpha=False):
Transforms rgba color values to a matplotlib string of color values with a range of [0, 1] Transforms rgba color values to a matplotlib string of color values with a range of [0, 1]
:param colors: tuple of rgba color values ranging from [0, 255] :param colors: tuple of rgba color values ranging from [0, 255]
:type colors: (float, float, float, float) :type colors: (float, float, float, float)
:param no_alpha: Wether to return a alpha value in the matplotlib color string :param no_alpha: Whether to return an alpha value in the matplotlib color string
:type no_alpha: bool :type no_alpha: bool
:return: String containing r, g, b values and alpha value if no_alpha is False (default) :return: String containing r, g, b values and alpha value if no_alpha is False (default)
:rtype: str :rtype: str
>>> transform_colors_mpl_str((255., 255., 255., 255.), True)
'(1.0, 1.0, 1.0)'
>>> transform_colors_mpl_str((255., 255., 255., 255.))
'(1.0, 1.0, 1.0, 1.0)'
""" """
colors = list(colors)
colors_mpl = tuple([color / 255. for color in colors])
if no_alpha: if no_alpha:
colors_mpl = '({}, {}, {})'.format(*colors_mpl) return '({}, {}, {})'.format(*transform_colors_mpl(colors))
else: else:
colors_mpl = '({}, {}, {}, {})'.format(*colors_mpl) return '({}, {}, {}, {})'.format(*transform_colors_mpl(colors))
return colors_mpl
def transform_colors_mpl(colors): def transform_colors_mpl(colors):
@ -771,27 +857,16 @@ def transform_colors_mpl(colors):
:type colors: (float, float, float, float) :type colors: (float, float, float, float)
:return: tuple of rgba color values ranging from [0, 1] :return: tuple of rgba color values ranging from [0, 1]
:rtype: (float, float, float, float) :rtype: (float, float, float, float)
>>> transform_colors_mpl((127.5, 0., 63.75, 255.))
(0.5, 0.0, 0.25, 1.0)
>>> transform_colors_mpl(())
""" """
colors = list(colors) colors = list(colors)
colors_mpl = tuple([color / 255. for color in colors]) colors_mpl = tuple([color / 255. for color in colors])
return colors_mpl return colors_mpl
def remove_underscores(data):
"""
takes a `obspy.core.stream.Stream` object and removes all underscores
from station names
:param data: stream of seismic data
:type data: `~obspy.core.stream.Stream`
:return: data stream
:rtype: `~obspy.core.stream.Stream`
"""
# for tr in data:
# # remove underscores
# tr.stats.station = tr.stats.station.strip('_')
return data
def trim_station_components(data, trim_start=True, trim_end=True): def trim_station_components(data, trim_start=True, trim_end=True):
""" """
cut a stream so only the part common to all three traces is kept to avoid dealing with offsets cut a stream so only the part common to all three traces is kept to avoid dealing with offsets
@ -928,11 +1003,11 @@ def get_possible_pylot_eventfile_extensions(event, fext):
def get_stations(data): def get_stations(data):
""" """
Get list of all station names in data stream Get list of all station names in data-stream
:param data: stream containing seismic traces :param data: stream containing seismic traces
:type data: `~obspy.core.stream.Stream` :type data: `~obspy.core.stream.Stream`
:return: list of all station names in data, no duplicates :return: list of all station names in data, no duplicates
:rtype: list of str :rtype: List(str)
""" """
stations = [] stations = []
for tr in data: for tr in data:
@ -959,66 +1034,87 @@ def check4rotated(data, metadata=None, verbosity=1):
:rtype: `~obspy.core.stream.Stream` :rtype: `~obspy.core.stream.Stream`
""" """
def rotate_components(wfstream, metadata=None): def rotation_required(trace_ids):
"""
Derive if any rotation is required from the orientation code of the input.
:param trace_ids: string identifier of waveform data trace
:type trace_ids: List(str)
:return: boolean representing if rotation is necessary for any of the traces
:rtype: bool
"""
orientations = [trace_id[-1] for trace_id in trace_ids]
return any([orientation.isnumeric() for orientation in orientations])
def rotate_components(wfs_in, metadata=None):
""" """
Rotate components if orientation code is numeric (= non traditional orientation). Rotate components if orientation code is numeric (= non traditional orientation).
Azimut and dip are fetched from metadata. To be rotated, traces of a station have to be cut to the same length. Azimut and dip are fetched from metadata. To be rotated, traces of a station have to be cut to the same length.
