Source code for openquake.hmtk.seismicity.max_magnitude.base

#!/usr/bin/env python
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'''
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()