Source code for openquake.hmtk.faults.tectonic_regionalisation

# -*- coding: utf-8 -*-
# vim: tabstop=4 shiftwidth=4 softtabstop=4

#
# LICENSE
#
# Copyright (C) 2010-2020 GEM Foundation, G. Weatherill, M. Pagani,
# D. Monelli.
#
# The Hazard Modeller's Toolkit 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.

'''
:mod:`openquake.hmtk.regionalisation.tectonic_regionalisation` implements
:class:`openquake.hmtk.ancillary.tectonic_regionalisation.TectonicRegion`,
defining the methods and attributes associated with a region, and the
:class:`openquake.hmtk.ancillary.tectonic_regionalisation.TectonicRegionalisation` defining a regionalisation as a set of regions
'''
from math import fabs
import numpy as np
from openquake.hazardlib.scalerel.wc1994 import WC1994

DEFAULT_SHEAR_MODULUS = [(30.0, 1.0)]
DEFAULT_DLR = [(1.25E-5, 1.0)]
DEFAULT_MSR = [(WC1994(), 1.0)]


def _check_list_weights(parameter, name):
    '''
    Checks that the weights in a list of tuples sums to 1.0
    '''
    if not isinstance(parameter, list):
        raise ValueError('%s must be formatted with a list of tuples' % name)
    weight = np.sum([val[1] for val in parameter])
    if fabs(weight - 1.) > 1E-8:
        raise ValueError('%s weights do not sum to 1.0!' % name)
    return parameter


[docs]class TectonicRegion(object): ''' Definition of the tectonic region ''' def __init__(self, identifier, name, shear_modulus=None, disp_length_ratio=None, scaling_rel=None): shear_modulus = shear_modulus or DEFAULT_SHEAR_MODULUS disp_length_ratio = disp_length_ratio or DEFAULT_DLR scaling_rel = scaling_rel or DEFAULT_MSR self.id = identifier self.region_name = name self.shear_modulus = _check_list_weights( shear_modulus, 'Shear Modulus ' + self.region_name) self.disp_length_ratio = _check_list_weights( disp_length_ratio, 'Displacement to Length Ratio ' + self.region_name) self.scaling_rel = _check_list_weights( scaling_rel, 'Scaling Relation ' + self.region_name)
[docs]class TectonicRegionalisation(object): ''' Defines a set of regionalisations ''' def __init__(self): ''' ''' self.regionalisation = [] self.key_list = []
[docs] def populate_regions(self, tectonic_region_dict): ''' Populates the tectonic region from the list of dictionaries, where each region is a dictionary of with the following format:: region = {'Shear_Modulus': [(val1, weight1), (val2, weight2), ...], 'Displacement_Length_Ratio': [(val1, weight1), ...], 'Magnitude_Scaling_Relation': [(val1, weight1), ...]} ''' for tect_reg in tectonic_region_dict: if 'Shear_Modulus' in tect_reg.keys(): shear_modulus = tect_reg['Shear_Modulus'] else: shear_modulus = DEFAULT_SHEAR_MODULUS if 'Displacement_Length_Ratio' in tect_reg.keys(): disp_length_ratio = tect_reg['Displacement_Length_Ratio'] else: disp_length_ratio = DEFAULT_DLR if 'Magnitude_Scaling_Relation' in tect_reg.keys(): scaling_relation = tect_reg['Magnitude_Scaling_Relation'] else: scaling_relation = DEFAULT_MSR self.regionalisation.append( TectonicRegion( tect_reg['Code'], tect_reg['Name'], shear_modulus, disp_length_ratio, scaling_relation)) self.key_list.append(tect_reg['Name'])
[docs] def get_number_regions(self): ''' Returns the number of tectonic regions in a regionalisation ''' return len(self.key_list)