pylot/PyLoT.py

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#!/usr/bin/env python
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# -*- coding: utf-8 -*-
"""
PyLoT: Main program
===================
PyLoT is a seismic data processing software capable of picking seismic
phases (symmetric and asymmetric error assignment), exporting these to
several common phase data formats and post process the data, e.g. locating
events, via external localization software.
Additionally PyLoT is meant as an interface to autoPyLoT which can
automatically pick seismic phases, if the parameters have properly been
chosen for the particular data set.
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Some icons are out of a free of charge icon set, which can be found here:
https://www.iconfinder.com/iconsets/flavour
:authors:
Sebastian Wehling-Benatelli / Ludger Küperkoch / Marcel Paffrath
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:copyright:
The PyLoT Development Team (https://ariadne.geophysik.rub.de/trac/PyLoT)
:license:
GNU Lesser General Public License, Version 3
(http://www.gnu.org/copyleft/lesser.html)
"""
import argparse
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import matplotlib
import os
import platform
import sys
matplotlib.use('Qt4Agg')
matplotlib.rcParams['backend.qt4'] = 'PySide'
matplotlib.rcParams['savefig.dpi'] = 300
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from PySide import QtGui, QtCore
from PySide.QtCore import QCoreApplication, QSettings, Signal, QFile, \
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QFileInfo, Qt, QSize
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from PySide.QtGui import QMainWindow, QInputDialog, QIcon, QFileDialog, \
QWidget, QHBoxLayout, QVBoxLayout, QStyle, QKeySequence, QLabel, QFrame, QAction, \
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QDialog, QApplication, QPixmap, QMessageBox, QSplashScreen, \
QActionGroup, QListWidget, QListView, QAbstractItemView, \
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QTreeView, QComboBox, QTabWidget, QPushButton, QGridLayout
import numpy as np
from obspy import UTCDateTime
from obspy.core.event import Magnitude, Origin
from obspy.core.util import AttribDict
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from pylot.core.util.obspyDMT_interface import check_obspydmt_structure
import pyqtgraph as pg
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try:
from matplotlib.backends.backend_qt4agg import FigureCanvas
except ImportError:
from matplotlib.backends.backend_qt4agg import FigureCanvasQTAgg as FigureCanvas
from matplotlib.figure import Figure
from pylot.core.analysis.magnitude import LocalMagnitude, MomentMagnitude
from pylot.core.io.data import Data
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from pylot.core.io.inputs import FilterOptions, PylotParameter
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from autoPyLoT import autoPyLoT
from pylot.core.pick.compare import Comparison
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from pylot.core.pick.utils import getQualityFromUncertainty
from pylot.core.io.phases import picksdict_from_picks
import pylot.core.loc.nll as nll
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from pylot.core.util.errors import DatastructureError, \
OverwriteError
from pylot.core.util.connection import checkurl
from pylot.core.util.dataprocessing import Metadata, restitute_data
from pylot.core.util.utils import fnConstructor, getLogin, \
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full_range, readFilterInformation, make_pen, pick_color_plt, \
pick_linestyle_plt, identifyPhaseID, excludeQualityClasses, \
transform_colors_mpl, transform_colors_mpl_str, getAutoFilteroptions, check_all_obspy, \
check_all_pylot, real_Bool, SetChannelComponents
from pylot.core.util.event import Event
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from pylot.core.io.location import create_creation_info, create_event
from pylot.core.util.widgets import FilterOptionsDialog, NewEventDlg, \
PylotCanvas, WaveformWidgetPG, PropertiesDlg, HelpForm, createAction, PickDlg, \
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ComparisonWidget, TuneAutopicker, PylotParaBox, AutoPickDlg, CanvasWidget, AutoPickWidget, \
CompareEventsWidget, ProgressBarWidget, AddMetadataWidget
from pylot.core.util.array_map import Array_map
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from pylot.core.util.structure import DATASTRUCTURE
from pylot.core.util.thread import Thread, Worker
from pylot.core.util.version import get_git_version as _getVersionString
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from pylot.styles import style_settings
if sys.version_info.major == 3:
import icons_rc_3 as icons_rc
elif sys.version_info.major == 2:
import icons_rc_2 as icons_rc
else:
raise ImportError('Could not determine python version.')
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# workaround to prevent PyCharm from deleting icons_rc import when optimizing imports
icons_rc = icons_rc
locateTool = dict(nll=nll)
class MainWindow(QMainWindow):
__version__ = _getVersionString()
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closing = Signal()
def __init__(self, parent=None, infile=None):
super(MainWindow, self).__init__(parent)
self.init_config_files(infile)
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self._props = None
self.dirty = False
self.project = Project()
self.project.parameter = self._inputs
self.tap = None
self.apw = None
self.paraBox = None
self.array_map = None
self._metadata = Metadata(verbosity=0)
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self._eventChanged = [False, False]
self.apd_local = None
self.apd_sge = None
self.stations_highlighted = []
self.obspy_dmt = False
self.nextStation = False
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self.poS_id = None
self.ae_id = None
self.scroll_id = None
self._ctrl = False # control key pressed
self._shift = False # shift key pressed
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self.drawnPicks = {'auto': {},
'manual': {}}
# default factor for dataplot e.g. enabling/disabling scrollarea
self.height_factor = 12
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self.plot_method = 'normal'
# UI has to be set up before(!) children widgets are about to show up
self.createAction = createAction
# read settings
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settings = QSettings()
self.recentfiles = settings.value("data/recentEvents", [])
self.dispComponent = str(settings.value("plotting/dispComponent", "Z"))
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# initialize event data
if self.recentfiles:
lastEvent = self.getLastEvent()
self.data = Data(self, lastEvent)
else:
self.data = Data(self)
self.data._new = False
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self.autodata = Data(self)
self.fnames = None
self._stime = None
while True:
try:
if settings.value("user/FullName", None) is None:
fulluser = QInputDialog.getText(self, "Enter Name:", "Full name")
settings.setValue("user/FullName", fulluser)
settings.setValue("user/Login", getLogin())
if settings.value("agency_id", None) is None:
agency = QInputDialog.getText(self,
"Enter authority/institution name:",
"Authority")
settings.setValue("agency_id", agency)
structure_setting = settings.value("data/Structure", "PILOT")
if not structure_setting:
structure_setting = 'PILOT'
self.dataStructure = DATASTRUCTURE[structure_setting]()
self.seismicPhase = str(settings.value("phase", "P"))
if settings.value("data/dataRoot", None) is None:
dirname = QFileDialog().getExistingDirectory(
caption='Choose data root ...')
settings.setValue("data/dataRoot", dirname)
if settings.value('compclass', None) is None:
settings.setValue('compclass', SetChannelComponents())
if settings.value('useGuiFilter') is None:
settings.setValue('useGuiFilter', False)
if settings.value('output/Format', None) is None:
outformat = QInputDialog.getText(self,
"Enter output format (*.xml, *.cnv, *.obs):",
"Format")
settings.setValue("output/Format", outformat)
if settings.value('autoFilter', None) is None:
settings.setValue('autoFilter', True)
settings.sync()
break
except Exception as e:
qmb = QMessageBox(self, icon=QMessageBox.Question,
text='Could not init application settings: {}.'
'Do you want to reset application settings?'.format(e),
windowTitle='PyLoT - Init QSettings warning')
qmb.setStandardButtons(QMessageBox.Yes | QMessageBox.No)
qmb.setDefaultButton(QMessageBox.No)
ret = qmb.exec_()
if ret == qmb.Yes:
settings.clear()
else:
sys.exit()
print('Settings cleared!')
# setup UI
self.setupUi()
self.updateFilteroptions()
self.loc = False
def init_config_files(self, infile):
pylot_config_dir = os.path.join(os.path.expanduser('~'), '.pylot')
if not os.path.exists(pylot_config_dir):
os.mkdir(pylot_config_dir)
self._inputs = PylotParameter(infile)
if not infile:
self._inputs.reset_defaults()
# check for default pylot.in-file
infile = os.path.join(pylot_config_dir, '.pylot.in')
print('Using default input file {}'.format(infile))
self._inputs.export2File(infile)
self.infile = infile
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def setupUi(self):
try:
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self.startTime = min(
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[tr.stats.starttime for tr in self.data.wfdata])
except:
self.startTime = UTCDateTime()
self.init_styles()
pylot_icon = QIcon()
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pylot_icon.addPixmap(QPixmap(':/icons/pylot.png'))
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self.setWindowTitle("PyLoT - do seismic processing the python way")
self.setWindowIcon(pylot_icon)
_widget = QWidget()
self._main_layout = QVBoxLayout()
quitIcon = self.style().standardIcon(QStyle.SP_MediaStop)
helpIcon = self.style().standardIcon(QStyle.SP_DialogHelpButton)
newFolderIcon = self.style().standardIcon(QStyle.SP_FileDialogNewFolder)
# create resource icons
newIcon = QIcon()
newIcon.addPixmap(QPixmap(':/icons/newfile.png'))
addIcon = QIcon()
addIcon.addPixmap(QPixmap(':/icons/add.png'))
saveIcon = QIcon()
saveIcon.addPixmap(QPixmap(':/icons/save.png'))
saveasIcon = QIcon()
saveasIcon.addPixmap(QPixmap(':/icons/saveas.png'))
saveProjectIcon = QIcon()
saveProjectIcon.addPixmap(QPixmap(':/icons/saveproject.png'))
saveProjectAsIcon = QIcon()
saveProjectAsIcon.addPixmap(QPixmap(':/icons/saveprojectas.png'))
openIcon = QIcon()
openIcon.addPixmap(QPixmap(':/icons/openfile.png'))
openProjectIcon = QIcon()
openProjectIcon.addPixmap(QPixmap(':/icons/openproject.png'))
openLocIcon = QIcon()
openLocIcon.addPixmap(QPixmap(':/icons/openloc.png'))
openEventIcon = QIcon()
openEventIcon.addPixmap(QPixmap(':/icons/openpick.png'))
openEventsIcon = QIcon()
openEventsIcon.addPixmap(QPixmap(':/icons/openpicks.png'))
saveEventsIcon = QIcon()
saveEventsIcon.addPixmap(QPixmap(':/icons/savepicks.png'))
prefIcon = QIcon()
prefIcon.addPixmap(QPixmap(':/icons/preferences.png'))
paraIcon = QIcon()
paraIcon.addPixmap(QPixmap(':/icons/parameter.png'))
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self.inventoryIcon = QIcon()
self.inventoryIcon.addPixmap(QPixmap(':/icons/inventory.png'))
self.mapIcon = QIcon()
self.mapIcon.addPixmap(QPixmap(':/icons/map.png'))
self.autopicksicon_small = QIcon()
self.autopicksicon_small.addPixmap(QPixmap(':/icons/autopicksicon_small.png'))
self.manupicksicon_small = QIcon()
self.manupicksicon_small.addPixmap(QPixmap(':/icons/manupicksicon_small.png'))
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loadpiloticon = QIcon()
loadpiloticon.addPixmap(QPixmap(':/icons/Matlab_PILOT_icon.png'))
p_icon = QIcon()
p_icon.addPixmap(QPixmap(':/icons/key_P.png'))
s_icon = QIcon()
s_icon.addPixmap(QPixmap(':/icons/key_S.png'))
print_icon = QIcon()
print_icon.addPixmap(QPixmap(':/icons/printer.png'))
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self.filter_icon = QIcon()
self.filter_icon.addPixmap(QPixmap(':/icons/filter.png'))
self.filter_icon_p = QIcon()
self.filter_icon_p.addPixmap(QPixmap(':/icons/filter_p.png'))
self.filter_icon_s = QIcon()
self.filter_icon_s.addPixmap(QPixmap(':/icons/filter_s.png'))
z_icon = QIcon()
z_icon.addPixmap(QPixmap(':/icons/key_Z.png'))
n_icon = QIcon()
n_icon.addPixmap(QPixmap(':/icons/key_N.png'))
e_icon = QIcon()
e_icon.addPixmap(QPixmap(':/icons/key_E.png'))
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autotune_icon = QIcon()
autotune_icon.addPixmap(QPixmap(':/icons/tune.png'))
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autopylot_icon = QIcon()
autopylot_icon.addPixmap(QPixmap(':/icons/autopylot_button'))
locate_icon = QIcon()
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locate_icon.addPixmap(QPixmap(':/icons/locate_button.png'))
compare_icon = QIcon()
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compare_icon.addPixmap(QPixmap(':/icons/compare_button.png'))
qualities_icon = QIcon()
qualities_icon.addPixmap(QPixmap(':/icons/pick_qualities_button.png'))
self.newProjectAction = self.createAction(self, "&New project ...",
self.createNewProject,
QKeySequence.New, newIcon,
"Create a new Project.")
self.openProjectAction = self.createAction(self, "&Open project ...",
self.loadProject,
QKeySequence.Open,
openProjectIcon,
"Load project file")
self.saveProjectAction = self.createAction(self, "&Save project ...",
self.saveProject,
QKeySequence.Save,
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saveProjectIcon,
"Save project file")
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self.saveProjectAction.setEnabled(False)
self.saveProjectAsAction = self.createAction(self, "Save project as ...",
self.saveProjectAs,
QKeySequence.SaveAs,
saveProjectAsIcon,
"Save project file as...")
self.saveProjectAsAction.setEnabled(False)
# newEventAction = self.createAction(self, "&New event ...",
# self.createNewEvent,
# QKeySequence.New, newIcon,
# "Create a new event.")
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self.openEventAction = self.createAction(self, "Load event information...",
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self.load_data,
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"Ctrl+M",
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openEventIcon,
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"Load event information for "
"the displayed event.")
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self.openEventAction.setEnabled(False)
self.openEventAction.setData(None)
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self.openEventsAutoAction = self.createAction(self, "Load event information &automatically ... ",
self.load_multiple_data,
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"Ctrl+A",
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openEventsIcon,
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"Load event data automatically "
"for all events.")
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self.openEventsAutoAction.setEnabled(False)
self.openEventsAutoAction.setData(None)
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self.loadlocationaction = self.createAction(self, "Load &location ...",
self.load_loc, "Ctrl+L",
openLocIcon,
"Load location information on "
"the displayed event.")
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self.loadlocationaction.setEnabled(False)
self.loadpilotevent = self.createAction(self, "Load PILOT &event ...",
self.load_pilotevent, None,
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loadpiloticon,
"Load PILOT event from information "
"MatLab binary collections (created"
" in former MatLab based version).")
self.loadpilotevent.setEnabled(False)
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self.saveEventAction = self.createAction(self, "Save &event information ...",
self.saveData, "Ctrl+P",
saveEventsIcon, "Save event pick data,"
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" source origin and magnitude.")
