Merge branch 'develop' of ariadne.geophysik.rub.de:/data/git/pylot into develop

pylot/core/pick/autopick.py

@@ -68,9 +68,10 @@ def autopickevent(data, param, iplot=0, fig_dict=None, ncores=0, metadata=None,
     pool.close()
 
     for pick in result:
-        station = pick['station']
-        pick.pop('station')
-        all_onsets[station] = pick
+        if pick:
+            station = pick['station']
+            pick.pop('station')
+            all_onsets[station] = pick
 
     return all_onsets
 
@@ -87,6 +88,15 @@ def call_autopickstation(input_tuple):
     return autopickstation(wfstream, pickparam, verbose, iplot=0, metadata=metadata, origin=origin)
 
 
+def get_source_coords(parser, station_id):
+    station_coords = None
+    try:
+        station_coords = parser.get_coordinates(station_id)
+    except Exception as e:
+        print('Could not get source coordinates for station {}: {}'.format(station_id, e))
+    return station_coords
+
+
 def autopickstation(wfstream, pickparam, verbose=False,
                     iplot=0, fig_dict=None, metadata=None, origin=None):
     """
@@ -197,13 +207,14 @@ def autopickstation(wfstream, pickparam, verbose=False,
     if len(ndat) == 0:  # check for other components
         ndat = wfstream.select(component="1")
 
-
-    wfstart, wfend = full_range(wfstream)
+    if not zdat:
+        print('No z-component found for station {}. STOP'.format(wfstream[0].stats.station))
+        return
 
     if algoP == 'HOS' or algoP == 'ARZ' and zdat is not None:
         msg = '##################################################\nautopickstation:' \
               ' Working on P onset of station {station}\nFiltering vertical ' \
-              'trace ...\n{data}'.format(station=zdat[0].stats.station,
+              'trace ...\n{data}'.format(station=wfstream[0].stats.station,
                                          data=str(zdat))
         if verbose: print(msg)
         z_copy = zdat.copy()
@@ -224,11 +235,11 @@ def autopickstation(wfstream, pickparam, verbose=False,
             if not metadata[1]:
                 print('Warning: Could not use TauPy to estimate onsets as there are no metadata given.')
             else:
-                if origin:
+                station_id = wfstream[0].get_id()
+                parser = metadata[1]
+                station_coords = get_source_coords(parser, station_id)
+                if station_coords and origin:
                     source_origin = origin[0]
-                    station_id = wfstream[0].get_id()
-                    parser = metadata[1]
-                    station_coords = parser.get_coordinates(station_id)
                     model = TauPyModel(taup_model)
                     arrivals = model.get_travel_times_geo(
                         source_origin.depth,
@@ -254,9 +265,8 @@ def autopickstation(wfstream, pickparam, verbose=False,
                     Lc = pstop - pstart
                     print('autopick: CF calculation times respectively:'
                           ' pstart: {} s, pstop: {} s'.format(pstart, pstop))
-                else:
+                elif not origin:
                     print('No source origins given!')
-
         else:
             Lc = pstop - pstart
         Lwf = zdat[0].stats.endtime - zdat[0].stats.starttime
@@ -964,14 +974,16 @@ def autopickstation(wfstream, pickparam, verbose=False,
     else:
         # dummy values (start of seismic trace) in order to derive
         # theoretical onset times for iteratve picking
-        try:
+        if edat:
             lpickS = edat[0].stats.starttime + timeerrorsS[3]
             epickS = edat[0].stats.starttime - timeerrorsS[3]
             mpickS = edat[0].stats.starttime
-        except:
+        elif ndat:
             lpickS = ndat[0].stats.starttime + timeerrorsS[3]
             epickS = ndat[0].stats.starttime - timeerrorsS[3]
             mpickS = ndat[0].stats.starttime
+        else:
+            return
 