Returns unrotated traces of no metadata is provided Returns unrotated traces of no metadata is provided
:param wfstream: stream containing seismic traces of a station :param wfs_in: stream containing seismic traces of a station
:type wfstream: `~obspy.core.stream.Stream` :type wfs_in: `~obspy.core.stream.Stream`
:param metadata: tuple containing metadata type string and metadata parser object :param metadata: tuple containing metadata type string and metadata parser object
:type metadata: (str, `~obspy.io.xseed.parser.Parser`) :type metadata: (str, `~obspy.io.xseed.parser.Parser`)
:return: stream object with traditionally oriented traces (ZNE) :return: stream object with traditionally oriented traces (ZNE)
:rtype: `~obspy.core.stream.Stream` :rtype: `~obspy.core.stream.Stream`
""" """
if len(wfs_in) < 3:
print(f"Stream {wfs_in=}, has not enough components to rotate.")
return wfs_in
# check if any traces in this station need to be rotated # check if any traces in this station need to be rotated
trace_ids = [trace.id for trace in wfstream] trace_ids = [trace.id for trace in wfs_in]
orientations = [trace_id[-1] for trace_id in trace_ids] if not rotation_required(trace_ids):
rotation_required = [orientation.isnumeric() for orientation in orientations] print(f"Stream does not need any rotation: Traces are {trace_ids=}")
if any(rotation_required): return wfs_in
t_start = full_range(wfstream)
# check metadata quality
t_start = full_range(wfs_in)
try: try:
azimuts = [] azimuths = []
dips = [] dips = []
for tr_id in trace_ids: for tr_id in trace_ids:
azimuts.append(metadata.get_coordinates(tr_id, t_start)['azimuth']) azimuths.append(metadata.get_coordinates(tr_id, t_start)['azimuth'])
dips.append(metadata.get_coordinates(tr_id, t_start)['dip']) dips.append(metadata.get_coordinates(tr_id, t_start)['dip'])
except (KeyError, TypeError) as e: except (KeyError, TypeError) as err:
print('Failed to rotate trace {}, no azimuth or dip available in metadata'.format(tr_id)) print(f"{type(err)=} occurred: {err=} Rotating not possible, not all azimuth and dip information "
return wfstream f"available in metadata. Stream remains unchanged.")
if len(wfstream) < 3: return wfs_in
print('Failed to rotate Stream {}, not enough components available.'.format(wfstream)) except Exception as err:
return wfstream print(f"Unexpected {err=}, {type(err)=}")
raise
# to rotate all traces must have same length, so trim them # to rotate all traces must have same length, so trim them
wfstream = trim_station_components(wfstream, trim_start=True, trim_end=True) wfs_out = trim_station_components(wfs_in, trim_start=True, trim_end=True)
try: try:
z, n, e = rotate2zne(wfstream[0], azimuts[0], dips[0], z, n, e = rotate2zne(wfs_out[0], azimuths[0], dips[0],
wfstream[1], azimuts[1], dips[1], wfs_out[1], azimuths[1], dips[1],
wfstream[2], azimuts[2], dips[2]) wfs_out[2], azimuths[2], dips[2])
print('check4rotated: rotated trace {} to ZNE'.format(trace_ids)) print('check4rotated: rotated trace {} to ZNE'.format(trace_ids))
# replace old data with rotated data, change the channel code to ZNE # replace old data with rotated data, change the channel code to ZNE
z_index = dips.index(min( z_index = dips.index(min(
dips)) # get z-trace index, z has minimum dip of -90 (dip is measured from 0 to -90, with -90 being vertical) dips)) # get z-trace index, z has minimum dip of -90 (dip is measured from 0 to -90, with -90
wfstream[z_index].data = z # being vertical)
wfstream[z_index].stats.channel = wfstream[z_index].stats.channel[0:-1] + 'Z' wfs_out[z_index].data = z
wfs_out[z_index].stats.channel = wfs_out[z_index].stats.channel[0:-1] + 'Z'
del trace_ids[z_index] del trace_ids[z_index]
for trace_id in trace_ids: for trace_id in trace_ids:
coordinates = metadata.get_coordinates(trace_id, t_start) coordinates = metadata.get_coordinates(trace_id, t_start)
dip, az = coordinates['dip'], coordinates['azimuth'] dip, az = coordinates['dip'], coordinates['azimuth']
trace = wfstream.select(id=trace_id)[0] trace = wfs_out.select(id=trace_id)[0]
if az > 315 or az <= 45 or az > 135 and az <= 225: if az > 315 or az <= 45 or 135 < az <= 225:
trace.data = n trace.data = n
trace.stats.channel = trace.stats.channel[0:-1] + 'N' trace.stats.channel = trace.stats.channel[0:-1] + 'N'
elif az > 45 and az <= 135 or az > 225 and az <= 315: elif 45 < az <= 135 or 225 < az <= 315:
trace.data = e trace.data = e
trace.stats.channel = trace.stats.channel[0:-1] + 'E' trace.stats.channel = trace.stats.channel[0:-1] + 'E'
except (ValueError) as e: except ValueError as err:
print(e) print(f"{err=} Rotation failed. Stream remains unchanged.")