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self.disableSaveEventAction()
self.addEventDataAction = self.createAction(self, "Add &events ...",
self.add_events,
"Ctrl+E", addIcon,
"Add event data")
prefsEventAction = self.createAction(self, "Preferences",
self.PyLoTprefs,
QKeySequence.Preferences,
prefIcon,
"Edit PyLoT app preferences.")
quitAction = self.createAction(self, "&Quit",
QCoreApplication.instance().quit,
QKeySequence.Close, quitIcon,
"Close event and quit PyLoT")
self.parameterAction = self.createAction(self, "Parameter",
self.setParameter,
None, paraIcon,
"Modify Parameter")
self.filterActionP = createAction(parent=self, text='Apply P Filter',
slot=self.filterP,
icon=self.filter_icon_p,
tip='Toggle filtered/original'
' waveforms',
checkable=True,
shortcut='P')
self.filterActionS = createAction(parent=self, text='Apply S Filter',
slot=self.filterS,
icon=self.filter_icon_s,
tip='Toggle filtered/original'
' waveforms',
checkable=True,
shortcut='S')
filterEditAction = self.createAction(self, "&Filter parameter ...",
self.adjustFilterOptions,
"Ctrl+F", self.filter_icon,
"""Adjust filter parameters.""")
self.inventoryAction = self.createAction(self, "Manage &Inventories ...",
self.add_metadata,
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"Ctrl+I", self.inventoryIcon,
"""Manage metadata for current project""",
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False)
self.initMapAction = self.createAction(self, "Init array map ...",
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self.init_array_map,
"Ctrl+M", self.mapIcon,
"""Initialize array map with current metadata""",
False)
self.initMapAction.setEnabled(False)
self.selectPAction = self.createAction(self, "&P", self.alterPhase,
"Alt+P",
p_icon,
"Toggle P phase.", True)
self.selectSAction = self.createAction(self, "&S", self.alterPhase,
"Alt+S",
s_icon,
"Toggle S phase", True)
self.compare_action = self.createAction(self, "&Compare picks...",
self.comparePicks, "Alt+C",
compare_icon, "Comparison of "
"manual and "
"automatic pick "
"data.", False)
self.compare_action.setEnabled(False)
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self.qualities_action = self.createAction(parent=self, text='Show pick qualitites...',
slot=self.pickQualities, shortcut='Alt+Q',
icon=qualities_icon, tip='Histogram of pick qualities')
self.qualities_action.setEnabled(False)
# MP MP not yet implemented, therefore hide:
self.qualities_action.setVisible(False)
printAction = self.createAction(self, "&Print event ...",
self.show_event_information, QKeySequence.Print,
print_icon,
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"Print waveform section.")
helpAction = self.createAction(self, "&Help ...", self.helpHelp,
QKeySequence.HelpContents, helpIcon,
"""Show either the documentation
homepage (internet connection available),
or shipped documentation files.""")
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# phaseToolBar = self.addToolBar("PhaseTools")
# phaseToolActions = (self.selectPAction, self.selectSAction)
# phaseToolBar.setObjectName("PhaseTools")
# self.addActions(phaseToolBar, phaseToolActions)
# create button group for component selection
componentGroup = QActionGroup(self)
componentGroup.setExclusive(True)
self.z_action = self.createAction(parent=componentGroup, text='Z',
slot=self.plotZ, shortcut='Alt+Z',
icon=z_icon, tip='Display the vertical (Z)'
' component.',
checkable=True)
self.z_action.setChecked(True)
self.z_action.setEnabled(False)
self.n_action = self.createAction(parent=componentGroup, text='N',
slot=self.plotN, shortcut='Alt+N',
icon=n_icon,
tip='Display the north-south (N) '
'component.', checkable=True)
self.n_action.setEnabled(False)
self.e_action = self.createAction(parent=componentGroup, text='E',
slot=self.plotE, shortcut='Alt+E',
icon=e_icon,
tip='Display the east-west (E) component.',
checkable=True)
self.e_action.setEnabled(False)
componentActions = (self.z_action, self.n_action, self.e_action)
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self.auto_tune = self.createAction(parent=self, text='autoTune',
slot=self.tune_autopicker, shortcut='Alt+Ctrl+A',
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icon=autotune_icon, tip='Tune autopicking algorithm.')
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self.auto_tune.setEnabled(False)
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self.auto_pick = self.createAction(parent=self, text='Current event',
slot=self.autoPick, shortcut='Alt+Ctrl+A',
icon=autopylot_icon, tip='Automatically pick'
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' the displayed waveforms.')
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self.auto_pick.setEnabled(False)
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self.auto_pick_local = self.createAction(parent=self, text='Whole project (local machine)...',
slot=self.autoPickProject, shortcut=None,
icon=self.autopicksicon_small, tip='Automatically pick'
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' the complete project on local machine.')
self.auto_pick_local.setEnabled(False)
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self.auto_pick_sge = self.createAction(parent=self, text='Whole project (grid engine)...',
slot=self.autoPickProjectSGE, shortcut=None,
icon=self.autopicksicon_small, tip='Automatically pick'
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' the complete project on grid engine.')
self.auto_pick_sge.setEnabled(False)
pickActions = (self.auto_tune, self.auto_pick, self.compare_action, self.qualities_action)
# pickToolBar = self.addToolBar("PickTools")
# pickToolActions = (selectStation, )
# pickToolBar.setObjectName("PickTools")
# self.addActions(pickToolBar, pickToolActions)
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self.locateEventAction = self.createAction(parent=self, text='locate the event',
slot=self.locate_event,
shortcut='Alt+Ctrl+L',
icon=locate_icon,
tip='Locate the event using '
'the displayed manual arrivals.')
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self.locateEventAction.setEnabled(False)
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locationToolActions = (self.locateEventAction,)
# add top menu
self.fileMenu = self.menuBar().addMenu('&File')
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self.fileMenuActions = (self.newProjectAction,
self.openProjectAction, self.saveProjectAction,
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self.saveProjectAsAction, None,
self.addEventDataAction,
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self.openEventAction, self.saveEventAction, None,
quitAction)
self.fileMenu.aboutToShow.connect(self.updateFileMenu)
self.updateFileMenu()
self.editMenu = self.menuBar().addMenu('&Edit')
editActions = (self.filterActionP, self.filterActionS, filterEditAction, None,
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# self.selectPAction, self.selectSAction, None,
self.inventoryAction, self.initMapAction, None,
prefsEventAction)
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# printAction) #TODO: print event?
pickMenuActions = (self.parameterAction,)
self.pickMenu = self.menuBar().addMenu('&Picking')
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self.autoPickMenu = self.pickMenu.addMenu(self.autopicksicon_small, 'Automatic picking')
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self.autoPickMenu.setEnabled(False)
autoPickActions = (self.auto_pick, self.auto_pick_local, self.auto_pick_sge)
self.helpMenu = self.menuBar().addMenu('&Help')
helpActions = (helpAction,)
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fileToolActions = (self.newProjectAction,
self.openProjectAction, self.saveProjectAction,
self.saveProjectAsAction)
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eventToolActions = (self.addEventDataAction,
self.openEventAction, self.openEventsAutoAction,
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self.saveEventAction, self.loadlocationaction,
self.loadpilotevent)
toolbars_keys = [
"FileTools",
"EventTools",
"ComponentSelection",
"autoPyLoT",
"LocationTools"
]
toolbars = {}
for name in toolbars_keys:
toolbars[name] = self.addToolBar(name)
toolbars[name].setObjectName(name)
toolbars[name].setMovable(False)
self.addActions(self.editMenu, editActions)
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self.addActions(self.autoPickMenu, autoPickActions)
self.addActions(self.pickMenu, pickMenuActions)
self.addActions(self.helpMenu, helpActions)
self.addActions(toolbars["FileTools"], fileToolActions)
self.addActions(toolbars["EventTools"], eventToolActions)
self.addActions(toolbars["ComponentSelection"], componentActions)
self.addActions(toolbars["autoPyLoT"], pickActions)
self.addActions(toolbars["LocationTools"], locationToolActions)
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# init pyqtgraph
self.pg = pg
# init style
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settings = QSettings()
style = settings.value('style')
self.set_style(style)
# add event combo box, forward, backward and ref/test buttons
self.eventBox = self.createEventBox()
self.eventBox.setMaxVisibleItems(30)
self.eventBox.setEnabled(False)
self.previous_button = QPushButton('<')
self.next_button = QPushButton('>')
self.init_ref_test_buttons()
self._event_layout = QHBoxLayout()
self._event_layout.addWidget(QLabel('Event: '))
self._event_layout.addWidget(self.eventBox)
self._event_layout.addWidget(self.previous_button)
self._event_layout.addWidget(self.next_button)
self._event_layout.addWidget(self.ref_event_button)
self._event_layout.addWidget(self.test_event_button)
self._event_layout.setStretch(1, 1) # set stretch of item 1 to 1
self._main_layout.addLayout(self._event_layout)
self.eventBox.activated.connect(self.refreshEvents)
self.previous_button.clicked.connect(self.previous_event)
self.next_button.clicked.connect(self.next_event)
self.previous_button.setEnabled(False)
self.next_button.setEnabled(False)
# add main tab widget
self.tabs = QTabWidget(self)
self._main_layout.addWidget(self.tabs)
self.tabs.currentChanged.connect(self.refreshTabs)
# add progressbar
self.mainProgressBarWidget = ProgressBarWidget(self)
self._main_layout.addWidget(self.mainProgressBarWidget)
# add scroll area used in case number of traces gets too high
self.wf_scroll_area = QtGui.QScrollArea(self)
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self.wf_scroll_area.setVisible(False)
self.no_data_label = QLabel('No Data')
self.no_data_label.setStyleSheet('color: red')
self.no_data_label.setAlignment(Qt.AlignCenter)
# create central matplotlib figure canvas widget
self.init_wfWidget()
# init main widgets for main tabs
wf_tab = QtGui.QWidget(self)
array_tab = QtGui.QWidget(self)
events_tab = QtGui.QWidget(self)
# init main widgets layouts
self.wf_layout = QtGui.QVBoxLayout()
self.array_layout = QtGui.QVBoxLayout()
self.events_layout = QtGui.QVBoxLayout()
wf_tab.setLayout(self.wf_layout)
array_tab.setLayout(self.array_layout)
events_tab.setLayout(self.events_layout)
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# tighten up layouts inside tabs
for layout in [self.wf_layout, self.array_layout, self.events_layout]:
layout.setSpacing(0)
layout.setContentsMargins(0, 0, 0, 0)
# add tabs to main tab widget
self.tabs.addTab(wf_tab, 'Waveform Plot')
self.tabs.addTab(array_tab, 'Array Map')
self.tabs.addTab(events_tab, 'Eventlist')
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self.wf_layout.addWidget(self.no_data_label)
self.wf_layout.addWidget(self.wf_scroll_area)
self.wf_scroll_area.setWidgetResizable(True)
self.init_array_tab()
self.init_event_table()
self.tabs.setCurrentIndex(0)
self.eventLabel = QLabel()
self.eventLabel.setFrameStyle(QFrame.StyledPanel | QFrame.Sunken)
status = self.statusBar()
status.setSizeGripEnabled(False)
status.addPermanentWidget(self.eventLabel)
status.showMessage("Ready", 500)
_widget.setLayout(self._main_layout)
_widget.showFullScreen()
self.setCentralWidget(_widget)
def init_wfWidget(self):
xlab = self.startTime.strftime('seconds since %Y/%m/%d %H:%M:%S (%Z)')
plottitle = None # "Overview: {0} components ".format(self.getComponent())
self.disconnectWFplotEvents()
self.pg = pg
self.dataPlot = WaveformWidgetPG(parent=self,
title=plottitle)
self.dataPlot.setCursor(Qt.CrossCursor)
self.wf_scroll_area.setWidget(self.dataPlot)
if self.get_current_event():
self.plotWaveformDataThread()
def init_ref_test_buttons(self):
'''
Initiate/create buttons for assigning events containing manual picks to reference or test set.
'''
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self.ref_event_button = QtGui.QPushButton('Tune')
self.test_event_button = QtGui.QPushButton('Test')
self.ref_event_button.setMinimumWidth(100)
self.test_event_button.setMinimumWidth(100)
self.ref_event_button.setToolTip('Set manual picks of current ' +
'event as reference picks for autopicker tuning.')
self.test_event_button.setToolTip('Set manual picks of current ' +
'event as test picks for autopicker testing.')
