Source code for openquake.hmtk.seismicity.max_magnitude.base
#!/usr/bin/env python
# LICENSE
#
# Copyright (C) 2010-2018 GEM Foundation, G. Weatherill, M. Pagani, D. Monelli
#
# The Hazard Modeller's Toolkit (openquake.hmtk) is free software: you can redistribute
# it and/or modify it under the terms of the GNU Affero General Public License
# as published by the Free Software Foundation, either version 3 of the
# License, or (at your option) any later version.
#
# You should have received a copy of the GNU Affero General Public License
# along with OpenQuake. If not, see <http://www.gnu.org/licenses/>
#
# DISCLAIMER
#
# The software Hazard Modeller's Toolkit (openquake.hmtk) provided herein is released as
# a prototype implementation on behalf of scientists and engineers working
# within the GEM Foundation (Global Earthquake Model).
#
# It is distributed for the purpose of open collaboration and in the hope that
# it will be useful to the scientific, engineering, disaster risk and software
# design communities.
#
# The software is NOT distributed as part of GEM's OpenQuake suite
# (https://www.globalquakemodel.org/tools-products) and must be considered as a
# separate entity. The software provided herein is designed and implemented
# by scientific staff. It is not developed to the design standards, nor
# subject to same level of critical review by professional software developers,
# as GEM's OpenQuake software suite.
#
# Feedback and contribution to the software is welcome, and can be directed to
# the hazard scientific staff of the GEM Model Facility
# (hazard@globalquakemodel.org).
#
# The Hazard Modeller's Toolkit (openquake.hmtk) is therefore distributed WITHOUT ANY
# WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
# details.
#
# The GEM Foundation, and the authors of the software, assume no liability for
# use of the software.
'''
Module :mod:'openquake.hmtk.seismicity.max_magnitude.base' defines and abstract base
class for instrumental estimators of maximum magnitude
:class: openquake.hmtk.seismicity.max_magnitude.base
'''
import abc
import numpy as np
from openquake.hmtk.registry import CatalogueFunctionRegistry
def _get_observed_mmax(catalogue, config):
'''Check see if observed mmax values are input, if not then take
from the catalogue'''
if config['input_mmax']:
obsmax = config['input_mmax']
if config['input_mmax_uncertainty']:
return config['input_mmax'], config['input_mmax_uncertainty']
else:
raise ValueError('Input mmax uncertainty must be specified!')
max_location = np.argmax(catalogue['magnitude'])
obsmax = catalogue['magnitude'][max_location]
cond = isinstance(catalogue['sigmaMagnitude'], np.ndarray) and \
len(catalogue['sigmaMagnitude']) > 0 and not \
np.all(np.isnan(catalogue['sigmaMagnitude']))
if cond:
if not np.isnan(catalogue['sigmaMagnitude'][max_location]):
return obsmax, catalogue['sigmaMagnitude'][max_location]
else:
print('Uncertainty not given on observed Mmax\n'
'Taking largest magnitude uncertainty found in catalogue')
return obsmax, np.nanmax(catalogue['sigmaMagnitude'])
elif config['input_mmax_uncertainty']:
return obsmax, config['input_mmax_uncertainty']
else:
raise ValueError('Input mmax uncertainty must be specified!')
# if not config['input_mmax']:
# # If maxmag is False then maxmag is maximum from magnitude list
# max_location = np.argmax(catalogue['magnitude'])
# obsmax = catalogue['magnitude'][max_location]
# if not isinstance(catalogue['sigmaMagnitude'], np.ndarray):
# obsmaxsig = 0.2
# else:
# obsmaxsig = catalogue['sigmaMagnitude'][max_location]
# else:
# obsmaxsig = config['input_mmax_uncertainty']
# obsmax = config['input_mmax']
# if not obsmaxsig or np.isnan(obsmaxsig):
# print('Uncertainty on observed Mmax is not specified')
# if not np.all(np.isnan(catalogue['sigmaMagnitude'])):
# print('Taking from largest magnitude uncertainty in catalogue')
#
# return obsmax, obsmaxsig
def _get_magnitude_vector_properties(catalogue, config):
'''If an input minimum magnitude is given then consider catalogue
only above the minimum magnitude - returns corresponding properties'''
mmin = config.get('input_mmin', np.min(catalogue['magnitude']))
neq = np.float(np.sum(catalogue['magnitude'] >= mmin - 1.E-7))
return neq, mmin
[docs]class BaseMaximumMagnitude(object):
'''
Abstract base class for implementation of the maximum magnitude estimation
based on instrumental/historical seismicity
'''
__metaclass__ = abc.ABCMeta
[docs] @abc.abstractmethod
def get_mmax(self, catalogue, config):
'''
Analyses the catalogue to infer the maximum magnitude from a
statistical process
:param catalogue:
Earthquake catalogue as instance of the :class:
'openquake.hmtk.seismicity.catalogue.Catalogue'
:param dict config:
Configuration parameters of the algorithm
:returns:
* Maximum magnitude (float)
* Maximum magnitude uncertainty (float)
'''
MAX_MAGNITUDE_METHODS = CatalogueFunctionRegistry()