     # create dictionary
     # for P phase

pylot/core/pick/picker.py

@@ -219,11 +219,13 @@ class AICPicker(AutoPicker):
             # check, if these are counts or m/s, important for slope estimation!
             # this is quick and dirty, better solution?
             if max(self.Data[0].data < 1e-3) and max(self.Data[0].data >= 1e-6):
-                self.Data[0].data = self.Data[0].data * 1000000
+                self.Data[0].data = self.Data[0].data * 1000000.
             elif max(self.Data[0].data < 1e-6):
                 self.Data[0].data = self.Data[0].data * 1e13
             # get signal window
             isignal = getsignalwin(self.Tcf, self.Pick, self.TSNR[2])
+            if len(isignal) == 0:
+                return
             ii = min([isignal[len(isignal) - 1], len(self.Tcf)])
             isignal = isignal[0:ii]
             try:
@@ -242,7 +244,11 @@ class AICPicker(AutoPicker):
                               & (self.Tcf >= self.Pick))
             # find maximum within slope determination window
             # 'cause slope should be calculated up to first local minimum only!
-            imax = np.argmax(self.Data[0].data[islope[0][0]:islope[0][len(islope[0])-1]])
+            dataslope = self.Data[0].data[islope[0][0]:islope[0][len(islope[0]) - 1]]
+            if len(dataslope) < 1:
+                print('No data in slope window found!')
+                return
+            imax = np.argmax(dataslope)
             iislope = islope[0][0:imax+1]
             if len(iislope) <= 2:
                 # calculate slope from initial onset to maximum of AIC function
@@ -395,8 +401,14 @@ class PragPicker(AutoPicker):
             # prominent trend: decrease aus
             # flat: use given aus
             cfdiff = np.diff(cfipick)
+            if len(cfdiff)<20:
+                print('PragPicker: Very few samples for CF. Check LTA window dimensions!')
             i0diff = np.where(cfdiff > 0)
             cfdiff = cfdiff[i0diff]
+            if len(cfdiff)<1:
+                print('PragPicker: Negative slope for CF. Check LTA window dimensions! STOP')
+                self.Pick = None
+                return
             minaus = min(cfdiff * (1 + self.aus))
             aus1 = max([minaus, self.aus])
 

pylot/core/pick/utils.py

@@ -228,6 +228,10 @@ def fmpicker(Xraw, Xfilt, pickwin, Pick, iplot=0, fig=None):
             if len(zc1) == 3:
                 break
 
+        if len(zc1) < 3:
+            print('fmpicker: Could not determine zero crossings!')
+            return
+
         # if time difference betweeen 1st and 2cnd zero crossing
         # is too short, get time difference between 1st and 3rd
         # to derive maximum

pylot/core/util/widgets.py

@@ -21,7 +21,7 @@ except:
     pg = None
 
 from matplotlib.figure import Figure
-from pylot.core.util.utils import find_horizontals, identifyPhase, loopIdentifyPhase
+from pylot.core.util.utils import find_horizontals, identifyPhase, loopIdentifyPhase, trim_station_components
 
 try:
     from matplotlib.backends.backend_qt4agg import FigureCanvas
@@ -2058,6 +2058,9 @@ class TuneAutopicker(QWidget):
     def fill_stationbox(self):
         fnames = self.parent.getWFFnames_from_eventbox(eventbox=self.eventBox)
         self.data.setWFData(fnames)
+        wfdat = self.data.getWFData()  # all available streams
+        # trim station components to same start value
+        trim_station_components(wfdat, trim_start=True, trim_end=False)
         self.stationBox.clear()
         stations = []
         for trace in self.data.getWFData():
@@ -2248,7 +2251,7 @@ class TuneAutopicker(QWidget):
         else:
             self.disable_autopickTabs()
         try:
-            main_fig.tight_layout()
+            self.fig_dict['main_fig'].tight_layout()
         except:
             pass
         self.figure_tabs.setCurrentIndex(0)