self.ref_event_button.setCheckable(True)
self.test_event_button.setCheckable(True)
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self.set_button_border_color(self.ref_event_button, self._style['ref']['rgba'])
self.set_button_border_color(self.test_event_button, self._style['test']['rgba'])
self.ref_event_button.clicked.connect(self.toggleRef)
self.test_event_button.clicked.connect(self.toggleTest)
self.ref_event_button.setEnabled(False)
self.test_event_button.setEnabled(False)
def keyPressEvent(self, event):
if event.key() == QtCore.Qt.Key.Key_Control:
self._ctrl = True
if event.key() == QtCore.Qt.Key.Key_Shift:
self._shift = True
def keyReleaseEvent(self, event):
if event.key() == QtCore.Qt.Key.Key_Control:
self._ctrl = False
if event.key() == QtCore.Qt.Key.Key_Shift:
self._shift = False
def init_styles(self):
self._styles = {}
styles = ['default', 'dark', 'bright']
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stylecolors = style_settings.stylecolors
for style in styles:
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if style in stylecolors.keys():
self._styles[style] = stylecolors[style]
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self._phasecolors = style_settings.phasecolors
styles_dir = os.path.dirname(style_settings.__file__)
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for style, stylecolors in self._styles.items():
stylesheet = stylecolors['stylesheet']['filename']
if stylesheet:
stylesheet_file = open(os.path.join(styles_dir, stylesheet), 'r')
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stylesheet = stylesheet_file.read()
stylesheet_file.close()
else:
stylesheet = self.styleSheet()
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bg_color = stylecolors['background']['rgba']
line_color = stylecolors['linecolor']['rgba']
multcursor_color = stylecolors['multicursor']['rgba']
# transform to 0-1 values for mpl and update dict
stylecolors['background']['rgba_mpl'] = transform_colors_mpl(bg_color)
stylecolors['linecolor']['rgba_mpl'] = transform_colors_mpl(line_color)
multcursor_color = stylecolors['multicursor']['rgba_mpl'] = transform_colors_mpl(multcursor_color)
stylecolors['stylesheet'] = stylesheet
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def set_style(self, stylename=None):
if not stylename:
stylename = 'default'
if not stylename in self._styles:
qmb = QMessageBox.warning(self, 'Could not find style',
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'Could not find style with name {}. Using default.'.format(stylename))
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self.set_style('default')
return
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style = self._styles[stylename]
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self._style = style
self._stylename = stylename
self.setStyleSheet(style['stylesheet'])
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# colors for ref/test event
self._ref_test_colors = {
'ref': QtGui.QColor(*style['ref']['rgba']),
'test': QtGui.QColor(*style['test']['rgba']),
}
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# plot colors
bg_color = style['background']['rgba']
bg_color_mpl_na = transform_colors_mpl_str(bg_color, no_alpha=True)
line_color = style['linecolor']['rgba']
line_color_mpl_na = transform_colors_mpl_str(line_color, no_alpha=True)
for param in matplotlib.rcParams:
if 'color' in param and matplotlib.rcParams[param] in ['k', 'black']:
matplotlib.rcParams[param] = line_color_mpl_na
matplotlib.rc('axes',
edgecolor=line_color_mpl_na,
facecolor=bg_color_mpl_na,
labelcolor=line_color_mpl_na)
matplotlib.rc('xtick',
color=line_color_mpl_na)
matplotlib.rc('ytick',
color=line_color_mpl_na)
matplotlib.rc('figure',
facecolor=bg_color_mpl_na)
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if self.pg:
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pg.setConfigOption('background', bg_color)
pg.setConfigOption('foreground', line_color)
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settings = QSettings()
settings.setValue('style', stylename)
settings.sync()
@property
def metadata(self):
return self._metadata
@metadata.setter
def metadata(self, value):
self._metadata = value
def updateFilteroptions(self):
filter_info = readFilterInformation(self._inputs)
p_filter = filter_info['P']
s_filter = filter_info['S']
self.filteroptions = {'P': FilterOptions(p_filter['filtertype'],
p_filter['freq'],
p_filter['order']),
'S': FilterOptions(s_filter['filtertype'],
s_filter['freq'],
s_filter['order'])}
def updateFileMenu(self):
settings = QSettings()
self.fileMenu.clear()
self.recentProjectsMenu = self.fileMenu.addMenu('Recent Projects')
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for action in self.fileMenuActions[:-1]:
if action is None:
self.fileMenu.addSeparator()
else:
self.fileMenu.addAction(action)
try:
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current = self.data.getID()
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except AttributeError:
current = None
recentEvents = []
for eventID in self.recentfiles:
fname = fnConstructor(eventID)
if eventID != current and QFile.exists(fname):
recentEvents.append(eventID)
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recentEvents.reverse()
self.recentfiles = recentEvents[0:5]
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settings.setValue()
if recentEvents:
for i, eventID in enumerate(recentEvents):
fname = fnConstructor(eventID)
action = QAction(self.windowIcon(),
"&{0} {1}".format(i + 1,
QFileInfo(fname).fileName()),
self)
action.setData(fname)
self.connect(action, Signal("triggered()"),
self.load_data)
self.fileMenu.addAction(action)
self.fileMenu.addSeparator()
self.fileMenu.addAction(self.fileMenuActions[-1])
# add recent projects
recentProjects = settings.value('recentProjects', [])
if not type(recentProjects) == list:
recentProjects = [recentProjects]
for project in reversed(recentProjects):
action = self.createAction(self, project,
lambda fnm=project: self.loadProject(fnm),
None, None)
self.recentProjectsMenu.addAction(action)
@property
def inputs(self):
return self._inputs
@staticmethod
def getRoot():
settings = QSettings()
return settings.value("data/dataRoot")
def load_loc(self, fname=None):
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self.load_data(fname, loc=True)
def load_pilotevent(self):
filt = "PILOT location files (*LOC*.mat)"
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caption = "Select PILOT location file"
fn_loc = QFileDialog().getOpenFileName(self, caption=caption,
filter=filt, dir=self.getRoot())
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fn_loc = fn_loc[0]
loc_dir = os.path.split(fn_loc)[0]
filt = "PILOT phases files (*PHASES*.mat)"
caption = "Select PILOT phases file"
fn_phases = QFileDialog().getOpenFileName(self, caption=caption,
filter=filt, dir=loc_dir)
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fn_phases = fn_phases[0]
fname_dict = dict(phasfn=fn_phases, locfn=fn_loc)
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self.load_data(fname_dict)
def load_multiple_data(self):
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if not self.okToContinue():
return
refresh = False
events = self.project.eventlist
fext = '.xml'
for event in events:
path = event.path
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eventname = path.split('/')[-1] # or event.pylot_id
filename = os.path.join(path, 'PyLoT_' + eventname + fext)
if os.path.isfile(filename):
self.load_data(filename, draw=False, event=event, overwrite=True)
refresh = True
if not refresh:
return
if self.get_current_event().pylot_picks:
self.refreshEvents()
self.fill_eventbox()
self.setDirty(True)
def load_data(self, fname=None, loc=False, draw=True, event=None, overwrite=False):
if not overwrite:
if not self.okToContinue():
return
if fname is None:
action = self.sender()
if isinstance(action, QAction):
fname = self.filename_from_action(action)
if not fname:
return
if not event:
event = self.get_current_event()
data = Data(self, event)
try:
data_new = Data(self, evtdata=str(fname))
data += data_new
except ValueError:
qmb = QMessageBox(self, icon=QMessageBox.Question,
text='Warning: Missmatch in event identifiers {} and {}. Continue?'.format(
data_new.get_evt_data().resource_id,
data.get_evt_data().resource_id),
windowTitle='PyLoT - Load data warning')
qmb.setStandardButtons(QMessageBox.Yes | QMessageBox.No)
qmb.setDefaultButton(QMessageBox.No)
ret = qmb.exec_()
if ret == qmb.Yes:
data_new.setNew()
data += data_new
else:
return
self.data = data
message = 'Loading event info from file {}.'.format(fname)
print(message)
self.update_status(message)
if not loc:
self.updatePicks(type='auto', event=event)
self.updatePicks(type='manual', event=event)
if draw:
if self.get_current_event().pylot_picks or self.get_current_event().pylot_autopicks:
self.refreshEvents()
self.setDirty(True)
def add_recentfile(self, event):
self.recentfiles.insert(0, event)
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def set_button_border_color(self, button, color=None):
'''
Set background color of a button.
button: type = QtGui.QAbstractButton
color: type = QtGui.QColor or type = str (RGBA)
'''
if type(color) == QtGui.QColor:
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button.setStyleSheet({'QPushButton{background-color:transparent}'})
palette = button.palette()
role = button.backgroundRole()
palette.setColor(role, color)
button.setPalette(palette)
button.setAutoFillBackground(True)
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elif type(color) == str:
button.setStyleSheet('QPushButton{border-color: %s}'
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'QPushButton:checked{background-color: rgba%s}' % (color, color))
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elif type(color) == tuple:
button.setStyleSheet('QPushButton{border-color: rgba%s}'
'QPushButton:checked{background-color: rgba%s}' % (str(color), str(color)))
elif not color:
button.setStyleSheet(self.orig_parent._style['stylesheet'])
def getWFFnames(self):
try:
evt = self.get_data().get_evt_data()
if evt.pylot_picks:
for pick in evt.pylot_picks:
try:
if pick.waveform_id is not None:
fname = pick.waveform_id.getSEEDstring()
if fname not in self.fnames:
self.fnames.append(fname)
except:
continue
else:
if self.dataStructure:
searchPath = self.dataStructure.expandDataPath()
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fnames = QFileDialog.getOpenFileNames(self,
"Select waveform "
"files:",
dir=searchPath)
self.fnames = fnames[0]
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else:
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raise DatastructureError('not specified')
if not self.fnames:
return None
return self.fnames
except DatastructureError as e:
print(e)
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if not self._props:
self._props = PropertiesDlg(self, infile=self.infile)
if self._props.exec_() == QDialog.Accepted:
return self.getWFFnames()
else:
return
def getWFFnames_from_eventbox(self, eventbox=None):
'''
Return waveform filenames from event in eventbox.
'''
# TODO: add dataStructure class for obspyDMT here, this is just a workaround!
eventpath = self.get_current_event_path(eventbox)
basepath = eventpath.split(os.path.basename(eventpath))[0]
if self.dataStructure:
if not eventpath:
return
fnames = [os.path.join(eventpath, f) for f in os.listdir(eventpath)]
else:
raise DatastructureError('not specified')
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return fnames
@staticmethod
def getPhaseID(phase):
return identifyPhaseID(phase)
def get_current_event(self, eventbox=None):
'''
Return event (type PyLoT.Event) currently selected in eventbox.
'''
if not eventbox:
eventbox = self.eventBox
path = eventbox.currentText().split('*')[0]
return self.project.getEventFromPath(path)
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def get_current_event_path(self, eventbox=None):
'''
Return event path of event (type PyLoT.Event) currently selected in eventbox.
'''
event = self.get_current_event(eventbox)
if event:
return event.path
def get_current_event_name(self, eventbox=None):
'''
Return event path of event (type PyLoT.Event) currently selected in eventbox.
'''
path = self.get_current_event_path(eventbox)
if path:
return path.split('/')[-1]
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def getLastEvent(self):
return self.recentfiles[0]
def add_events(self):
'''
Creates and adds events by user selection of event folders to GUI.
'''
if not self.project:
self.createNewProject()
ed = getExistingDirectories(self, 'Select event directories...')
if ed.exec_():
eventlist = ed.selectedFiles()
basepath = eventlist[0].split(os.path.basename(eventlist[0]))[0]
# small hack: if a file "eventlist.txt" is found in the basepath use only those events specified inside
eventlist_file = os.path.join(basepath, 'eventlist.txt')
if os.path.isfile(eventlist_file):
with open(eventlist_file, 'r') as infile:
eventlist_subset = [os.path.join(basepath, filename.split('\n')[0]) for filename in infile.readlines()]
msg = 'Found file "eventlist.txt" in database path. WILL ONLY USE SELECTED EVENTS out of {} events ' \
'contained in this subset'
print(msg.format(len(eventlist_subset)))
eventlist = [eventname for eventname in eventlist if eventname in eventlist_subset]
if check_obspydmt_structure(basepath):
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print('Recognized obspyDMT structure in selected files. Settings Datastructure to ObspyDMT')
self.dataStructure = DATASTRUCTURE['obspyDMT']()
eventlist = check_all_obspy(eventlist)
else:
print('Setting Datastructure to PILOT')
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self.dataStructure = DATASTRUCTURE['PILOT']()
eventlist = check_all_pylot(eventlist)
if not eventlist:
print('No events found! Expected structure for event folders: [eEVID.DOY.YR],\n'
' e.g. eventID=1, doy=2, yr=2016: e0001.002.16 or obspyDMT database')
return
else:
return
if not self.project:
print('No project found.')
return
# get path from first event in list and split them
path = eventlist[0]
try:
system_name = platform.system()
if system_name in ["Linux", "Darwin"]:
dirs = {
'database': path.split('/')[-2],
'datapath': path.split('/')[-3],
'rootpath': '/' + os.path.join(*path.split('/')[:-3])
}
elif system_name == "Windows":
rootpath = path.split('/')[:-3]
rootpath[0] += '/'
dirs = {
'database': path.split('/')[-2],
'datapath': path.split('/')[-3],
'rootpath': os.path.join(*rootpath)
}
except Exception as e:
dirs = {
'database': '',
'datapath': '',
'rootpath': ''
}
print('Warning: Could not automatically init folder structure. ({})'.format(e))
settings = QSettings()
settings.setValue("data/dataRoot", dirs['rootpath'])
settings.sync()
if not self.project.eventlist:
# init parameter object
self.setParameter(show=False)
# hide all parameter (show all needed parameter later)
self.paraBox.hide_parameter()
for directory in dirs.keys():
# set parameter
box = self.paraBox.boxes[directory]
self.paraBox.setValue(box, dirs[directory])
# show needed parameter in box
self.paraBox.show_parameter(directory)
dirs_box = self.paraBox.get_groupbox_dialog('Directories')
if not dirs_box.exec_():
return
self.project.rootpath = dirs['rootpath']
else:
if hasattr(self.project, 'rootpath'):
if not self.project.rootpath == dirs['rootpath']:
QMessageBox.warning(self, "PyLoT Warning",
'Rootpath missmatch to current project!')
return
else:
self.project.rootpath = dirs['rootpath']
self.project.add_eventlist(eventlist)
self.init_events()
self.setDirty(True)
def remove_event(self, event):
qmb = QMessageBox(self, icon=QMessageBox.Question,
text='Are you sure you want to delete event {}?'.format(event.pylot_id))
qmb.setStandardButtons(QMessageBox.Yes | QMessageBox.No)
qmb.setDefaultButton(QMessageBox.Yes)
ret = qmb.exec_()
if not ret == qmb.Yes:
return
self.project.remove_event(event)
self.init_events(True)
@staticmethod
def createEventBox():
'''
Eventbox generator.
'''
qcb = QComboBox()
palette = qcb.palette()
# change highlight color:
# palette.setBrush(QtGui.QPalette.Inactive, QtGui.QPalette.Highlight,
# QtGui.QBrush(QtGui.QColor(0,0,127,127)))
# palette.setBrush(QtGui.QPalette.Active, QtGui.QPalette.Highlight,
# QtGui.QBrush(QtGui.QColor(0,0,127,127)))
qcb.setPalette(palette)
return qcb
def init_events(self, new=False):
'''
Initiate GUI widgets in case of changed or newly added events.
'''
nitems = self.eventBox.count()
is_data = self.data_check()
if len(self.project.eventlist) == 0 or not is_data:
print('No events to init.')
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self.clearWaveformDataPlot()
if not is_data:
new_path, modifypath = self.user_modify_path('Event folders not found! ')
if modifypath:
self.modify_project_path(new_path)
self.init_events(True)
self.setDirty(True)
return
self.eventBox.setEnabled(True)
self.fill_eventbox()
if new:
self.eventBox.setCurrentIndex(0)
else:
self.eventBox.setCurrentIndex(nitems)
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self.refreshEvents()
tabindex = self.tabs.currentIndex()
def user_modify_path(self, reason=''):
dialog = QtGui.QInputDialog(parent=self)
new_path, executed = dialog.getText(self, 'Change Project rootpath',
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'{}Rename project path {}:'.format(reason, self.project.rootpath))
return new_path, executed
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def data_check(self):
paths_exist = [os.path.exists(event.path) for event in self.project.eventlist]
if all(paths_exist):
return True
else:
info_str = ''
for event, path_exists in zip(self.project.eventlist, paths_exist):
info_str += '\n{} exists: {}'.format(event.path, path_exists)
print('Unable to find certain event paths:{}'.format(info_str))
return False
def modify_project_path(self, new_rootpath):
self.project.rootpath = new_rootpath
for event in self.project.eventlist:
event.rootpath = new_rootpath
event.path = os.path.join(event.rootpath, event.datapath, event.database, event.pylot_id)
event.path = event.path.replace('\\', '/')
event.path = event.path.replace('//', '/')
def fill_eventbox(self, event=None, eventBox=None, select_events='all'):
'''
(Re)fill the selected eventBox (type = QtGui.QComboBox).
