def _parse_record_m(self, line, event, pick): """ Parses the 'surface wave record' M """ # unused: Z_comp = line[7] z_period = self._float(line[9:13]) # note: according to the format documentation, # column 20 should be blank. However, it seems that # z_amplitude includes that column z_amplitude = self._float(line[13:21]) # micrometers # TODO: N_comp and E_comp seems to be never there msz_mag = line[49:52] ms_mag = self._float(line[53:56]) # unused: Ms_usage_flag = line[56] evid = event.resource_id.id.split('/')[-1] station_string = \ pick.waveform_id.get_seed_string()\ .replace(' ', '-').replace('.', '_').lower() amplitude = None if z_amplitude is not None: amplitude = Amplitude() prefix = '/'.join((res_id_prefix, 'amp', evid, station_string)) amplitude.resource_id = ResourceIdentifier(prefix=prefix) amplitude.generic_amplitude = z_amplitude * 1E-6 amplitude.unit = 'm' amplitude.period = z_period amplitude.type = 'AS' amplitude.magnitude_hint = 'Ms' amplitude.pick_id = pick.resource_id event.amplitudes.append(amplitude) if msz_mag is not None: station_magnitude = StationMagnitude() prefix = '/'.join((res_id_prefix, 'stationmagntiude', evid, station_string)) station_magnitude.resource_id = ResourceIdentifier(prefix=prefix) station_magnitude.origin_id = event.origins[0].resource_id station_magnitude.mag = ms_mag station_magnitude.station_magnitude_type = 'Ms' if amplitude is not None: station_magnitude.amplitude_id = amplitude.resource_id event.station_magnitudes.append(station_magnitude)
def _parseRecordM(self, line, event, pick): """ Parses the 'surface wave record' M """ #unused: Z_comp = line[7] Z_period = self._float(line[9:13]) # note: according to the format documentation, # column 20 should be blank. However, it seems that # Z_amplitude includes that column Z_amplitude = self._float(line[13:21]) # micrometers #TODO: N_comp and E_comp seems to be never there MSZ_mag = line[49:52] Ms_mag = self._float(line[53:56]) #unused: Ms_usage_flag = line[56] evid = event.resource_id.id.split('/')[-1] station_string =\ pick.waveform_id.getSEEDString()\ .replace(' ', '-').replace('.', '_').lower() amplitude = None if Z_amplitude is not None: amplitude = Amplitude() prefix = '/'.join((res_id_prefix, 'amp', evid, station_string)) amplitude.resource_id = ResourceIdentifier(prefix=prefix) amplitude.generic_amplitude = Z_amplitude * 1E-6 amplitude.unit = 'm' amplitude.period = Z_period amplitude.type = 'AS' amplitude.magnitude_hint = 'Ms' amplitude.pick_id = pick.resource_id event.amplitudes.append(amplitude) if MSZ_mag is not None: station_magnitude = StationMagnitude() prefix = '/'.join( (res_id_prefix, 'stationmagntiude', evid, station_string)) station_magnitude.resource_id = ResourceIdentifier(prefix=prefix) station_magnitude.origin_id = event.origins[0].resource_id station_magnitude.mag = Ms_mag station_magnitude.station_magnitude_type = 'Ms' if amplitude is not None: station_magnitude.amplitude_id = amplitude.resource_id event.station_magnitudes.append(station_magnitude)
def _parseRecordM(self, line, event, pick): """ Parses the 'surface wave record' M """ # unused: Z_comp = line[7] Z_period = self._float(line[9:13]) # note: according to the format documentation, # column 20 should be blank. However, it seems that # Z_amplitude includes that column Z_amplitude = self._float(line[13:21]) # micrometers # TODO: N_comp and E_comp seems to be never there MSZ_mag = line[49:52] Ms_mag = self._float(line[53:56]) # unused: Ms_usage_flag = line[56] evid = event.resource_id.id.split("/")[-1] station_string = pick.waveform_id.getSEEDString().replace(" ", "-").replace(".", "_").lower() amplitude = None if Z_amplitude is not None: amplitude = Amplitude() prefix = "/".join((res_id_prefix, "amp", evid, station_string)) amplitude.resource_id = ResourceIdentifier(prefix=prefix) amplitude.generic_amplitude = Z_amplitude * 1e-6 amplitude.unit = "m" amplitude.period = Z_period amplitude.type = "AS" amplitude.magnitude_hint = "Ms" amplitude.pick_id = pick.resource_id event.amplitudes.append(amplitude) if MSZ_mag is not None: station_magnitude = StationMagnitude() prefix = "/".join((res_id_prefix, "stationmagntiude", evid, station_string)) station_magnitude.resource_id = ResourceIdentifier(prefix=prefix) station_magnitude.origin_id = event.origins[0].resource_id station_magnitude.mag = Ms_mag station_magnitude.station_magnitude_type = "Ms" if amplitude is not None: station_magnitude.amplitude_id = amplitude.resource_id event.station_magnitudes.append(station_magnitude)
def _parseRecordP(self, line, event): """ Parses the 'primary phase record' P The primary phase is the first phase of the reading, regardless its type. """ station = line[2:7].strip() phase = line[7:15] arrival_time = line[15:24] residual = self._float(line[25:30]) #unused: residual_flag = line[30] distance = self._float(line[32:38]) # degrees azimuth = self._float(line[39:44]) backazimuth = round(azimuth % -360 + 180, 1) mb_period = self._float(line[44:48]) mb_amplitude = self._float(line[48:55]) # nanometers mb_magnitude = self._float(line[56:59]) #unused: mb_usage_flag = line[59] origin = event.origins[0] evid = event.resource_id.id.split('/')[-1] waveform_id = WaveformStreamID() waveform_id.station_code = station #network_code is required for QuakeML validation waveform_id.network_code = ' ' station_string =\ waveform_id.getSEEDString()\ .replace(' ', '-').replace('.', '_').lower() prefix = '/'.join( (res_id_prefix, 'waveformstream', evid, station_string)) waveform_id.resource_uri = ResourceIdentifier(prefix=prefix) pick = Pick() prefix = '/'.join((res_id_prefix, 'pick', evid, station_string)) pick.resource_id = ResourceIdentifier(prefix=prefix) date = origin.time.strftime('%Y%m%d') pick.time = UTCDateTime(date + arrival_time) #Check if pick is on the next day: if pick.time < origin.time: pick.time += timedelta(days=1) pick.waveform_id = waveform_id pick.backazimuth = backazimuth onset = phase[0] if onset == 'e': pick.onset = 'emergent' phase = phase[1:] elif onset == 'i': pick.onset = 'impulsive' phase = phase[1:] elif onset == 'q': pick.onset = 'questionable' phase = phase[1:] pick.phase_hint = phase.strip() event.picks.append(pick) if mb_amplitude is not None: amplitude = Amplitude() prefix = '/'.join((res_id_prefix, 'amp', evid, station_string)) amplitude.resource_id = ResourceIdentifier(prefix=prefix) amplitude.generic_amplitude = mb_amplitude * 1E-9 amplitude.unit = 'm' amplitude.period = mb_period amplitude.type = 'AB' amplitude.magnitude_hint = 'Mb' amplitude.pick_id = pick.resource_id amplitude.waveform_id = pick.waveform_id event.amplitudes.append(amplitude) station_magnitude = StationMagnitude() prefix = '/'.join( (res_id_prefix, 'stationmagntiude', evid, station_string)) station_magnitude.resource_id = ResourceIdentifier(prefix=prefix) station_magnitude.origin_id = origin.resource_id station_magnitude.mag = mb_magnitude #station_magnitude.mag_errors['uncertainty'] = 0.0 station_magnitude.station_magnitude_type = 'Mb' station_magnitude.amplitude_id = amplitude.resource_id station_magnitude.waveform_id = pick.waveform_id res_id = '/'.join( (res_id_prefix, 'magnitude/generic/body_wave_magnitude')) station_magnitude.method_id =\ ResourceIdentifier(id=res_id) event.station_magnitudes.append(station_magnitude) arrival = Arrival() prefix = '/'.join((res_id_prefix, 'arrival', evid, station_string)) arrival.resource_id = ResourceIdentifier(prefix=prefix) arrival.pick_id = pick.resource_id arrival.phase = pick.phase_hint arrival.azimuth = azimuth arrival.distance = distance arrival.time_residual = residual res_id = '/'.join((res_id_prefix, 'earthmodel/ak135')) arrival.earth_model_id = ResourceIdentifier(id=res_id) origin.arrivals.append(arrival) origin.quality.minimum_distance = min( d for d in (arrival.distance, origin.quality.minimum_distance) if d is not None) origin.quality.maximum_distance =\ max(arrival.distance, origin.quality.minimum_distance) origin.quality.associated_phase_count += 1 return pick, arrival
def _parse_arrivals(self, event, origin, origin_res_id): # Skip header of arrivals next(self.lines) # Stop the loop after 2 empty lines (according to the standard). previous_line_empty = False for line in self.lines: line_empty = not line or line.isspace() if not self.event_point_separator: # Event are separated by two empty lines if line_empty and previous_line_empty: break else: # Event are separated by '.' if line.startswith('.'): break previous_line_empty = line_empty if line_empty: # Skip empty lines when the loop should be stopped by # point continue magnitude_types = [] magnitude_values = [] fields = self.fields['arrival'] station = line[fields['sta']].strip() distance = line[fields['dist']].strip() event_azimuth = line[fields['ev_az']].strip() evaluation_mode = line[fields['picktype']].strip() direction = line[fields['direction']].strip() onset = line[fields['detchar']].strip() phase = line[fields['phase']].strip() time = line[fields['time']].strip().replace('/', '-') time_residual = line[fields['t_res']].strip() arrival_azimuth = line[fields['azim']].strip() azimuth_residual = line[fields['az_res']].strip() slowness = line[fields['slow']].strip() slowness_residual = line[fields['s_res']].strip() time_defining_flag = line[fields['t_def']].strip() azimuth_defining_flag = line[fields['a_def']].strip() slowness_defining_flag = line[fields['s_def']].strip() snr = line[fields['snr']].strip() amplitude_value = line[fields['amp']].strip() period = line[fields['per']].strip() magnitude_types.append(line[fields['mag_type_1']].strip()) magnitude_values.append(line[fields['mag_1']].strip()) magnitude_types.append(line[fields['mag_type_2']].strip()) magnitude_values.append(line[fields['mag_2']].strip()) line_id = line[fields['id']].strip() # Don't take pick and arrival with wrong time residual if '*' in time_residual: continue try: pick = Pick() pick.creation_info = self._get_creation_info() pick.waveform_id = WaveformStreamID() pick.waveform_id.station_code = station pick.time = UTCDateTime(time) network_code = self.default_network_code location_code = self.default_location_code channel_code = self.default_channel_code try: network_code, channel = self._get_channel( station, pick.time) if channel: channel_code = channel.code location_code = channel.location_code except TypeError: pass pick.waveform_id.network_code = network_code pick.waveform_id.channel_code = channel_code if location_code: pick.waveform_id.location_code = location_code try: ev_mode = EVALUATION_MODES[evaluation_mode] pick.evaluation_mode = ev_mode except KeyError: pass try: pick.polarity = PICK_POLARITIES[direction] except KeyError: pass try: pick.onset = PICK_ONSETS[onset] except KeyError: pass pick.phase_hint = phase try: pick.backazimuth = float(arrival_azimuth) except ValueError: pass try: pick.horizontal_slowness = float(slowness) except ValueError: pass public_id = "pick/%s" % line_id pick.resource_id = self._get_res_id(public_id) event.picks.append(pick) except (TypeError, ValueError, AttributeError): # Can't parse pick, skip arrival and amplitude parsing continue arrival = Arrival() arrival.creation_info = self._get_creation_info() try: arrival.pick_id = pick.resource_id.id except AttributeError: pass arrival.phase = phase try: arrival.azimuth = float(event_azimuth) except ValueError: pass try: arrival.distance = float(distance) except ValueError: pass try: arrival.time_residual = float(time_residual) except ValueError: pass try: arrival.backazimuth_residual = float(azimuth_residual) except ValueError: pass try: arrival.horizontal_slowness_residual = float(slowness_residual) except ValueError: pass if time_defining_flag == 'T': arrival.time_weight = 1 if azimuth_defining_flag == 'A': arrival.backazimuth_weight = 1 if slowness_defining_flag == 'S': arrival.horizontal_slowness_weight = 1 public_id = "arrival/%s" % line_id arrival.resource_id = self._get_res_id(public_id, parent_res_id=origin_res_id) origin.arrivals.append(arrival) try: amplitude = Amplitude() amplitude.creation_info = self._get_creation_info() amplitude.generic_amplitude = float(amplitude_value) try: amplitude.pick_id = pick.resource_id amplitude.waveform_id = pick.waveform_id except AttributeError: pass try: amplitude.period = float(period) except ValueError: pass try: amplitude.snr = float(snr) except ValueError: pass for i in [0, 1]: if magnitude_types[i] and not magnitude_types[i].isspace(): amplitude.magnitude_hint = magnitude_types[i] public_id = "amplitude/%s" % line_id amplitude.resource_id = self._get_res_id(public_id) event.amplitudes.append(amplitude) for i in [0, 1]: sta_mag = StationMagnitude() sta_mag.creation_info = self._get_creation_info() sta_mag.origin_id = origin_res_id sta_mag.amplitude_id = amplitude.resource_id sta_mag.station_magnitude_type = magnitude_types[i] sta_mag.mag = magnitude_values[i] sta_mag.waveform_id = pick.waveform_id public_id = "magnitude/station/%s/%s" % (line_id, i) sta_mag.resource_id = self._get_res_id(public_id) event.station_magnitudes.append(sta_mag) # Associate station mag with network mag of same type mag = self._find_magnitude_by_type(event, origin_res_id, magnitude_types[i]) if mag: contrib = StationMagnitudeContribution() contrib.station_magnitude_id = sta_mag.resource_id contrib.weight = 1.0 mag.station_magnitude_contributions.append(contrib) except ValueError: pass
def _parse_arrivals(self, event, origin, origin_res_id): # Skip header of arrivals next(self.lines) # Stop the loop after 2 empty lines (according to the standard). previous_line_empty = False for line in self.lines: line_empty = not line or line.isspace() if not self.event_point_separator: # Event are separated by two empty lines if line_empty and previous_line_empty: break else: # Event are separated by '.' if line.startswith('.'): break previous_line_empty = line_empty if line_empty: # Skip empty lines when the loop should be stopped by # point continue magnitude_types = [] magnitude_values = [] fields = self.fields['arrival'] station = line[fields['sta']].strip() distance = line[fields['dist']].strip() event_azimuth = line[fields['ev_az']].strip() evaluation_mode = line[fields['picktype']].strip() direction = line[fields['direction']].strip() onset = line[fields['detchar']].strip() phase = line[fields['phase']].strip() time = line[fields['time']].strip().replace('/', '-') time_residual = line[fields['t_res']].strip() arrival_azimuth = line[fields['azim']].strip() azimuth_residual = line[fields['az_res']].strip() slowness = line[fields['slow']].strip() slowness_residual = line[fields['s_res']].strip() time_defining_flag = line[fields['t_def']].strip() azimuth_defining_flag = line[fields['a_def']].strip() slowness_defining_flag = line[fields['s_def']].strip() snr = line[fields['snr']].strip() amplitude_value = line[fields['amp']].strip() period = line[fields['per']].strip() magnitude_types.append(line[fields['mag_type_1']].strip()) magnitude_values.append(line[fields['mag_1']].strip()) magnitude_types.append(line[fields['mag_type_2']].strip()) magnitude_values.append(line[fields['mag_2']].strip()) line_id = line[fields['id']].strip() # Don't take pick and arrival with wrong time residual if '*' in time_residual: continue try: pick = Pick() pick.creation_info = self._get_creation_info() pick.waveform_id = WaveformStreamID() pick.waveform_id.station_code = station pick.time = UTCDateTime(time) network_code = self.default_network_code location_code = self.default_location_code channel_code = self.default_channel_code try: network_code, channel = self._get_channel(station, pick.time) if channel: channel_code = channel.code location_code = channel.location_code except TypeError: pass pick.waveform_id.network_code = network_code pick.waveform_id.channel_code = channel_code if location_code: pick.waveform_id.location_code = location_code try: ev_mode = EVALUATION_MODES[evaluation_mode] pick.evaluation_mode = ev_mode except KeyError: pass try: pick.polarity = PICK_POLARITIES[direction] except KeyError: pass try: pick.onset = PICK_ONSETS[onset] except KeyError: pass pick.phase_hint = phase try: pick.backazimuth = float(arrival_azimuth) except ValueError: pass try: pick.horizontal_slowness = float(slowness) except ValueError: pass public_id = "pick/%s" % line_id pick.resource_id = self._get_res_id(public_id) event.picks.append(pick) except (TypeError, ValueError, AttributeError): # Can't parse pick, skip arrival and amplitude parsing continue arrival = Arrival() arrival.creation_info = self._get_creation_info() try: arrival.pick_id = pick.resource_id.id except AttributeError: pass arrival.phase = phase try: arrival.azimuth = float(event_azimuth) except ValueError: pass try: arrival.distance = float(distance) except ValueError: pass try: arrival.time_residual = float(time_residual) except ValueError: pass try: arrival.backazimuth_residual = float(azimuth_residual) except ValueError: pass try: arrival.horizontal_slowness_residual = float(slowness_residual) except ValueError: pass if time_defining_flag == 'T': arrival.time_weight = 1 if azimuth_defining_flag == 'A': arrival.backazimuth_weight = 1 if slowness_defining_flag == 'S': arrival.horizontal_slowness_weight = 1 public_id = "arrival/%s" % line_id arrival.resource_id = self._get_res_id(public_id, parent_res_id=origin_res_id) origin.arrivals.append(arrival) try: amplitude = Amplitude() amplitude.creation_info = self._get_creation_info() amplitude.generic_amplitude = float(amplitude_value) try: amplitude.pick_id = pick.resource_id amplitude.waveform_id = pick.waveform_id except AttributeError: pass try: amplitude.period = float(period) except ValueError: pass try: amplitude.snr = float(snr) except ValueError: pass for i in [0, 1]: if magnitude_types[i] and not magnitude_types[i].isspace(): amplitude.magnitude_hint = magnitude_types[i] public_id = "amplitude/%s" % line_id amplitude.resource_id = self._get_res_id(public_id) event.amplitudes.append(amplitude) for i in [0, 1]: sta_mag = StationMagnitude() sta_mag.creation_info = self._get_creation_info() sta_mag.origin_id = origin_res_id sta_mag.amplitude_id = amplitude.resource_id sta_mag.station_magnitude_type = magnitude_types[i] sta_mag.mag = magnitude_values[i] public_id = "magnitude/station/%s/%s" % (line_id, i) sta_mag.resource_id = self._get_res_id(public_id) event.station_magnitudes.append(sta_mag) except ValueError: pass
