#!/usr/bin/env python
# -*- coding: utf-8 -*-
# vim: tabstop=4 shiftwidth=4 softtabstop=4
#
# LICENSE
#
# Copyright (C) 2010-2018 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.
# -*- coding: utf-8 -*-
'''
Defines the :class:
`openquake.hmtk.sources.complex_fault_source.mtkComplexFaultSource`, which
represents the openquake.hmtk defition of a complex fault source. This extends
the :class:`nrml.models.ComplexFaultSource`
'''
import warnings
import numpy as np
from math import fabs
from openquake.hazardlib.geo.point import Point
from openquake.hazardlib.geo.line import Line
from openquake.hazardlib.geo.surface.complex_fault import ComplexFaultSurface
from openquake.hazardlib.source.complex_fault import ComplexFaultSource
import openquake.hmtk.sources.source_conversion_utils as conv
[docs]class mtkComplexFaultSource(object):
'''
New class to describe the mtk complex fault source object
:param str identifier:
ID code for the source
:param str name:
Source name
:param str trt:
Tectonic region type
:param geometry:
Instance of :class: nhlib.geo.surface.complex_fault.ComplexFaultSource
:param str mag_scale_rel:
Magnitude scaling relationsip
:param float rupt_aspect_ratio:
Rupture aspect ratio
:param mfd:
Magnitude frequency distribution as instance of
:class:`nrml.models.IncrementalMFD` or
:class:`nrml.models.TGRMFD`
:param float rake:
Rake of fault
:param float upper_depth:
Upper seismogenic depth (km)
:param float lower_depth:
Lower seismogenic depth (km)
:param catalogue:
Earthquake catalogue associated to source as instance of
:class:`openquake.hmtk.seismicity.catalogue.Catalogue` object
'''
def __init__(self, identifier, name, trt=None, geometry=None,
mag_scale_rel=None, rupt_aspect_ratio=None, mfd=None,
rake=None):
'''
Instantiate class with just the basic attributes: identifier and name
'''
self.typology = 'ComplexFault'
self.id = identifier
self.name = name
self.trt = trt
self.geometry = geometry
self.fault_edges = None
self.mag_scale_rel = mag_scale_rel
self.rupt_aspect_ratio = rupt_aspect_ratio
self.mfd = mfd
self.rake = rake
self.upper_depth = None
self.lower_depth = None
self.catalogue = None
self.dip = None
[docs] def create_geometry(self, input_geometry, mesh_spacing=1.0):
'''
If geometry is defined as a numpy array then create instance of
nhlib.geo.line.Line class, otherwise if already instance of class
accept class
:param input_geometry:
List of at least two fault edges of the fault source from
shallowest to deepest. Each edge can be represented as as either
i) instance of nhlib.geo.polygon.Polygon class
ii) numpy.ndarray [Longitude, Latitude, Depth]
:param float mesh_spacing:
Spacing of the fault mesh (km) {default = 1.0}
'''
if not isinstance(input_geometry, list) or len(input_geometry) < 2:
raise ValueError('Complex fault geometry incorrectly defined')
self.fault_edges = []
for edge in input_geometry:
if not isinstance(edge, Line):
if not isinstance(edge, np.ndarray):
raise ValueError('Unrecognised or unsupported geometry '
'definition')
else:
self.fault_edges.append(Line([Point(row[0], row[1], row[2])
for row in edge]))
else:
self.fault_edges.append(edge)
# Updates the upper and lower sesmogenic depths to reflect geometry
self._get_minmax_edges(edge)
# Build fault surface
self.geometry = ComplexFaultSurface.from_fault_data(self.fault_edges,
mesh_spacing)
# Get a mean dip
self.dip = self.geometry.get_dip()
def _get_minmax_edges(self, edge):
'''
Updates the upper and lower depths based on the input edges
'''
if isinstance(edge, Line):
# For instance of line class need to loop over values
depth_vals = np.array([node.depth for node in edge.points])
else:
depth_vals = edge[:, 2]
temp_upper_depth = np.min(depth_vals)
if not self.upper_depth:
self.upper_depth = temp_upper_depth
else:
if temp_upper_depth < self.upper_depth:
self.upper_depth = temp_upper_depth
temp_lower_depth = np.max(depth_vals)
if not self.lower_depth:
self.lower_depth = temp_lower_depth
else:
if temp_lower_depth > self.lower_depth:
self.lower_depth = temp_lower_depth
[docs] def select_catalogue(self, selector, distance,
distance_metric='joyner-boore', upper_eq_depth=None,
lower_eq_depth=None):
'''
Selects earthquakes within a distance of the fault
:param selector:
Populated instance of :class:
`openquake.hmtk.seismicity.selector.CatalogueSelector`
:param distance:
Distance from point (km) for selection
:param str distance_metric
Choice of fault source distance metric 'joyner-boore' or 'rupture'
:param float upper_eq_depth:
Upper hypocentral depth of hypocentres to be selected
:param float lower_eq_depth:
Lower hypocentral depth of hypocentres to be selected
'''
if selector.catalogue.get_number_events() < 1:
raise ValueError('No events found in catalogue!')
# If dip is != 90 and 'rupture' distance metric is selected
if ('rupture' in distance_metric) and (fabs(self.dip - 90) > 1E-5):
# Use rupture distance
self.catalogue = selector.within_rupture_distance(
self.geometry,
distance,
upper_depth=upper_eq_depth,
lower_depth=lower_eq_depth)
else:
# Use Joyner-Boore distance
self.catalogue = selector.within_joyner_boore_distance(
self.geometry,
distance,
upper_depth=upper_eq_depth,
lower_depth=lower_eq_depth)
if self.catalogue.get_number_events() < 5:
# Throw a warning regarding the small number of earthquakes in
# the source!
warnings.warn('Source %s (%s) has fewer than 5 events'
% (self.id, self.name))
[docs] def create_oqhazardlib_source(self, tom, mesh_spacing, use_defaults=False):
"""
Creates an instance of the source model as :class:
openquake.hazardlib.source.complex_fault.ComplexFaultSource
"""
if not self.mfd:
raise ValueError("Cannot write to hazardlib without MFD")
return ComplexFaultSource(
self.id,
self.name,
self.trt,
self.mfd,
mesh_spacing,
conv.mag_scale_rel_to_hazardlib(self.mag_scale_rel, use_defaults),
conv.render_aspect_ratio(self.rupt_aspect_ratio, use_defaults),
tom,
self.fault_edges,
self.rake)