:param: select_events, can be 'all', 'ref'
:type: str
'''
# if pick widget is open, refresh tooltips as well
if self.apw:
self.apw.refresh_tooltips()
if hasattr(self, 'cmpw'):
self.cmpw.refresh_tooltips()
if not eventBox:
eventBox = self.eventBox
index = eventBox.currentIndex()
tv = QtGui.QTableView()
header = tv.horizontalHeader()
header.setResizeMode(QtGui.QHeaderView.ResizeToContents)
header.setStretchLastSection(True)
header.hide()
tv.verticalHeader().hide()
tv.setSelectionBehavior(QtGui.QAbstractItemView.SelectRows)
current_event = self.get_current_event()
eventBox.setView(tv)
eventBox.clear()
model = eventBox.model()
plmax = 0
# set maximum length of path string
for event in self.project.eventlist:
pl = len(event.path)
if pl > plmax:
plmax = pl
for id, event in enumerate(self.project.eventlist):
event_path = event.path
phaseErrors = {'P': self._inputs['timeerrorsP'],
'S': self._inputs['timeerrorsS']}
ma_props = {'manual': event.pylot_picks,
'auto': event.pylot_autopicks}
ma_count = {'manual': 0,
'auto': 0}
ma_count_total = {'manual': 0,
'auto': 0}
for ma in ma_props.keys():
if ma_props[ma]:
for picks in ma_props[ma].values():
for phasename, pick in picks.items():
if not type(pick) in [dict, AttribDict]:
continue
if pick.get('spe'):
ma_count[ma] += 1
ma_count_total[ma] += 1
event_ref = event.isRefEvent()
event_test = event.isTestEvent()
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time = lat = lon = depth = mag = None
if len(event.origins) == 1:
origin = event.origins[0]
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time = origin.time + 0 # add 0 because there was an exception for time = 0s
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lat = origin.latitude
lon = origin.longitude
depth = origin.depth
if len(event.magnitudes) == 1:
magnitude = event.magnitudes[0]
mag = magnitude.mag
# text = '{path:{plen}} | manual: [{p:3d}] | auto: [{a:3d}]'
# text = text.format(path=event_path,
# plen=plmax,
# p=event_npicks,
# a=event_nautopicks)
event_str = '{path:{plen}}'.format(path=event_path, plen=plmax)
if event.dirty:
event_str += '*'
item_path = QtGui.QStandardItem(event_str)
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item_time = QtGui.QStandardItem('{}'.format(time))
item_lat = QtGui.QStandardItem('{}'.format(lat))
item_lon = QtGui.QStandardItem('{}'.format(lon))
item_depth = QtGui.QStandardItem('{}'.format(depth))
item_mag = QtGui.QStandardItem('{}'.format(mag))
item_nmp = QtGui.QStandardItem('{}({})'.format(ma_count['manual'], ma_count_total['manual']))
item_nmp.setIcon(self.manupicksicon_small)
item_nap = QtGui.QStandardItem('{}({})'.format(ma_count['auto'], ma_count_total['auto']))
item_nap.setIcon(self.autopicksicon_small)
item_ref = QtGui.QStandardItem() # str(event_ref))
item_test = QtGui.QStandardItem() # str(event_test))
if event_ref:
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item_ref.setBackground(self._ref_test_colors['ref'])
if event_test:
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item_test.setBackground(self._ref_test_colors['test'])
item_notes = QtGui.QStandardItem(event.notes)
openIcon = self.style().standardIcon(QStyle.SP_DirOpenIcon)
item_path.setIcon(openIcon)
# if ref: set different color e.g.
# if event_ref:
# item.setBackground(self._colors['ref'])
# if event_test:
# itemt.setBackground(self._colors['test'])
# item.setForeground(QtGui.QColor('black'))
# font = item.font()
# font.setPointSize(10)
# item.setFont(font)
# item2.setForeground(QtGui.QColor('black'))
# item2.setFont(font)
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itemlist = [item_path, item_time, item_lat, item_lon, item_depth,
item_mag, item_nmp, item_nap, item_ref, item_test, item_notes]
for item in itemlist:
item.setTextAlignment(Qt.AlignCenter)
if event_test and select_events == 'ref' or self.isEmpty(event_path):
for item in itemlist:
item.setEnabled(False)
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# item color
self.setItemColor(itemlist, id, event, current_event)
model.appendRow(itemlist)
if not event.path == self.eventBox.itemText(id).split('*')[0].strip():
message = ('Path missmatch creating eventbox.\n'
'{} unequal {}.'
.format(event.path, self.eventBox.itemText(id)))
raise ValueError(message)
# not working with obspy events
# eventBox.setItemData(id, event)
eventBox.setCurrentIndex(index)
self.refreshRefTestButtons()
def isEmpty(self, event_path):
wf_stat = {True: 'processed',
False: 'raw',
None: None}
# self.data.processed is only None for PyLoT datastructure, else True or False
wf_dir = wf_stat[self.data.processed]
if wf_dir is not None:
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wf_path = os.path.join(event_path, wf_dir)
if wf_dir is 'processed' and not os.path.exists(wf_path):
wf_path = os.path.join(event_path, 'raw')
else:
wf_path = event_path
if not os.path.exists(wf_path):
return True
return not bool(os.listdir(wf_path))
def filename_from_action(self, action):
if action.data() is None:
filt = "Supported file formats" \
" (*.mat *.qml *.xml *.kor *.evt)"
caption = "Open an event file"
fname = QFileDialog().getOpenFileName(self, caption=caption,
filter=filt,
dir=self.get_current_event_path())
fname = fname[0]
else:
fname = str(action.data().toString())
return fname
def getEventFileName(self, type='manual'):
if self.get_fnames(type) is None:
self.set_fname(self.get_data().getEventFileName(), type)
return self.get_fnames(type)
def saveData(self, event=None, directory=None, outformats=['.xml', '.cnv', '.obs']):
'''
Save event data to directory with specified output formats.
:param event: PyLoT Event, if not set current event will be used
:param directory: output directory, if not set default event path will be used
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:param outformats: str/list of output formats
:return:
'''
if not event:
event = self.get_current_event()
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if not type(outformats) == list:
outformats = [outformats]
def getSavePath(event, directory, outformats):
if not directory:
title = 'Save event data as {} to directory ...'.format(outformats)
directory = QFileDialog.getExistingDirectory(self,
title,
event.path)
else:
directory = event.path
filename = 'PyLoT_' + event.pylot_id
eventfn = os.path.join(directory, filename)
return eventfn
fbasename = getSavePath(event, directory, outformats)
uppererrorP = self._inputs['timeerrorsP']
uppererrorS = self._inputs['timeerrorsS']
try:
self.get_data().applyEVTData(event, typ='event') # getPicks())
except OverwriteError:
self.get_data().resetPicks()
return self.saveData(event, directory, outformats)
fcheck = ['auto', 'manual', 'origins', 'magnitude']
saved_as = str()
for outformat in outformats:
try:
self.get_data().exportEvent(fbasename, outformat, fcheck=fcheck,
upperErrors=[uppererrorP[3], uppererrorS[3]])
saved_as += str(outformat) + ' '
except TypeError:
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print('WARNING: Format: {} not yet implemented'.format(outformat))
self.get_data().setEvtData(event)
msg = 'Event {} saved as {} in format(s) {}'.format(event.pylot_id, fbasename, saved_as.strip())
self.update_status(msg)
print(msg)
event.dirty = False
self.fill_eventbox()
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return True
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def exportEvents(self, outformats=['.xml'], events='all'):
if events == 'all':
events = self.project.eventlist
assert type(events) == list, 'Wrong input type: {}'.format(type(events))
for event in events:
if not event.dirty:
continue
self.get_data().setEvtData(event)
try:
self.saveData(event, event.path, outformats)
event.dirty = False
except Exception as e:
print('WARNING! Could not save event {}. Reason: {}'.format(event.path, e))
self.fill_eventbox()
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def enableSaveEventAction(self):
self.saveEventAction.setEnabled(True)
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def disableSaveEventAction(self):
self.saveEventAction.setEnabled(False)
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def getinfile(self):
return self.infile
def getComponent(self):
return self.dispComponent
def setComponent(self, component):
self.dispComponent = component
def get_data(self):
return self.data
def getPicks(self, type='manual'):
if type == 'manual':
return self.get_current_event().getPicks()
if type == 'auto':
return self.get_current_event().getAutopicks()
def getPicksOnStation(self, station, type='manual'):
try:
return self.getPicks(type)[station]
except KeyError:
return None
def comparePicks(self):
comparisons = {}
eventdict = {}
for event in self.project.eventlist:
if not self.comparable[event.pylot_id]:
continue
autopicks = excludeQualityClasses(event.getAutopicks(), [4],
self._inputs['timeerrorsP'], self._inputs['timeerrorsS'])
manupicks = excludeQualityClasses(event.getPicks(), [4],
self._inputs['timeerrorsP'], self._inputs['timeerrorsS'])
co = Comparison(auto=autopicks, manu=manupicks)
comparisons[event.pylot_id] = co
eventdict[event.pylot_id] = event
if len(eventdict) < 1:
return
# init event selection options for autopick
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self.compareoptions = [('tune events', self.get_ref_events, self._style['ref']['rgba']),
('test events', self.get_test_events, self._style['test']['rgba']),
('all (picked) events', self.get_manu_picked_events, None)]
self.cmpw = CompareEventsWidget(self, self.compareoptions, eventdict, comparisons)
self.cmpw.start.connect(self.compareMulti)
self.cmpw.refresh_tooltips()
self.cmpw.show()
def pickQualities(self):
return
def compareMulti(self):
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if not self.compareoptions:
return
for key, func, color in self.compareoptions:
if self.cmpw.rb_dict[key].isChecked():
# if radio button is checked break for loop and use func
break
eventlist = func()
# use only events comparable
eventlist_overlap = [event for event in eventlist if self.comparable[event.pylot_id]]
compare_widget = self.buildMultiCompareWidget(eventlist_overlap)
compare_widget.show()
def buildMultiCompareWidget(self, eventlist):
global_comparison = Comparison(eventlist=eventlist)
compare_widget = ComparisonWidget(global_comparison, self)
for events_name, rb in self.cmpw.rb_dict.items():
if rb.isChecked():
break
compare_widget.setWindowTitle('Histograms for {}'.format(events_name))
compare_widget.hideToolbar()
compare_widget.setHistboxChecked(True)
return compare_widget
def getPlotWidget(self):
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return self.dataPlot
@staticmethod
def getWFID(ycoord):
try:
statID = int(round(ycoord))
except TypeError as e:
if 'a float is required' in e.message:
return None
else:
raise e
return statID
def getStationIDs(self, station):
wfIDs = []
for wfID in self.getPlotWidget().getPlotDict().keys():
actual_station = self.getPlotWidget().getPlotDict()[wfID].split('.')[1]
if station == actual_station:
wfIDs.append(wfID)
return wfIDs
def getStime(self):
if self.get_data():
return full_range(self.get_data().getWFData())[0]
def addActions(self, target, actions):
for action in actions:
if action is None:
target.addSeparator()
else:
target.addAction(action)
def okToContinue(self):
if self.dirty:
qmb = QMessageBox(self, icon=QMessageBox.Question,
text='Do you wish to save changes in the current project?')
qmb.setStandardButtons(QMessageBox.Save | QMessageBox.Discard | QMessageBox.Cancel)
qmb.setDefaultButton(QMessageBox.Save)
ret = qmb.exec_()
if ret == qmb.Save:
return self.saveProject()
elif ret == qmb.Cancel:
return False
return True
def enableRefTestButtons(self, bool):
'''
Enable/disable reference and test event selection buttons.
'''
self.ref_event_button.setEnabled(bool)
self.test_event_button.setEnabled(bool)
def refreshRefTestButtons(self):
'''
Refresh state of reference and test event selection buttons depending on current event.
'''
event = self.get_current_event()
if event:
self.ref_event_button.setChecked(event.isRefEvent())
self.test_event_button.setChecked(event.isTestEvent())
self.enableRefTestButtons(bool(self.get_current_event().pylot_picks))
return
self.ref_event_button.setChecked(False)
self.test_event_button.setChecked(False)
self.enableRefTestButtons(False)
def toggleRef(self):
'''
Toggle ref/test buttons when reference button gets clicked.
'''
ref = self.ref_event_button.isChecked()
self.test_event_button.setChecked(False)
self.get_current_event().setTestEvent(False)
self.get_current_event().setRefEvent(ref)
self.fill_eventbox()
self.refreshTabs()
if self.tap:
self.tap.fill_eventbox()
def toggleTest(self):
'''
Toggle ref/test buttons when test button gets clicked.
'''
test = self.test_event_button.isChecked()
self.ref_event_button.setChecked(False)
self.get_current_event().setRefEvent(False)
self.get_current_event().setTestEvent(test)
self.fill_eventbox()
self.refreshTabs()
if self.tap:
self.tap.fill_eventbox()
def checkEventButtons(self):
if self.eventBox.currentIndex() == 0:
prev_state = False
else:
prev_state = True
if self.eventBox.currentIndex() == len(self.project.eventlist) - 1:
next_state = False
else:
next_state = True
self.previous_button.setEnabled(prev_state)
self.next_button.setEnabled(next_state)
def previous_event(self):
self.eventBox.setCurrentIndex(self.eventBox.currentIndex() - 1)
self.eventBox.activated.emit(-1)
def next_event(self):
self.eventBox.setCurrentIndex(self.eventBox.currentIndex() + 1)
self.eventBox.activated.emit(+1)
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def refreshEvents(self):
'''
Refresh GUI when events get changed.
'''
# Attribute _eventChanged refers to change in first _eventChanged[0]
# and second _eventChanged[1] main tabs.
# E.g. plotting is not necessary when changing event in second tab and
# array_map refresh is not necessary when changing event in waveform plot tab,
# but gets necessary when switching from one to another after changing an event.
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self._eventChanged = [True, True]
self.checkEventButtons()
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self.refreshTabs()
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def refreshTabs(self):
'''
Refresh main tabs depending on change of the current event in first/second tab.
'''
# Logical problem appearing somewhere when calling this function:
# Loading an existing project from array_tab leads to two calls of newWF
# which will read in data input twice. Therefore current tab is changed to 0
# in loadProject before calling this function.
plotted = False
if self.tabs.currentIndex() == 2:
self.init_event_table()
self.refreshRefTestButtons()
# only refresh first/second tab when an event was changed.
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if self._eventChanged[0] or self._eventChanged[1]:
event = self.get_current_event()
if not event:
return
# if current tab is waveformPlot-tab and the data in this tab was not yet refreshed
if self.tabs.currentIndex() == 0:
if self._eventChanged[0]:
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if hasattr(self.project, 'eventlist'):
if len(self.project.eventlist) > 0:
self.newWF()
# keep track whether event was already plotted
plotted = True
# if current tab is array_map-tab and the data in this tab was not yet refreshed
if self.tabs.currentIndex() == 1:
if self._eventChanged[1]:
self.refresh_array_map()
self.fill_eventbox()
if not plotted and self._eventChanged[0]:
# newWF(plot=False) = load data without plotting
self.newWF(plot=False)
self.update_obspy_dmt()
self.refresh_array_map()
def newWF(self, event=None, plot=True):
'''
Load new data and plot if necessary.
'''
self.loadWaveformDataThread(plot=plot)
if plot:
self._eventChanged[0] = False
def loadWaveformDataThread(self, plot=True, load=True):
'''
Generates a modal thread to load waveform data and
call modal plot thread method when finished.
'''
if load:
self.prepareLoadWaveformData()
self.wfd_thread = Thread(self, self.loadWaveformData,
progressText='Reading data input...',
pb_widget=self.mainProgressBarWidget)
if load and plot:
self.wfd_thread.finished.connect(self.plotWaveformDataThread)
if load:
self.wfd_thread.start()
if plot and not load:
self.plotWaveformDataThread()
def prepareLoadWaveformData(self):
self.fnames = self.getWFFnames_from_eventbox()
self.fnames_syn = []
eventpath = self.get_current_event_path()
basepath = eventpath.split(os.path.basename(eventpath))[0]
self.obspy_dmt = check_obspydmt_structure(basepath)
self.dataPlot.activateObspyDMToptions(self.obspy_dmt)
if self.obspy_dmt:
self.prepareObspyDMT_data(eventpath)
def loadWaveformData(self):
'''
Load waveform data corresponding to current selected event.
'''
# if self.fnames and self.okToContinue():
# self.setDirty(True)
# ans = self.data.setWFData(self.fnames)
# elif self.fnames is None and self.okToContinue():
# ans = self.data.setWFData(self.getWFFnames())
# else:
# ans = False
self.data.setWFData(self.fnames,
self.fnames_syn,
checkRotated=True,
metadata=self.metadata)
def prepareObspyDMT_data(self, eventpath):
qcbox_processed = self.dataPlot.qcombo_processed
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qcheckb_syn = self.dataPlot.syn_checkbox
qcbox_processed.setEnabled(False)
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qcheckb_syn.setEnabled(False)
for fpath in os.listdir(eventpath):
fpath = fpath.split('/')[-1]
if 'syngine' in fpath:
eventpath_syn = os.path.join(eventpath, fpath)
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qcheckb_syn.setEnabled(True)
if self.dataPlot.syn_checkbox.isChecked():
self.fnames_syn = [os.path.join(eventpath_syn, filename) for filename in os.listdir(eventpath_syn)]
if 'processed' in fpath:
qcbox_processed.setEnabled(True)
if qcbox_processed.isEnabled():
wftype = qcbox_processed.currentText()
else:
wftype = 'raw'
qcbox_processed.setCurrentIndex(qcbox_processed.findText(wftype))
eventpath_dmt = os.path.join(eventpath, wftype)
self.fnames = [os.path.join(eventpath_dmt, filename) for filename in os.listdir(eventpath_dmt)]
# def setWFstatus(self):
# '''
# show status of current data, can be either 'raw' or 'processed'
# :param status:
# :return:
# '''
# status = self.data.processed
# wf_stat_color = {True: 'green',
# False: 'black',
# None: None}
# wf_stat = {True: 'processed',
# False: 'raw',
# None: None}
# self.dataPlot.setQCboxItem(wf_stat[status])
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def check_plot_quantity(self):
"""
Check the amount of samples to be plotted and ask user to reduce the amount if it is too large.