return wfstream return wfs_in
return wfstream return wfs_out
if metadata is None: if metadata is None:
if verbosity: if verbosity:
@ -1032,38 +1128,6 @@ def check4rotated(data, metadata=None, verbosity=1):
return data return data
def scaleWFData(data, factor=None, components='all'):
"""
produce scaled waveforms from given waveform data and a scaling factor,
waveform may be selected by their components name
:param data: waveform data to be scaled
:type data: `~obspy.core.stream.Stream` object
:param factor: scaling factor
:type factor: float
:param components: components labels for the traces in data to be scaled by
the scaling factor (optional, default: 'all')
:type components: tuple
:return: scaled waveform data
:rtype: `~obspy.core.stream.Stream` object
"""
if components != 'all':
for comp in components:
if factor is None:
max_val = np.max(np.abs(data.select(component=comp)[0].data))
data.select(component=comp)[0].data /= 2 * max_val
else:
data.select(component=comp)[0].data /= 2 * factor
else:
for tr in data:
if factor is None:
max_val = float(np.max(np.abs(tr.data)))
tr.data /= 2 * max_val
else:
tr.data /= 2 * factor
return data
def runProgram(cmd, parameter=None): def runProgram(cmd, parameter=None):
""" """
run an external program specified by cmd with parameters input returning the run an external program specified by cmd with parameters input returning the

View File

@ -7,6 +7,7 @@ Created on Wed Mar 19 11:27:35 2014
import copy import copy
import datetime import datetime
import getpass import getpass
import glob
import multiprocessing import multiprocessing
import os import os
import subprocess import subprocess
@ -16,6 +17,7 @@ import traceback
import matplotlib import matplotlib
import numpy as np import numpy as np
from pylot.core.io.phases import getQualitiesfromxml
matplotlib.use('QT5Agg') matplotlib.use('QT5Agg')
@ -49,11 +51,11 @@ from pylot.core.pick.utils import getSNR, earllatepicker, getnoisewin, \
from pylot.core.pick.compare import Comparison from pylot.core.pick.compare import Comparison
from pylot.core.pick.autopick import fmpicker from pylot.core.pick.autopick import fmpicker
from pylot.core.util.defaults import OUTPUTFORMATS, FILTERDEFAULTS from pylot.core.util.defaults import OUTPUTFORMATS, FILTERDEFAULTS
from pylot.core.util.utils import prepTimeAxis, full_range, demeanTrace, isSorted, findComboBoxIndex, clims, \ from pylot.core.util.utils import prep_time_axis, full_range, demeanTrace, isSorted, findComboBoxIndex, clims, \
pick_linestyle_plt, pick_color_plt, \ pick_linestyle_plt, pick_color_plt, \
check4rotated, check4doubled, check_for_gaps_and_merge, check_for_nan, identifyPhase, \ check4rotated, check4doubled, check_for_gaps_and_merge, check_for_nan, identifyPhase, \
loopIdentifyPhase, trim_station_components, transformFilteroptions2String, \ loopIdentifyPhase, trim_station_components, transformFilteroptions2String, \
identifyPhaseID, get_bool, get_None, pick_color, getAutoFilteroptions, SetChannelComponents, \ identifyPhaseID, get_bool, get_none, pick_color, getAutoFilteroptions, SetChannelComponents, \
station_id_remove_channel, get_pylot_eventfile_with_extension, get_possible_pylot_eventfile_extensions station_id_remove_channel, get_pylot_eventfile_with_extension, get_possible_pylot_eventfile_extensions
from autoPyLoT import autoPyLoT from autoPyLoT import autoPyLoT
from pylot.core.util.thread import Thread from pylot.core.util.thread import Thread
@ -936,10 +938,10 @@ class WaveformWidgetPG(QtWidgets.QWidget):
msg = 'plotting %s channel of station %s' % (channel, station) msg = 'plotting %s channel of station %s' % (channel, station)
print(msg) print(msg)
stime = trace.stats.starttime - self.wfstart stime = trace.stats.starttime - self.wfstart
time_ax = prepTimeAxis(stime, trace) time_ax = prep_time_axis(stime, trace)
if st_syn: if st_syn:
stime_syn = trace_syn.stats.starttime - self.wfstart stime_syn = trace_syn.stats.starttime - self.wfstart