def _parse_record_p(self, line, event): """ Parses the 'primary phase record' P The primary phase is the first phase of the reading, regardless its type. """ station = line[2:7].strip() phase = line[7:15] arrival_time = line[15:24] residual = self._float(line[25:30]) # unused: residual_flag = line[30] distance = self._float(line[32:38]) # degrees azimuth = self._float(line[39:44]) backazimuth = round(azimuth % -360 + 180, 1) mb_period = self._float(line[44:48]) mb_amplitude = self._float(line[48:55]) # nanometers mb_magnitude = self._float(line[56:59]) # unused: mb_usage_flag = line[59] origin = event.origins[0] evid = event.resource_id.id.split('/')[-1] waveform_id = WaveformStreamID() waveform_id.station_code = station # network_code is required for QuakeML validation waveform_id.network_code = ' ' station_string = \ waveform_id.get_seed_string()\ .replace(' ', '-').replace('.', '_').lower() prefix = '/'.join((res_id_prefix, 'waveformstream', evid, station_string)) waveform_id.resource_uri = ResourceIdentifier(prefix=prefix) pick = Pick() prefix = '/'.join((res_id_prefix, 'pick', evid, station_string)) pick.resource_id = ResourceIdentifier(prefix=prefix) date = origin.time.strftime('%Y%m%d') pick.time = UTCDateTime(date + arrival_time) # Check if pick is on the next day: if pick.time < origin.time: pick.time += timedelta(days=1) pick.waveform_id = waveform_id pick.backazimuth = backazimuth onset = phase[0] if onset == 'e': pick.onset = 'emergent' phase = phase[1:] elif onset == 'i': pick.onset = 'impulsive' phase = phase[1:] elif onset == 'q': pick.onset = 'questionable' phase = phase[1:] pick.phase_hint = phase.strip() event.picks.append(pick) if mb_amplitude is not None: amplitude = Amplitude() prefix = '/'.join((res_id_prefix, 'amp', evid, station_string)) amplitude.resource_id = ResourceIdentifier(prefix=prefix) amplitude.generic_amplitude = mb_amplitude * 1E-9 amplitude.unit = 'm' amplitude.period = mb_period amplitude.type = 'AB' amplitude.magnitude_hint = 'Mb' amplitude.pick_id = pick.resource_id amplitude.waveform_id = pick.waveform_id event.amplitudes.append(amplitude) station_magnitude = StationMagnitude() prefix = '/'.join((res_id_prefix, 'stationmagntiude', evid, station_string)) station_magnitude.resource_id = ResourceIdentifier(prefix=prefix) station_magnitude.origin_id = origin.resource_id station_magnitude.mag = mb_magnitude # station_magnitude.mag_errors['uncertainty'] = 0.0 station_magnitude.station_magnitude_type = 'Mb' station_magnitude.amplitude_id = amplitude.resource_id station_magnitude.waveform_id = pick.waveform_id res_id = '/'.join( (res_id_prefix, 'magnitude/generic/body_wave_magnitude')) station_magnitude.method_id = \ ResourceIdentifier(id=res_id) event.station_magnitudes.append(station_magnitude) arrival = Arrival() prefix = '/'.join((res_id_prefix, 'arrival', evid, station_string)) arrival.resource_id = ResourceIdentifier(prefix=prefix) arrival.pick_id = pick.resource_id arrival.phase = pick.phase_hint arrival.azimuth = azimuth arrival.distance = distance arrival.time_residual = residual res_id = '/'.join((res_id_prefix, 'earthmodel/ak135')) arrival.earth_model_id = ResourceIdentifier(id=res_id) origin.arrivals.append(arrival) origin.quality.minimum_distance = min( d for d in (arrival.distance, origin.quality.minimum_distance) if d is not None) origin.quality.maximum_distance = \ max(arrival.distance, origin.quality.minimum_distance) origin.quality.associated_phase_count += 1 return pick, arrival