:rtype: None
"""
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settings = QSettings()
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nth_sample = int(settings.value("nth_sample")) if settings.value("nth_sample") else 1
npts_max = 1e7
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npts = self.get_npts_to_plot()
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npts2plot = npts / nth_sample
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if npts2plot < npts_max:
settings.setValue('large_dataset', False)
else:
settings.setValue('large_dataset', True)
self.update_status('Dataset is very large. Using fast plotting method (MIN/MAX)', 10000)
settings.sync()
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# nth_sample_new = int(np.ceil(npts/npts_max))
# message = "You are about to plot a huge dataset with {npts} datapoints. With a current setting of " \
# "nth_sample = {nth_sample} a total of {npts2plot} points will be plotted which is more " \
# "than the maximum setting of {npts_max}. " \
# "PyLoT recommends to raise nth_sample from {nth_sample} to {nth_sample_new}. Do you want "\
# "to change nth_sample to {nth_sample_new} now?"
#
# ans = QMessageBox.question(self, self.tr("Optimize plot performance..."),
# self.tr(message.format(npts=npts,
# nth_sample=nth_sample,
# npts_max=npts_max,
# nth_sample_new=nth_sample_new,
# npts2plot=npts2plot)),
# QMessageBox.Yes | QMessageBox.No,
# QMessageBox.Yes)
# if ans == QMessageBox.Yes:
# settings.setValue("nth_sample", nth_sample_new)
# settings.sync()
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def get_npts_to_plot(self):
return sum(trace.stats.npts for trace in self.data.getWFData())
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def connectWFplotEvents(self):
'''
Connect signals refering to WF-Dataplot (select station, tutor_user, scrolling)
'''
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if self.pg:
self.connect_pg()
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else:
self.connect_mpl()
def connect_pg(self):
self.poS_id = self.dataPlot.plotWidget.scene().sigMouseClicked.connect(self.pickOnStation)
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def connect_mpl(self):
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if not self.poS_id:
self.poS_id = self.dataPlot.mpl_connect('button_press_event',
self.pickOnStation)
if not self.ae_id:
self.ae_id = self.dataPlot.mpl_connect('axes_enter_event',
lambda event: self.tutor_user())
if not self.scroll_id:
self.scroll_id = self.dataPlot.mpl_connect('scroll_event',
self.scrollPlot)
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def disconnectWFplotEvents(self):
'''
Disconnect all signals refering to WF-Dataplot (select station, tutor_user, scrolling)
'''
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if self.pg:
self.disconnect_pg()
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else:
self.disconnect_mpl()
def disconnect_pg(self):
if self.poS_id:
try:
self.dataPlot.plotWidget.scene().sigMouseClicked.disconnect()
except:
pass
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def disconnect_mpl(self):
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if self.poS_id:
self.dataPlot.mpl_disconnect(self.poS_id)
if self.ae_id:
self.dataPlot.mpl_disconnect(self.ae_id)
if self.scroll_id:
self.dataPlot.mpl_disconnect(self.scroll_id)
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self.poS_id = None
self.ae_id = None
self.scroll_id = None
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def finish_pg_plot(self):
self.getPlotWidget().updateWidget()
plots, gaps = self.wfp_thread.data
# do not show plot if no data are given
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self.wf_scroll_area.setVisible(len(plots) > 0)
self.no_data_label.setVisible(not len(plots) > 0)
for times, data, times_syn, data_syn in plots:
self.dataPlot.plotWidget.getPlotItem().plot(times, data,
pen=self.dataPlot.pen_linecolor)
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if len(data_syn) > 0:
self.dataPlot.plotWidget.getPlotItem().plot(times_syn, data_syn,
pen=self.dataPlot.pen_linecolor_syn)
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self.dataPlot.reinitMoveProxy()
self.highlight_stations()
def finishWaveformDataPlot(self):
self.comparable = self.checkEvents4comparison()
if self.pg:
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self.finish_pg_plot()
else:
self._max_xlims = self.dataPlot.getXLims(self.dataPlot.axes[0])
plotWidget = self.getPlotWidget()
plotDict = plotWidget.getPlotDict()
pos = plotDict.keys()
labels = ['{}.{}'.format(*plotDict[n].split('.')[:-2]) for n in pos]
plotWidget.setYTickLabels(pos, labels)
try:
plotWidget.figure.tight_layout()
except:
pass
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self.connectWFplotEvents()
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self.loadlocationaction.setEnabled(True)
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self.auto_tune.setEnabled(True)
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self.auto_pick.setEnabled(True)
self.auto_pick_local.setEnabled(True)
self.auto_pick_sge.setEnabled(True)
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self.autoPickMenu.setEnabled(True)
self.z_action.setEnabled(True)
self.e_action.setEnabled(True)
self.n_action.setEnabled(True)
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self.openEventAction.setEnabled(True)
self.openEventsAutoAction.setEnabled(True)
self.loadpilotevent.setEnabled(True)
self.enableSaveEventAction()
event = self.get_current_event()
if event.pylot_picks:
self.drawPicks(picktype='manual')
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self.locateEventAction.setEnabled(True)
self.qualities_action.setEnabled(True)
if event.pylot_autopicks:
self.drawPicks(picktype='auto')
self.qualities_action.setEnabled(True)
if True in self.comparable.values():
self.compare_action.setEnabled(True)
self.draw()
# TODO: Quick and dirty, improve this later
self.update_obspy_dmt()
def update_obspy_dmt(self):
if self.obspy_dmt:
invpath = os.path.join(self.get_current_event_path(), 'resp')
if not invpath in self.metadata.inventories:
self.metadata.add_inventory(invpath)
# check if directory is empty
if os.listdir(invpath):
self.init_map_button.setEnabled(True)
self.initMapAction.setEnabled(True)
@staticmethod
def checkEvent4comparison(event):
if event.pylot_picks and event.pylot_autopicks:
for station in event.pylot_picks:
if station in event.pylot_autopicks:
try:
autopick_p = event.pylot_autopicks[station]['P']['spe']
except KeyError:
autopick_p = None
try:
manupick_p = event.pylot_picks[station]['P']['spe']
except KeyError:
manupick_p = None
try:
autopick_s = event.pylot_autopicks[station]['S']['spe']
except KeyError:
autopick_s = None
try:
manupick_s = event.pylot_picks[station]['S']['spe']
except KeyError:
manupick_s = None
if autopick_p and manupick_p:
return True
elif autopick_s and manupick_s:
return True
return False
def checkEvents4comparison(self):
# init dict to keep track whether event can be compared
comparable = {}
for event in self.project.eventlist:
comparable[event.pylot_id] = self.checkEvent4comparison(event)
return comparable
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def clearWaveformDataPlot(self, refresh_plot=False):
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self.disconnectWFplotEvents()
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if self.pg:
self.dataPlot.plotWidget.getPlotItem().clear()
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else:
for ax in self.dataPlot.axes:
ax.cla()
self.loadlocationaction.setEnabled(False)
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self.auto_tune.setEnabled(False)
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self.auto_pick.setEnabled(False)
self.auto_pick_local.setEnabled(False)
self.auto_pick_sge.setEnabled(False)
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self.autoPickMenu.setEnabled(False)
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self.z_action.setEnabled(False)
self.e_action.setEnabled(False)
self.n_action.setEnabled(False)
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self.openEventAction.setEnabled(False)
self.openEventsAutoAction.setEnabled(False)
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self.loadpilotevent.setEnabled(False)
self.compare_action.setEnabled(False)
self.qualities_action.setEnabled(False)
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self.locateEventAction.setEnabled(False)
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if not refresh_plot:
self.wf_scroll_area.setVisible(False)
self.no_data_label.setVisible(True)
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self.disableSaveEventAction()
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self.draw()
def plotWaveformDataThread(self, filter=True):
'''
Open a modal thread to plot current waveform data.
'''
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self.check_plot_quantity()
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self.clearWaveformDataPlot(refresh_plot=True)
self.wfp_thread = Thread(self, self.plotWaveformData,
arg=filter,
progressText='Plotting waveform data...',
pb_widget=self.mainProgressBarWidget)
self.wfp_thread.finished.connect(self.finishWaveformDataPlot)
self.wfp_thread.start()
def plotWaveformData(self, filter=True):
'''
Plot waveform data to current plotWidget.
'''
settings = QSettings()
nth_sample = settings.value('nth_sample')
if not nth_sample:
nth_sample = 1
zne_text = {'Z': 'vertical', 'N': 'north-south', 'E': 'east-west'}
comp = self.getComponent()
title = 'section: {0} components'.format(zne_text[comp])
wfst = self.get_data().getWFData()
wfsyn = self.get_data().getSynWFData()
if self.filterActionP.isChecked() and filter:
self.filterWaveformData(plot=False, phase='P')
elif self.filterActionS.isChecked() and filter:
self.filterWaveformData(plot=False, phase='S')
# wfst = self.get_data().getWFData().select(component=comp)
# wfst += self.get_data().getWFData().select(component=alter_comp)
plotWidget = self.getPlotWidget()
self.adjustPlotHeight()
if real_Bool(settings.value('large_dataset')) == True:
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self.plot_method = 'fast'
else:
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self.plot_method = 'normal'
rval = plotWidget.plotWFData(wfdata=wfst, wfsyn=wfsyn, title=title, mapping=False, component=comp,
nth_sample=int(nth_sample), method=self.plot_method)
plots, gaps = rval if rval else ([], [])
return plots, gaps
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def adjustPlotHeight(self):
if self.pg:
return
height_need = len(self.data.getWFData()) * self.height_factor
plotWidget = self.getPlotWidget()
if self.tabs.widget(0).frameSize().height() < height_need:
plotWidget.setMinimumHeight(height_need)
else:
plotWidget.setMinimumHeight(0)
def plotZ(self):
self.setComponent('Z')
self.plotWaveformDataThread()
# self.drawPicks()
# self.draw()
def plotN(self):
self.setComponent('N')
self.plotWaveformDataThread()
# self.drawPicks()
# self.draw()
def plotE(self):
self.setComponent('E')
self.plotWaveformDataThread()
# self.drawPicks()
# self.draw()
def pushFilterWF(self, param_args):
self.get_data().filterWFData(param_args)
def filterP(self):
self.filterActionS.setChecked(False)
if self.filterActionP.isChecked():
self.filterWaveformData(phase='P')
else:
self.resetWFData()
def filterS(self):
self.filterActionP.setChecked(False)
if self.filterActionS.isChecked():
self.filterWaveformData(phase='S')
else:
self.resetWFData()
def resetWFData(self):
self.get_data().resetWFData()
self.plotWaveformDataThread()
def filterWaveformData(self, plot=True, phase=None):
if not self.get_current_event():
return
if self.get_data():
if not phase:
if self.filterActionP.isChecked():
phase = 'P'
elif self.filterActionS.isChecked():
phase = 'S'
if self.getFilterOptions():
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if (phase == 'P' and self.filterActionP.isChecked()) or (
phase == 'S' and self.filterActionS.isChecked()):
kwargs = self.getFilterOptions()[phase].parseFilterOptions()
self.pushFilterWF(kwargs)
else:
self.get_data().resetWFData()
elif self.filterActionP.isChecked() or self.filterActionS.isChecked():
self.adjustFilterOptions()
else:
self.get_data().resetWFData()
if plot:
self.plotWaveformDataThread(filter=False)
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# self.drawPicks()
# self.draw()
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def getAutoFilteroptions(self, phase):
return getAutoFilteroptions(phase, self._inputs)
def adjustFilterOptions(self):
fstring = "Filter Options"
self.filterDlg = FilterOptionsDialog(titleString=fstring,
parent=self)
if self.filterDlg.exec_():
filteroptions = self.filterDlg.getFilterOptions()
self.setFilterOptions(filteroptions)
if self.filterActionP.isChecked() or self.filterActionS.isChecked():
kwargs = self.getFilterOptions()[self.getSeismicPhase()].parseFilterOptions()
self.pushFilterWF(kwargs)
self.plotWaveformDataThread()
return True
def checkFilterOptions(self):
fstring = "Filter Options"
self.filterDlg = FilterOptionsDialog(titleString=fstring,
parent=self)
filteroptions = self.filterDlg.getFilterOptions()
self.setFilterOptions(filteroptions)
filterP = filteroptions['P']
filterS = filteroptions['S']
minP, maxP = filterP.getFreq()
minS, maxS = filterS.getFreq()
self.paraBox.params_to_gui()
def getFilterOptions(self):
return self.filteroptions
# try:
# return self.filteroptions[self.getSeismicPhase()]
# except AttributeError as e:
# print(e)
# return FilterOptions(None, None, None)
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def getFilters(self):
return self.filteroptions
def setFilterOptions(self, filterOptions): # , seismicPhase=None):
# if seismicPhase is None:
# self.getFilterOptions()[self.getSeismicPhase()] = filterOptions
# else:
# self.getFilterOptions()[seismicPhase] = filterOptions
self.filterOptions = filterOptions
filterP = filterOptions['P']
filterS = filterOptions['S']
minP, maxP = filterP.getFreq()
minS, maxS = filterS.getFreq()
self._inputs.setParamKV('minfreq', (minP, minS))
self._inputs.setParamKV('maxfreq', (maxP, maxS))
self._inputs.setParamKV('filter_order', (filterP.getOrder(), filterS.getOrder()))
self._inputs.setParamKV('filter_type', (filterP.getFilterType(), filterS.getFilterType()))
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def filterOptionsFromParameter(self):
minP, minS = self._inputs['minfreq']
maxP, maxS = self._inputs['maxfreq']
orderP, orderS = self._inputs['filter_order']
typeP, typeS = self._inputs['filter_type']
filterP = self.getFilterOptions()['P']
filterP.setFreq([minP, maxP])
filterP.setOrder(orderP)
filterP.setFilterType(typeP)
filterS = self.getFilterOptions()['S']
filterS.setFreq([minS, maxS])
filterS.setOrder(orderS)
filterS.setFilterType(typeS)
self.checkFilterOptions()
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# def updateFilterOptions(self):
# try:
# settings = QSettings()
# if settings.value("filterdefaults",
# None) is None and not self.getFilters():
# for key, value in FILTERDEFAULTS.items():
# self.setFilterOptions(FilterOptions(**value), key)
# elif settings.value("filterdefaults", None) is not None:
# for key, value in settings.value("filterdefaults"):
# self.setFilterOptions(FilterOptions(**value), key)
# except Exception as e:
# self.update_status('Error ...')
# emsg = QErrorMessage(self)
# emsg.showMessage('Error: {0}'.format(e))
# else:
# self.update_status('Filter loaded ... '
# '[{0}: {1} Hz]'.format(
# self.getFilterOptions().getFilterType(),
# self.getFilterOptions().getFreq()))
# if self.filterActionP.isChecked() or self.filterActionS.isChecked():
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# self.filterWaveformData()
def getSeismicPhase(self):
return self.seismicPhase
def getTraceID(self, wfID):
plot_dict = self.getPlotWidget().getPlotDict()
return plot_dict.get(wfID)
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def getNetworkName(self, wfID):
plot_dict = self.getPlotWidget().getPlotDict()
if wfID in plot_dict.keys():
return plot_dict[wfID].split('.')[0]
def getStationName(self, wfID):
plot_dict = self.getPlotWidget().getPlotDict()
if wfID in plot_dict.keys():
return plot_dict[wfID].split('.')[1]
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def getLocationName(self, wfID):
plot_dict = self.getPlotWidget().getPlotDict()
if wfID in plot_dict.keys():
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return plot_dict[wfID].split('.')[2]
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def alterPhase(self):
pass
def setSeismicPhase(self, phase):
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self.seismicPhase = self.seismicPhaseButtonGroup.getValue()
self.update_status('Seismic phase changed to '
'{0}'.format(self.getSeismicPhase()))
def scrollPlot(self, gui_event):
'''
Function connected to mouse wheel scrolling inside WFdataPlot.