time_ax_syn = prepTimeAxis(stime_syn, trace_syn) time_ax_syn = prep_time_axis(stime_syn, trace_syn)
if method == 'fast': if method == 'fast':
trace.data, time_ax = self.minMax(trace, time_ax) trace.data, time_ax = self.minMax(trace, time_ax)
@ -1422,7 +1424,7 @@ class PylotCanvas(FigureCanvas):
msg = 'plotting %s channel of station %s' % (channel, station) msg = 'plotting %s channel of station %s' % (channel, station)
print(msg) print(msg)
stime = trace.stats.starttime - wfstart stime = trace.stats.starttime - wfstart
time_ax = prepTimeAxis(stime, trace) time_ax = prep_time_axis(stime, trace)
if time_ax is not None: if time_ax is not None:
if scaleToChannel: if scaleToChannel:
st_scale = wfdata.select(channel=scaleToChannel) st_scale = wfdata.select(channel=scaleToChannel)
@ -1460,7 +1462,7 @@ class PylotCanvas(FigureCanvas):
if not scaleddata: if not scaleddata:
trace.detrend('constant') trace.detrend('constant')
trace.normalize(np.max(np.abs(trace.data)) * 2) trace.normalize(np.max(np.abs(trace.data)) * 2)
time_ax = prepTimeAxis(stime, trace) time_ax = prep_time_axis(stime, trace)
times = [time for index, time in enumerate(time_ax) if not index % nth_sample] times = [time for index, time in enumerate(time_ax) if not index % nth_sample]
p_data = compare_stream[0].data p_data = compare_stream[0].data
# #normalize # #normalize
@ -2267,7 +2269,7 @@ class PickDlg(QDialog):
# create action and add to menu # create action and add to menu
# phase name transferred using lambda function # phase name transferred using lambda function
slot = lambda phase=phase, phaseID=phaseID: phaseSelect[phaseID](phase) slot = lambda ph=phase, phID=phaseID: phaseSelect[phID](ph)
picksAction = createAction(parent=self, text=phase, picksAction = createAction(parent=self, text=phase,
slot=slot, slot=slot,
shortcut=shortcut) shortcut=shortcut)
@ -2671,7 +2673,7 @@ class PickDlg(QDialog):
# prepare plotting of data # prepare plotting of data
for trace in data: for trace in data:
t = prepTimeAxis(trace.stats.starttime - stime, trace) t = prep_time_axis(trace.stats.starttime - stime, trace)
inoise = getnoisewin(t, ini_pick, noise_win, gap_win) inoise = getnoisewin(t, ini_pick, noise_win, gap_win)
trace = demeanTrace(trace, inoise) trace = demeanTrace(trace, inoise)
# upscale trace data in a way that each trace is vertically zoomed to noiselevel*factor # upscale trace data in a way that each trace is vertically zoomed to noiselevel*factor
@ -4794,8 +4796,8 @@ class InputsTab(PropTab):
self.tstopBox = QSpinBox() self.tstopBox = QSpinBox()
for spinbox in [self.tstartBox, self.tstopBox]: for spinbox in [self.tstartBox, self.tstopBox]:
spinbox.setRange(-99999, 99999) spinbox.setRange(-99999, 99999)
self.tstartBox.setValue(float(settings.value('tstart')) if get_None(settings.value('tstart')) else 0) self.tstartBox.setValue(float(settings.value('tstart')) if get_none(settings.value('tstart')) else 0)
self.tstopBox.setValue(float(settings.value('tstop')) if get_None(settings.value('tstop')) else 1e6) self.tstopBox.setValue(float(settings.value('tstop')) if get_none(settings.value('tstop')) else 1e6)
self.cuttimesLayout.addWidget(self.tstartBox, 10) self.cuttimesLayout.addWidget(self.tstartBox, 10)
self.cuttimesLayout.addWidget(QLabel('[s] and'), 0) self.cuttimesLayout.addWidget(QLabel('[s] and'), 0)
self.cuttimesLayout.addWidget(self.tstopBox, 10) self.cuttimesLayout.addWidget(self.tstopBox, 10)
@ -5791,7 +5793,7 @@ class ChooseWaveFormWindow(QWidget):
#self.currentSpectro = self.traces[ #self.currentSpectro = self.traces[
# self.chooseBoxTraces.currentText()[3:]][self.chooseBoxComponent.currentText()].spectrogram(show=False, title=t) # self.chooseBoxTraces.currentText()[3:]][self.chooseBoxComponent.currentText()].spectrogram(show=False, title=t)
#self.currentSpectro.show() #self.currentSpectro.show()
applyFFT() self.applyFFT()
def applyFFT(self, trace): def applyFFT(self, trace):
tra = self.traces[self.chooseBoxTraces.currentText()[3:]]['Z'] tra = self.traces[self.chooseBoxTraces.currentText()[3:]]['Z']