Only used if amount of traces exceeds a certain limit creating
a scroll area.
'''
button = gui_event.button
x, y = gui_event.xdata, gui_event.ydata
if not button == 'up' and not button == 'down':
return
if not self._ctrl and not self._shift:
vbar = self.wf_scroll_area.verticalScrollBar()
up_down = {'up': -60,
'down': 60}
if vbar.maximum():
vbar.setValue(vbar.value() + up_down[button])
if self._ctrl:
factor = {'up': 5. / 4.,
'down': 4. / 5.}
self.height_factor *= factor[button]
self.adjustPlotHeight()
if self._shift:
factor = {'up': 1. / 2.,
'down': 2.}
xlims = self.dataPlot.getXLims(self.dataPlot.axes[0])
xdiff = xlims[1] - xlims[0]
xdiff *= factor[button]
xl = x - 0.5 * xdiff
xr = x + 0.5 * xdiff
if xl < self._max_xlims[0]:
xl = self._max_xlims[0]
if xr > self._max_xlims[1]:
xr = self._max_xlims[1]
self.dataPlot.setXLims(self.dataPlot.axes[0], (xl, xr))
self.dataPlot.draw()
def pickOnStation(self, gui_event):
if self.pg:
button = gui_event.button()
if not button in [1, 4]:
return
else:
button = gui_event.button
if not button == 1:
return
if self.pg:
ycoord = self.dataPlot.plotWidget.getPlotItem().vb.mapSceneToView(gui_event.scenePos()).y()
else:
ycoord = gui_event.ydata
wfID = self.getWFID(ycoord)
if wfID is None: return
network = self.getNetworkName(wfID)
station = self.getStationName(wfID)
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location = self.getLocationName(wfID)
seed_id = self.getTraceID(wfID)
if button == 1:
self.pickDialog(wfID, seed_id)
elif button == 4:
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self.toggle_station_color(wfID, network, station, location)
def toggle_station_color(self, wfID, network, station, location):
black_pen = pg.mkPen((0, 0, 0))
red_pen = pg.mkPen((200, 50, 50))
line_item = self.dataPlot.plotWidget.getPlotItem().listDataItems()[wfID - 1]
current_pen = line_item.opts['pen']
nsl = '{}.{}.{}'.format(network, station, location)
if current_pen == black_pen:
line_item.setPen(red_pen)
if not nsl in self.stations_highlighted:
self.stations_highlighted.append(nsl)
else:
line_item.setPen(black_pen)
if nsl in self.stations_highlighted:
self.stations_highlighted.pop(self.stations_highlighted.index(nsl))
def highlight_stations(self):
for wfID, value in self.getPlotWidget().getPlotDict().items():
station, channel, location, network = value.split('.')
nsl = '{}.{}.{}'.format(network, station, location)
if nsl in self.stations_highlighted:
self.toggle_station_color(wfID, network, station, location)
def pickDialog(self, wfID, seed_id=None):
if not seed_id:
seed_id = self.getTraceID(wfID)
network, station, location = seed_id.split('.')[:3]
if not station or not network:
return
self.update_status('picking on station {0}'.format(station))
data = self.get_data().getOriginalWFData().copy()
event = self.get_current_event()
wftype = self.dataPlot.qcombo_processed.currentText() if self.obspy_dmt else None
pickDlg = PickDlg(self, parameter=self._inputs,
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data=data.select(station=station),
station=station, network=network,
location=location,
picks=self.getPicksOnStation(station, 'manual'),
autopicks=self.getPicksOnStation(station, 'auto'),
metadata=self.metadata, event=event,
filteroptions=self.filteroptions, wftype=wftype)
if self.filterActionP.isChecked() or self.filterActionS.isChecked():
pickDlg.currentPhase = self.getSeismicPhase()
pickDlg.filterWFData()
pickDlg.nextStation.setChecked(self.nextStation)
pickDlg.nextStation.stateChanged.connect(self.toggle_next_station)
if pickDlg.exec_():
if pickDlg._dirty:
self.setDirty(True)
self.update_status('picks accepted ({0})'.format(station))
self.addPicks(station, pickDlg.getPicks(picktype='manual'), type='manual')
self.addPicks(station, pickDlg.getPicks(picktype='auto'), type='auto')
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self.enableSaveEventAction()
self.comparable = self.checkEvents4comparison()
if True in self.comparable.values():
self.compare_action.setEnabled(True)
self.drawPicks(station)
self.draw()
if self.nextStation:
self.pickDialog(wfID - 1)
else:
self.update_status('picks discarded ({0})'.format(station))
if not self.get_loc_flag() and self.check4Loc():
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self.locateEventAction.setEnabled(True)
self.set_loc_flag(True)
elif self.get_loc_flag() and not self.check4Loc():
self.set_loc_flag(False)
def toggle_next_station(self, signal):
self.nextStation = bool(signal)
def addListItem(self, text):
textlist = text.split('\n')
for text in textlist:
self.listWidget.addItem(text)
self.listWidget.scrollToBottom()
def init_fig_dict(self):
self.fig_dict = {}
self.fig_keys = [
'mainFig',
'aicFig',
'slength',
'checkZ4s',
'refPpick',
'el_Ppick',
'fm_picker',
'el_S1pick',
'el_S2pick',
'refSpick',
'aicARHfig',
'plot_style'
]
for key in self.fig_keys:
if key == 'plot_style':
fig = self._style
else:
fig = Figure()
self.fig_dict[key] = fig
def init_canvas_dict(self):
self.canvas_dict = {}
for key in self.fig_keys:
if not key == 'plot_style':
self.canvas_dict[key] = PylotCanvas(self.fig_dict[key], parent=self)
def init_fig_dict_wadatijack(self, eventIDs):
self.fig_dict_wadatijack = {}
self.fig_keys_wadatijack = [
'jackknife',
'wadati',
'plot_style'
]
for eventID in eventIDs:
self.fig_dict_wadatijack[eventID] = {}
for key in self.fig_keys_wadatijack:
if key == 'plot_style':
fig = self._style
else:
fig = Figure()
self.fig_dict_wadatijack[eventID][key] = fig
def init_canvas_dict_wadatijack(self):
self.canvas_dict_wadatijack = {}
for eventID in self.fig_dict_wadatijack.keys():
self.canvas_dict_wadatijack[eventID] = {}
for key in self.fig_keys_wadatijack:
if not key == 'plot_style':
self.canvas_dict_wadatijack[eventID][key] = PylotCanvas(self.fig_dict_wadatijack[eventID][key],
parent=self)
def tune_autopicker(self):
'''
Initiates TuneAutopicker widget used to interactively
tune parameters for autopicking algorithm.
'''
# figures and canvas have to be iniated from the main GUI
# thread to prevent handling of QPixmap objects outside of
# the main thread
self.init_fig_dict()
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# if not self.tap:
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# init TuneAutopicker object
self.tap = TuneAutopicker(self, self.obspy_dmt)
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# first call of update to init tabs with empty canvas
self.update_autopicker()
# connect update signal of TuneAutopicker with update function
# creating and filling figure canvas
self.tap.update.connect(self.update_autopicker)
self.tap.figure_tabs.setCurrentIndex(0)
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# else:
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# self.update_autopicker()
# self.tap.fill_eventbox()
self.tap.showMaximized()
def update_autopicker(self):
'''
Create and fill TuneAutopicker tabs with figure canvas.
'''
self.init_canvas_dict()
self.tap.fill_tabs(picked=True)
for canvas in self.canvas_dict.values():
canvas.setZoomBorders2content()
if self.tap.pylot_picks:
station = self.tap.get_current_station()
p_pick = self.tap.pylot_picks[station].get('P')
if p_pick:
self.tap.pickDlg.autopicks['P_tuning'] = p_pick
self.tap.pickDlg.drawPicks(phase='P_tuning', picktype='auto', picks=p_pick)
s_pick = self.tap.pylot_picks[station].get('S')
if s_pick:
self.tap.pickDlg.autopicks['S_tuning'] = s_pick
self.tap.pickDlg.drawPicks(phase='S_tuning', picktype='auto', picks=s_pick)
def autoPick(self):
autosave = self.get_current_event_path()
if not os.path.exists(autosave):
QMessageBox.warning(self, "PyLoT Warning",
"No autoPyLoT output declared!")
return
if not self.apw:
# init event selection options for autopick
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self.pickoptions = [('current event', self.get_current_event, None),
('tune events', self.get_ref_events, self._style['ref']['rgba']),
('test events', self.get_test_events, self._style['test']['rgba']),
('all (picked) events', self.get_manu_picked_events, None),
('all events', self.get_all_events, None)]
self.listWidget = QListWidget()
self.setDirty(True)
self.apw = AutoPickWidget(self, self.pickoptions)
self.apw.insert_log_widget(self.listWidget)
self.apw.refresh_tooltips()
self.apw.start.connect(self.start_autopick)
self.apw.show()
def start_autopick(self):
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if not self.pickoptions:
return
for key, func, _ in self.pickoptions:
if self.apw.rb_dict[key].isChecked():
# if radio button is checked break for loop and use func
break
events = func()
if not type(events) == list:
events = [events]
eventPaths = self.get_event_paths(events)
eventIDs = self.get_event_ids(events)
self.init_fig_dict_wadatijack(eventIDs)
if not eventPaths:
self.addListItem("No events found for '{}'".format(key))
return
else:
self.addListItem("Picking the following events ({}):".format(key))
for eventID in eventPaths:
self.addListItem(str(eventID))
self.apw.enable(False)
# export current picks etc.
self.exportEvents(['.xml'], events=events)
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wfpath = self.dataPlot.qcombo_processed.currentText() if self.obspy_dmt else ''
# define arguments for picker
args = {'parameter': self._inputs,
'station': 'all',
'fnames': 'None',
'eventid': eventPaths,
'iplot': 0,
'fig_dict': None,
'fig_dict_wadatijack': self.fig_dict_wadatijack,
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'savexml': False,
'obspyDMT_wfpath': wfpath}
# init pick thread
self.mp_thread = QtCore.QThreadPool()
self.mp_worker = Worker(autoPyLoT, args, redirect_stdout=True)
self.addListItem(str(self._inputs))
self.mp_worker.signals.message.connect(self.addListItem)
self.mp_worker.signals.result.connect(self.finalizeAutoPick)
self.mp_worker.signals.finished.connect(self.enableAutoPickWidget)
self.mp_thread.start(self.mp_worker)
def autoPickProject(self):
if not self.apd_local:
self.apd_local = AutoPickDlg(self, sge=False)
self.apd_local.show()
def autoPickProjectSGE(self):
if not self.apd_sge:
self.apd_sge = AutoPickDlg(self, sge=True)
self.apd_sge.show()
def finalizeAutoPick(self, result):
if result:
self.init_canvas_dict_wadatijack()
for eventID in result.keys():
event = self.get_event_from_id(eventID)
if not event:
continue
event.addAutopicks(result[eventID])
jkw = CanvasWidget(self, self.canvas_dict_wadatijack[eventID]['jackknife'])
wdw = CanvasWidget(self, self.canvas_dict_wadatijack[eventID]['wadati'])
self.apw.add_plot_widget(jkw, 'Jackknife', eventID)
self.apw.add_plot_widget(wdw, 'Wadati', eventID)
self.apw.update_plots()
self.drawPicks(picktype='auto')
self.draw()
def enableAutoPickWidget(self, event=None):
self.apw.enable(True)
def get_event_from_id(self, eventID):
for event in self.project.eventlist:
if event.pylot_id == eventID:
return event
@staticmethod
def get_event_paths(eventlist):
eventPaths = []
for event in eventlist:
eventPaths.append(event.path)
return eventPaths
@staticmethod
def get_event_ids(eventlist):
eventIDs = []
for event in eventlist:
eventIDs.append(event.pylot_id)
return eventIDs
def get_all_events(self):
return self.project.eventlist
def get_ref_events(self):
events = []
for event in self.project.eventlist:
if event.isRefEvent():
events.append(event)
return events
def get_test_events(self):
events = []
for event in self.project.eventlist:
if event.isTestEvent():
events.append(event)
return events
def get_manu_picked_events(self):
events = []
for event in self.project.eventlist:
if len(event.pylot_picks) > 0:
events.append(event)
return events
def addPicks(self, station, picks, type='manual'):
stat_picks = self.getPicksOnStation(station, type)
if not stat_picks:
rval = False
else:
rval = True
event = self.get_current_event()
# create dictionary switch
automanu = {'manual': event.setPick,
'auto': event.setAutopick}
# dictionary consisting of set station only
automanu[type](station=station, pick=picks)
return rval
# if not stat_picks:
# stat_picks = picks
# else:
# msgBox = QMessageBox(self)
# msgBox.setText("The picks for station {0} have been "
# "changed.".format(station))
# msgBox.setDetailedText("Old picks:\n"
# "{old_picks}\n\n"
# "New picks:\n"
# "{new_picks}".format(old_picks=stat_picks,
# new_picks=picks))
# msgBox.setInformativeText("Do you want to save your changes?")
# msgBox.setStandardButtons(QMessageBox.Save | QMessageBox.Cancel)
# msgBox.setDefaultButton(QMessageBox.Save)
# ret = msgBox.exec_()
# if ret == QMessageBox.Save:
# stat_picks = picks
# rval = True
# elif ret == QMessageBox.Cancel:
# pass
# else:
# raise Exception('FATAL: Should never occur!')
# MP MP prompt redundant because new picks have to be accepted in the first place closing PickDlg
def updatePicks(self, type='manual', event=None):
if not event:
event = self.get_current_event()
picksdict = picksdict_from_picks(evt=self.get_data().get_evt_data())
if type == 'manual':
event.addPicks(picksdict['manual'])
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# event.picks.update(picks) MP MP idea
elif type == 'auto':
event.addAutopicks(picksdict['auto'])
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def drawPicks(self, station=None, picktype=None, stime=None):
# if picktype not specified, draw both
if not stime:
stime = self.getStime()
if not picktype:
self.drawPicks(station, 'manual', stime)
self.drawPicks(station, 'auto', stime)
return
if not picktype in ['manual', 'auto']:
raise TypeError('Unknown picktype {0}'.format(picktype))
# if picks to draw not specified, draw all picks available
if not station:
for station in self.getPicks(type=picktype):
self.drawPicks(station, picktype=picktype, stime=stime)
return
if self.pg:
pw = self.getPlotWidget().plotWidget
else:
ax = self.getPlotWidget().axes[0]
if station in self.drawnPicks[picktype].keys():
for item in self.drawnPicks[picktype][station]:
pw.removeItem(item)
self.drawnPicks[picktype][station] = []
# check for station key in dictionary, else return
if not station in self.getPicks(type=picktype):
return
# plotting picks
plotIDs = self.getStationIDs(station)
if not plotIDs:
return
for plotID in plotIDs:
ylims = np.array([-.5, +.5]) + plotID
stat_picks = self.getPicks(type=picktype)[station]
settings = QSettings()
for phase in stat_picks:
if phase == 'SPt': continue # wadati SP time
picks = stat_picks[phase]
if type(stat_picks[phase]) is not dict and type(stat_picks[phase]) is not AttribDict:
return
phaseID = self.getPhaseID(phase)
# get quality classes
if phaseID == 'P':
quality = getQualityFromUncertainty(picks['spe'], self._inputs['timeerrorsP'])
elif phaseID == 'S':
quality = getQualityFromUncertainty(picks['spe'], self._inputs['timeerrorsS'])
# quality = getPickQuality(self.get_data().getWFData(),
# stat_picks, self._inputs, phaseID,
# compclass)
mpp = picks['mpp'] - stime
if picks['epp'] and picks['lpp']:
epp = picks['epp'] - stime
lpp = picks['lpp'] - stime
else:
epp = None
lpp = None
spe = picks['spe']
if self.pg:
if spe:
if picks['epp'] and picks['lpp']:
pen = make_pen(picktype, phaseID, 'epp', quality)
self.drawnPicks[picktype][station].append(pw.plot([epp, epp], ylims,
alpha=.25, pen=pen, name='EPP'))
pen = make_pen(picktype, phaseID, 'lpp', quality)
self.drawnPicks[picktype][station].append(pw.plot([lpp, lpp], ylims,
alpha=.25, pen=pen, name='LPP'))
pen = make_pen(picktype, phaseID, 'spe', quality)
spe_l = pg.PlotDataItem([mpp - spe, mpp - spe], ylims, pen=pen,
name='{}-SPE'.format(phase))
spe_r = pg.PlotDataItem([mpp + spe, mpp + spe], ylims, pen=pen)
try:
color = pen.color()
color.setAlpha(100.)
brush = pen.brush()
brush.setColor(color)
fill = pg.FillBetweenItem(spe_l, spe_r, brush=brush)
fb = pw.addItem(fill)
self.drawnPicks[picktype][station].append(fill)
except:
print('Warning: drawPicks: Could not create fill for symmetric pick error.')
pen = make_pen(picktype, phaseID, 'mpp', quality)
self.drawnPicks[picktype][station].append(
pw.plot([mpp, mpp], ylims, pen=pen, name='{}-Pick'.format(phase)))
else:
if picktype == 'manual':
linestyle_mpp, width_mpp = pick_linestyle_plt(picktype, 'mpp')
color = pick_color_plt(picktype, self.getPhaseID(phase), quality)
if picks['epp'] and picks['lpp']:
ax.fill_between([epp, lpp], ylims[0], ylims[1],
alpha=.25, color=color, label='EPP, LPP')
if spe:
linestyle_spe, width_spe = pick_linestyle_plt(picktype, 'spe')
ax.plot([mpp - spe, mpp - spe], ylims, color=color, linestyle=linestyle_spe,
linewidth=width_spe, label='{}-SPE'.format(phase))
ax.plot([mpp + spe, mpp + spe], ylims, color=color, linestyle=linestyle_spe,
linewidth=width_spe)
ax.plot([mpp, mpp], ylims, color=color, linestyle=linestyle_mpp, linewidth=width_mpp,
label='{}-Pick (quality: {})'.format(phase, quality), picker=5)
else:
ax.plot([mpp, mpp], ylims, color=color, linestyle=linestyle_mpp, linewidth=width_mpp,
label='{}-Pick (NO PICKERROR)'.format(phase), picker=5)
elif picktype == 'auto':
color = pick_color_plt(picktype, phase, quality)
linestyle_mpp, width_mpp = pick_linestyle_plt(picktype, 'mpp')
ax.plot(mpp, ylims[1], color=color, marker='v')
ax.plot(mpp, ylims[0], color=color, marker='^')
ax.vlines(mpp, ylims[0], ylims[1], color=color, linestyle=linestyle_mpp, linewidth=width_mpp,
picker=5, label='{}-Autopick (quality: {})'.format(phase, quality))
else:
raise TypeError('Unknown picktype {0}'.format(picktype))
def locate_event(self):
"""
locate event using the manually picked phases
:return:
"""
if not self.okToContinue():
return
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parameter = self._inputs
loctool = 'nll'
lt = locateTool[loctool]
# get working directory
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locroot = parameter['nllocroot']
if locroot is None:
self.PyLoTprefs()
self.locate_event()
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ctrfile = os.path.join(locroot, 'run', parameter['ctrfile'])
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ttt = parameter['ttpatter']
outfile = parameter['outpatter']
eventname = self.get_current_event_name()
obsdir = os.path.join(self._inputs['rootpath'], self._inputs['datapath'], self._inputs['database'], eventname)
self.saveData(event=self.get_current_event(), directory=obsdir, outformats='.obs')
filename = 'PyLoT_' + eventname
locpath = os.path.join(locroot, 'loc', filename)
phasefile = os.path.join(obsdir, filename + '.obs')
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lt.modify_inputs(ctrfile, locroot, filename, phasefile, ttt)
try:
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lt.locate(ctrfile)
except RuntimeError as e:
print(e.message)
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# finally:
# os.remove(phasefile)
self.get_data().applyEVTData(lt.read_location(locpath), typ='event')
# self.get_data().applyEVTData(self.calc_magnitude(), typ='event')
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def init_array_tab(self):
'''
Init second main tab if neither metadata nor
array map are given. A button will be show calling self.get_metadata.
'''
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if hasattr(self, 'metadata_widget'):
if self.metadata_widget:
self.metadata_widget.setParent(None)
self.array_layout.removeWidget(self.metadata_widget)
if hasattr(self, 'array_map'):
if self.array_map:
self.array_map.setParent(None)
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self.array_layout.removeWidget(self.array_map)
self.metadata_widget = QWidget(self)
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grid_layout = QGridLayout()
grid_layout.setColumnStretch(0, 1)
grid_layout.setColumnStretch(2, 1)
grid_layout.setRowStretch(0, 1)
grid_layout.setRowStretch(4, 1)
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self.inventory_label = QLabel('No inventory set...')
# init inventory button
self.new_inv_button = QPushButton('Manage inventory files')
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self.new_inv_button.setIcon(self.inventoryIcon)
self.new_inv_button.clicked.connect(self.inventoryAction.trigger)
self.init_map_button = QPushButton('Init array map')
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self.init_map_button.setIcon(self.mapIcon)
self.init_map_button.clicked.connect(self.initMapAction.trigger)
self.init_map_button.setEnabled(False)
grid_layout.addWidget(self.inventory_label, 1, 1)
grid_layout.addWidget(self.new_inv_button, 2, 1)
grid_layout.addWidget(self.init_map_button, 3, 1)
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self.metadata_widget.setLayout(grid_layout)
self.array_layout.addWidget(self.metadata_widget)
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def init_array_map(self, index=1):
'''
Try to init array map widget. If no metadata are given,
self.get_metadata will be called.
'''
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self.tabs.setCurrentIndex(1)
# if there is no metadata (invetories is an empty list), just initialize the default empty tab
if not self.metadata.inventories:
self.init_array_tab()
return
if hasattr(self, 'metadata_widget'):
if self.metadata_widget:
self.metadata_widget.setParent(None)
self.array_layout.removeWidget(self.metadata_widget)
if hasattr(self, 'array_map'):
if self.array_map:
self.array_map.setParent(None)
self.array_layout.removeWidget(self.array_map)
elif not self.array_map:
self.init_metadata()
if not self.metadata:
return
self.array_map = Array_map(self)
# self.array_map_thread()
self.array_layout.addWidget(self.array_map)
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self.tabs.setCurrentIndex(index)
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self.refresh_array_map()
def array_map_thread(self):
'''
Start modal thread to init the array_map object.
'''
# Note: basemap generation freezes GUI but cannot be threaded as it generates a Pixmap.
self.amt = Thread(self, self.array_map.init_map, arg=None, progressText='Generating map...',
pb_widget=self.mainProgressBarWidget)
self.amt.finished.connect(self.finish_array_map)
self.amt.start()
def finish_array_map(self):
'''
Add array_map to GUI tab when array_map_thread has finished.
'''
self.array_map = self.amt.data
self.array_layout.addWidget(self.array_map)
# self.tabs.setCurrentIndex(index)
# self.refresh_array_map()
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def refresh_array_map(self):
'''
Refresh array map when current event is changed.
'''
if not self.array_map:
return
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# refresh with new picks here!!!
event = self.get_current_event()
if hasattr(event, 'origins'):
if event.origins:
lat = event.origins[0].latitude
lon = event.origins[0].longitude
self.array_map.eventLoc = (lat, lon)
if self.get_current_event():
self.array_map.refresh_drawings(self.get_current_event().getPicks(),
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self.get_current_event().getAutopicks(), )
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self._eventChanged[1] = False
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def init_event_table(self, tabindex=2):
'''
Build and initiate event table (3rd tab [index=2]) containing information of every event.
'''
def set_enabled(item, selectable=True, checkable=False):
# modify item flags depending on case needed
if selectable and not checkable:
item.setFlags(QtCore.Qt.ItemIsEnabled | QtCore.Qt.ItemIsSelectable)
elif selectable and checkable:
item.setFlags(QtCore.Qt.ItemIsEnabled | QtCore.Qt.ItemIsUserCheckable | QtCore.Qt.ItemIsSelectable)
else:
item.setFlags(QtCore.Qt.ItemIsEnabled)
if self.project:
eventlist = self.project.eventlist
else:
eventlist = []
def cell_clicked(row=None, column=None):
table = self.project._table
event = self.project.getEventFromPath(table[row][1].text().split('*')[0])
if column == 0:
self.remove_event(event)
def cell_changed(row=None, column=None):
# connected to cell changes in event table
# changes attributes of the corresponding event
table = self.project._table
event = self.project.getEventFromPath(table[row][1].text().split('*')[0])
if column == 9 or column == 10:
# toggle checked states (exclusive)
item_ref = table[row][9]
item_test = table[row][10]
if column == 9 and item_ref.checkState():
item_test.setCheckState(QtCore.Qt.Unchecked)
event.setRefEvent(True)
elif column == 9 and not item_ref.checkState():
event.setRefEvent(False)
elif column == 10 and item_test.checkState():
item_ref.setCheckState(QtCore.Qt.Unchecked)
event.setTestEvent(True)
elif column == 10 and not item_test.checkState():
event.setTestEvent(False)
self.fill_eventbox()
elif column == 11:
# update event notes
notes = table[row][11].text()
event.addNotes(notes)
self.fill_eventbox()
event.dirty = True
self.setDirty(True)
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current_event = self.get_current_event()
# generate delete icon
del_icon = QIcon()
del_icon.addPixmap(QPixmap(':/icons/delete.png'))
# remove old table
if hasattr(self, 'event_table'):
self.event_table.setParent(None)
self.events_layout.removeWidget(self.event_table)
# init new qtable
self.event_table = QtGui.QTableWidget(self)
self.event_table.setColumnCount(12)
self.event_table.setRowCount(len(eventlist))
self.event_table.setHorizontalHeaderLabels(['',
'Event',
'Time',
'Lat',
'Lon',
'Depth',
'Mag',
'[N] MP',
'[N] AP',
'Tuning Set',
'Test Set',
'Notes'])
# iterate through eventlist and generate items for table rows
self.project._table = []
for index, event in enumerate(eventlist):
phaseErrors = {'P': self._inputs['timeerrorsP'],
'S': self._inputs['timeerrorsS']}
ma_props = {'manual': event.pylot_picks,
'auto': event.pylot_autopicks}
ma_count = {'manual': 0,
'auto': 0}
ma_count_total = {'manual': 0,
'auto': 0}
for ma in ma_props.keys():
if ma_props[ma]:
for picks in ma_props[ma].values():
for phasename, pick in picks.items():
if not type(pick) in [dict, AttribDict]:
continue
if pick.get('spe'):
ma_count[ma] += 1
ma_count_total[ma] += 1
# init table items for current row
item_delete = QtGui.QTableWidgetItem()
item_delete.setIcon(del_icon)
item_path = QtGui.QTableWidgetItem()
item_time = QtGui.QTableWidgetItem()
item_lat = QtGui.QTableWidgetItem()
item_lon = QtGui.QTableWidgetItem()
item_depth = QtGui.QTableWidgetItem()
item_mag = QtGui.QTableWidgetItem()
item_nmp = QtGui.QTableWidgetItem('{}({})'.format(ma_count['manual'], ma_count_total['manual']))
item_nmp.setIcon(self.manupicksicon_small)
item_nap = QtGui.QTableWidgetItem('{}({})'.format(ma_count['auto'], ma_count_total['auto']))
item_nap.setIcon(self.autopicksicon_small)
item_ref = QtGui.QTableWidgetItem()
item_test = QtGui.QTableWidgetItem()
item_notes = QtGui.QTableWidgetItem()
event_str = event.path
if event.dirty:
event_str += '*'
item_path.setText(event_str)
if hasattr(event, 'origins'):
if event.origins:
origin = event.origins[0]
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item_time.setText(str(origin.time + 0).split('.')[0]) # +0 as workaround in case time=0s
item_lon.setText(str(origin.longitude))
item_lat.setText(str(origin.latitude))
item_depth.setText(str(origin.depth))
if hasattr(event, 'magnitudes'):
if event.magnitudes:
magnitude = event.magnitudes[0]
item_mag.setText(str(magnitude.mag))
item_notes.setText(event.notes)
set_enabled(item_path, True, False)
set_enabled(item_nmp, True, False)
set_enabled(item_nap, True, False)
set_enabled(item_delete, False, False)
if event.pylot_picks:
set_enabled(item_ref, True, True)
set_enabled(item_test, True, True)
else:
set_enabled(item_ref, False, True)
set_enabled(item_test, False, True)
if event.isRefEvent():
item_ref.setCheckState(QtCore.Qt.Checked)
else:
item_ref.setCheckState(QtCore.Qt.Unchecked)
if event.isTestEvent():
item_test.setCheckState(QtCore.Qt.Checked)
else:
item_test.setCheckState(QtCore.Qt.Unchecked)
column = [item_delete, item_path, item_time, item_lat, item_lon, item_depth, item_mag,
item_nmp, item_nap, item_ref, item_test, item_notes]
self.project._table.append(column)
self.setItemColor(column, index, event, current_event)
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# manipulate items
item_ref.setBackground(self._ref_test_colors['ref'])
item_test.setBackground(self._ref_test_colors['test'])
for r_index, row in enumerate(self.project._table):
for c_index, item in enumerate(row):
if type(item) == QtGui.QTableWidgetItem:
self.event_table.setItem(r_index, c_index, item)
elif type(item) in [QtGui.QWidget, QtGui.QPushButton]:
self.event_table.setCellWidget(r_index, c_index, item)
header = self.event_table.horizontalHeader()
header.setResizeMode(QtGui.QHeaderView.ResizeToContents)
header.setStretchLastSection(True)
self.event_table.cellChanged[int, int].connect(cell_changed)
self.event_table.cellClicked[int, int].connect(cell_clicked)
self.events_layout.addWidget(self.event_table)
self.tabs.setCurrentIndex(tabindex)
def setItemColor(self, item_list, index, event, current_event):
def set_background_color(items, color):
for item in items:
item.setBackground(color)
def set_foreground_color(items, color):
for item in items:
item.setForeground(color)
if index % 2:
set_background_color(item_list, QtGui.QColor(*(245, 245, 245, 255)))
if self.isEmpty(event.path):
set_foreground_color(item_list, QtGui.QColor(*(180, 180, 180, 255)))
if event == current_event:
set_background_color(item_list, QtGui.QColor(*(0, 143, 143, 255)))
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def set_metadata(self):
self.project.inventories = self.metadata.inventories
if self.metadata.inventories:
self.init_map_button.setEnabled(True)
self.initMapAction.setEnabled(True)
self.inventory_label.setText('Inventory set!')
self.setDirty(True)
def add_metadata(self):
self.add_metadata_widget = AddMetadataWidget(self, metadata=self.metadata)
self.add_metadata_widget.close_button.clicked.connect(self.set_metadata)
def init_metadata(self, new=False, ask_default=True):
if hasattr(self.project, 'inventories'):
self.metadata = Metadata(verbosity=0)
for inventory in self.project.inventories:
self.metadata.add_inventory(inventory)
def calc_magnitude(self, type='ML'):
self.init_metadata()
if not self.metadata:
return None
wf_copy = self.get_data().getWFData().copy()
corr_wf = restitute_data(wf_copy, *self.metadata)
# if not rest_flag:
# raise ProcessingError('Restitution of waveform data failed!')
if type == 'ML':
local_mag = LocalMagnitude(corr_wf, self.get_data().get_evt_data(), self.inputs.get('sstop'),
self.inputs.get('WAScaling'), verbosity=True)
return local_mag.updated_event()
elif type == 'Mw':
moment_mag = MomentMagnitude(corr_wf, self.get_data().get_evt_data(), self.inputs.get('vp'),
self.inputs.get('Qp'), self.inputs.get('rho'), verbosity=True)
return moment_mag.updated_event()
else:
return None
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def check4Loc(self):
return self.picksNum() >= 4
# def check4Comparison(self):
# mpicks = self.getPicks()
# apicks = self.getPicks('auto')
# for station, phases in mpicks.items():
# try:
# aphases = apicks[station]
# for phase in phases.keys():
# if phase in aphases.keys():
# return True
# except KeyError:
# continue
# return False
def picksNum(self, type='manual'):
num = 0
for phases in self.getPicks(type).values():
num += len(phases)
return num
def get_loc_flag(self):
return self.loc
def set_loc_flag(self, value):
self.loc = value
def check_loc_plt(self):
evt = self.get_data().get_evt_data()
if evt.origins and evt.magnitudes:
return True
return False
def update_status(self, message, duration=5000):
self.statusBar().showMessage(message, duration)
if self.get_data() is not None:
if not self.get_current_event() or not self.project.location:
self.setWindowTitle("PyLoT - New project [*]")
elif self.get_current_event():
self.setWindowTitle("PyLoT - {} [*]".format(self.project.location))
else:
self.setWindowTitle(
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"PyLoT - seismic processing the python way[*]")
self.setWindowModified(self.dirty)
def tutor_user(self):
trace_pick = ' select trace to pick on station ...'
strg_key = ' - [CTRL + mousewheel] vertical spacing'
shift_key = ' - [SHIFT + mousewheel] horizontal zoom'
message = trace_pick + strg_key + shift_key
self.update_status(message, 10000)
def show_event_information(self):
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pass
def createNewEvent(self):
if self.okToContinue():
new = NewEventDlg()
if new.exec_() != QDialog.Rejected:
evtpar = new.getValues()
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cinfo = create_creation_info(agency_id=self.agency)
event = create_event(evtpar['origintime'], cinfo)
self.data = Data(self, evtdata=event)
self.setDirty(True)
def createNewProject(self):
'''
Create new project file.
'''
if not self.okToContinue():
return
self.project = Project()
self.init_events(new=True)
self.setDirty(False)
self.project.parameter = self._inputs
self.saveProjectAsAction.setEnabled(True)
self.update_status('Created new project...', duration=1000)
return True
def loadProject(self, fnm=None):
'''
Load an existing project file.
'''
if not self.okToContinue():
return
if not fnm:
dlg = QFileDialog(parent=self)
fnm = dlg.getOpenFileName(self, 'Open project file...', filter='Pylot project (*.plp)')[0]
if not fnm:
return
if not os.path.exists(fnm):
QMessageBox.warning(self, 'Could not open file',
'Could not open project file {}. File does not exist.'.format(fnm))
return
if fnm:
self.project = Project.load(fnm)
if hasattr(self.project, 'parameter'):
if self.project.parameter:
self._inputs = self.project.parameter
self.updateFilteroptions()
# added for backwards compatibility with older events not having a 'dirty' attribute
for event in self.project.eventlist:
if not hasattr(event, 'dirty'):
event.dirty = False
self.tabs.setCurrentIndex(0) # implemented to prevent double-loading of waveform data
self.init_events(new=True)
self.init_metadata()
message = 'Opened project file {}.'.format(fnm)
print(message)
self.update_status(message)
self.init_array_tab()
self.set_metadata()
self.add2recentProjects(fnm)
self.setDirty(False)
def add2recentProjects(self, fnm):
settings = QtCore.QSettings()
recent = settings.value('recentProjects', [])
if not type(recent) == list:
recent = [recent]
if not fnm in recent:
recent.append(fnm)
new_recent = recent[-5:]
settings.setValue('recentProjects', new_recent)
settings.sync()
def saveProjectAs(self, exists=False):
'''
Save back project to new pickle file.
'''
dlg = QFileDialog(self)
fnm = dlg.getSaveFileName(self, 'Create a new project file...', filter='Pylot project (*.plp)')
filename = fnm[0]
if not len(fnm[0]):
return False
if not filename.split('.')[-1] == 'plp':
filename = fnm[0] + '.plp'
self.project.parameter = self._inputs
self.exportEvents()
self.project.save(filename)
self.setDirty(False)
self.saveProjectAsAction.setEnabled(True)
self.update_status('Saved new project to {}'.format(filename), duration=5000)
self.add2recentProjects(filename)
return True
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def saveProject(self, new=False):
'''
Save back project to pickle file.
'''
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if self.project and not new:
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if not self.project.location:
if not self.saveProjectAs(exists=True):
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self.setDirty(True)
return False
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else:
self.project.parameter = self._inputs
self.exportEvents()
self.project.save()
if not self.project.dirty:
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self.setDirty(False)
self.update_status('Saved back project to file:\n{}'.format(self.project.location), duration=5000)
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return True
else:
# if still dirty because saving failed
qmb = QMessageBox.warning(self, 'Could not save project',
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'Could not save back to original file.\nChoose new file')
self.setDirty(True)
return self.saveProjectAs(exists=True)
def draw(self):
self.fill_eventbox()
self.getPlotWidget().draw()
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if self.plot_method == 'fast':
self.dataPlot.setPermText(1, ' MIN/MAX plot ', color='red')
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else:
self.dataPlot.setPermText(1)
self.dataPlot.setPermText(0, '| Number of traces: {} |'.format(len(self.getPlotWidget().getPlotDict())))
def _setDirty(self):
self.setDirty(True)
def setDirty(self, value):
self.saveProjectAction.setEnabled(value)
self.saveProjectAsAction.setEnabled(True)
self.project.setDirty(value)
self.dirty = value
self.fill_eventbox()
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def closeEvent(self, event):
if self.okToContinue():
event.accept()
else:
event.ignore()
# self.closing.emit()
# QMainWindow.closeEvent(self, event)
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def setParameter(self, show=True):
if not self.paraBox:
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self.paraBox = PylotParaBox(self._inputs, parent=self, windowflag=1)
self.paraBox.accepted.connect(self._setDirty)
self.paraBox.accepted.connect(self.filterOptionsFromParameter)
if show:
self.paraBox.params_to_gui()
self.paraBox.show()
def PyLoTprefs(self):
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if not self._props:
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self._props = PropertiesDlg(self, infile=self.infile,
inputs=self._inputs)
if self._props.exec_():
self.init_wfWidget()
return
def helpHelp(self):
if checkurl():
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form = HelpForm(self,
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'https://ariadne.geophysik.ruhr-uni-bochum.de/trac/PyLoT/wiki')
else:
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form = HelpForm(self, ':/help.html')
form.show()
class Project(object):
'''
Pickable class containing information of a PyLoT project, like event lists and file locations.
'''
def __init__(self):
self.eventlist = []
self.location = None
self.rootpath = None
self.dirty = False
self.parameter = None
self._table = None
def add_eventlist(self, eventlist):
'''
Add events from an eventlist containing paths to event directories.
Will skip existing paths.
'''
if len(eventlist) == 0:
return
for item in eventlist:
event = Event(item)
event.rootpath = self.parameter['rootpath']
event.database = self.parameter['database']
event.datapath = self.parameter['datapath']
if not event.path in self.getPaths():
self.eventlist.append(event)
self.setDirty()
else:
print('Skipping event with path {}. Already part of project.'.format(event.path))
self.eventlist.sort(key=lambda x: x.pylot_id)
self.search_eventfile_info()
def remove_event(self, event):
self.eventlist.remove(event)
def remove_event_by_id(self, eventID):
for event in self.eventlist:
if eventID in str(event.resource_id):
self.remove_event(event)
break
def read_eventfile_info(self, filename, separator=','):
'''
Try to read event information from file (:param:filename) comparing specific event datetimes.
File structure (each row): event, date, time, magnitude, latitude, longitude, depth
separated by :param:separator each.
'''
with open(filename, 'r') as infile:
for line in infile.readlines():
eventID, date, time, mag, lat, lon, depth = line.split(separator)[:7]
# skip first line
try:
day, month, year = date.split('/')
except:
continue
year = int(year)
# hardcoded, if year only consists of 2 digits (e.g. 16 instead of 2016)
if year < 100:
year += 2000
datetime = '{}-{}-{}T{}'.format(year, month, day, time)
try:
datetime = UTCDateTime(datetime)
except Exception as e:
print(e, datetime, filename)
continue
for event in self.eventlist:
if eventID in str(event.resource_id) or eventID in event.origins:
if event.origins:
origin = event.origins[0] # should have only one origin
if origin.time == datetime:
origin.latitude = float(lat)
origin.longitude = float(lon)
origin.depth = float(depth)
else:
continue
elif not event.origins:
origin = Origin(resource_id=event.resource_id,
time=datetime, latitude=float(lat),
longitude=float(lon), depth=float(depth))
event.origins.append(origin)
event.magnitudes.append(Magnitude(resource_id=event.resource_id,
mag=float(mag),
mag_type='M'))
break
def search_eventfile_info(self):
'''
Search all datapaths in rootpath for filenames with given file extension fext
and try to read event info from it
'''
datapaths = []
fext = '.csv'
for event in self.eventlist:
if not event.datapath in datapaths:
datapaths.append(event.datapath)
for datapath in datapaths:
datapath = os.path.join(self.rootpath, datapath)
for filename in os.listdir(datapath):
filename = os.path.join(datapath, filename)
if os.path.isfile(filename) and filename.endswith(fext):
try:
self.read_eventfile_info(filename)
except Exception as e:
print('Failed on reading eventfile info from file {}: {}'.format(filename, e))
def getPaths(self):
'''
Returns paths (eventlist) of all events saved in the project.
'''
paths = []
for event in self.eventlist:
paths.append(event.path)
return paths
def setDirty(self, value=True):
self.dirty = value
def getEventFromPath(self, path):
'''
Search for an event in the project by event path.
'''
for event in self.eventlist:
if event.path == path:
return event
def save(self, filename=None):
'''
Save PyLoT Project to a file.
Can be loaded by using project.load(filename).
'''
try:
import cPickle
except ImportError:
import _pickle as cPickle
if filename:
self.location = filename
else:
filename = self.location
try:
outfile = open(filename, 'wb')
cPickle.dump(self, outfile, -1)
self.setDirty(False)
except Exception as e:
print('Could not pickle PyLoT project. Reason: {}'.format(e))
self.setDirty()
@staticmethod
def load(filename):
'''
Load project from filename.
'''
try:
import cPickle
except ImportError:
import _pickle as cPickle
infile = open(filename, 'rb')
project = cPickle.load(infile)
project.location = filename
print('Loaded %s' % filename)
return project
class getExistingDirectories(QFileDialog):
'''
File dialog with possibility to select multiple folders.
'''
def __init__(self, *args):
super(getExistingDirectories, self).__init__(*args)
self.setOption(self.DontUseNativeDialog, True)
self.setOption(self.ReadOnly, True)
self.setFileMode(self.Directory)
self.setOption(self.ShowDirsOnly, True)
self.findChildren(QListView)[0].setSelectionMode(QAbstractItemView.ExtendedSelection)
self.findChildren(QTreeView)[0].setSelectionMode(QAbstractItemView.ExtendedSelection)
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def create_window():
app_created = False
app = QCoreApplication.instance()
# check for existing app (when using ipython)
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if app is None:
app = QApplication(sys.argv)
app_created = True
# set aplication/organization name, domain (important to do this BEFORE setupUI is called for correct QSettings)
app.setOrganizationName("Ruhr-University Bochum / BESTEC")
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app.setOrganizationDomain("rub.de")
app.setApplicationName("PyLoT")
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app.references = set()
# app.references.add(window)
# window.show()
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return app, app_created
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def main(args=None):
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project_filename = None
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# args.project_filename = 'C:/Shared/AlpArray/alparray_data/project_alparray_test.plp'
pylot_infile = None
if args:
if args.project_filename:
project_filename = args.project_filename
if args.input_filename:
pylot_infile = args.input_filename
# create the Qt application
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pylot_app, app_created = create_window()
# pylot_app = QApplication(sys.argv)
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pixmap = QPixmap(":/splash/splash.png")
splash = QSplashScreen(pixmap)
splash.show()
app_icon = QIcon()
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app_icon.addPixmap(QPixmap(':/icons/pylot.png'))
# create the main window
pylot_form = MainWindow(infile=pylot_infile)
pylot_form.setWindowIcon(app_icon)
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pylot_form.setIconSize(QSize(60, 60))
# set other App information
pylot_app.setApplicationVersion(pylot_form.__version__)
pylot_app.setWindowIcon(app_icon)
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pylot_app.processEvents()
splash.showMessage('Loading. Please wait ...')
pylot_app.processEvents()
# Show main window and run the app
pylot_form.showMaximized()
pylot_app.processEvents()
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splash.finish(pylot_form)
if project_filename:
pylot_form.loadProject(args.project_filename)
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if app_created:
pylot_app.exec_()
else:
return pylot_form
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if __name__ == "__main__":
parser = argparse.ArgumentParser(description='Welcome to PyLoT.')
parser.add_argument('-p', dest='project_filename', help='load project file',
default=None)
parser.add_argument('-in', dest='input_filename', help='set pylot input file',
default=None)
args = parser.parse_args()
sys.exit(main(args))