Source code for

# -*- coding: utf-8 -*-
# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright (C) 2014-2022 GEM Foundation
# OpenQuake 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.
# OpenQuake is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# GNU Affero General Public License for more details.
# You should have received a copy of the GNU Affero General Public License
# along with OpenQuake. If not, see <>.
import os
import sys
import string
import inspect
import unittest.mock as mock
import logging
import operator
import collections
import numpy
from decorator import FunctionMaker
from openquake.baselib import config
from openquake.baselib.general import groupby, gen_subclasses, humansize
from openquake.baselib.performance import Monitor
from openquake.hazardlib import gsim, nrml, imt
from openquake.hazardlib.mfd.base import BaseMFD
from openquake.hazardlib.source.base import BaseSeismicSource
from openquake.hazardlib.calc.disagg import pmf_map
from openquake.commonlib.oqvalidation import OqParam
from openquake.commonlib import readinput, logictree
from openquake.risklib import scientific
from openquake.calculators.export import export
from openquake.calculators.extract import extract
from openquake.calculators import base, reportwriter
from openquake.calculators.views import view, text_table
from openquake.server.db.actions import DISPLAY_NAME

[docs]def source_model_info(sm_nodes): """ Extract information about source models. Returns a table with TRTs as rows and source classes as columns. """ c = collections.Counter() for sm in sm_nodes: groups = [sm[0]] if sm['xmlns'].endswith('nrml/0.4') else sm[0] for group in groups: grp_trt = group.get('tectonicRegion') for src in group: trt = src.get('tectonicRegion', grp_trt) src_class = src.tag.split('}')[1] c[trt, src_class] += 1 trts, classes = zip(*c) trts = sorted(set(trts)) classes = sorted(set(classes)) dtlist = [('TRT', (bytes, 30))] + [(name, int) for name in classes] out = numpy.zeros(len(trts) + 1, dtlist) # +1 for the totals for i, trt in enumerate(trts): out[i]['TRT'] = trt for src_class in classes: out[i][src_class] = c[trt, src_class] out[-1]['TRT'] = 'Total' for name in out.dtype.names[1:]: out[-1][name] = out[name][:-1].sum() return text_table(out)
[docs]def do_build_reports(directory): """ Walk the directory and builds pre-calculation reports for all the job.ini files found. """ for cwd, dirs, files in os.walk(directory): for f in sorted(files): if f in ('job.ini', 'job_h.ini', 'job_haz.ini', 'job_hazard.ini'): job_ini = os.path.join(cwd, f) logging.warning(job_ini) try: reportwriter.build_report(job_ini, cwd) except Exception as e: logging.error(str(e))
choices = ['calculators', 'gsims', 'imts', 'views', 'exports', 'disagg', 'extracts', 'parameters', 'sources', 'mfds', 'venv']
[docs]def is_upper(func): """ True if the name of the function starts with an uppercase character """ char = func.__name__[0] return char in string.ascii_uppercase
[docs]def main(what, report=False): """ Give information about the passed keyword or filename """ if os.environ.get('OQ_DISTRIBUTE') not in ('no', 'processpool'): os.environ['OQ_DISTRIBUTE'] = 'processpool' if what == 'calculators': for calc in sorted(base.calculators): print(calc) elif what == 'gsims': for gs in gsim.get_available_gsims(): print(gs) elif what == 'portable_gsims': for gs in gsim.get_portable_gsims(): print(gs) elif what == 'imts': for im in vars(imt).values(): if inspect.isfunction(im) and is_upper(im): print(im.__name__) elif what == 'views': for name in sorted(view): print(name) elif what == 'exports': dic = groupby(export, operator.itemgetter(0), lambda group: [r[1] for r in group]) items = [(DISPLAY_NAME.get(exporter, '?'), exporter, formats) for exporter, formats in dic.items()] n = 0 for dispname, exporter, formats in sorted(items): print(dispname, '"%s"' % exporter, formats) n += len(formats) print('There are %d exporters defined.' % n) elif what == 'extracts': for key in extract: func = extract[key] if hasattr(func, '__wrapped__'): fm = FunctionMaker(func.__wrapped__) elif hasattr(func, 'func'): # for partial objects fm = FunctionMaker(func.func) else: fm = FunctionMaker(func) print('%s(%s)%s' % (, fm.signature, fm.doc)) elif what == 'parameters': docs = names = set() for val in vars(OqParam).values(): if hasattr(val, 'name'): names.add( params = sorted(names) for param in params: print(param) print(docs[param]) elif what == 'mfds': for cls in gen_subclasses(BaseMFD): print(cls.__name__) elif what == 'venv': print(sys.prefix) elif what == 'cfg': print('Looking at the following paths (the last wins)') for path in config.paths: print(path) elif what == 'sources': for cls in gen_subclasses(BaseSeismicSource): print(cls.__name__) elif what == 'disagg': for out in pmf_map: print(out) elif what == 'consequences': known = scientific.KNOWN_CONSEQUENCES print('The following %d consequences are implemented:' % len(known)) for cons in known: print(cons) elif os.path.isdir(what) and report: with Monitor('info', measuremem=True) as mon: with mock.patch.object(logging.root, 'info'): # reduce logging do_build_reports(what) print(mon) elif what.endswith('.xml'): node = if node[0].tag.endswith('sourceModel'): print(source_model_info([node])) elif node[0].tag.endswith('logicTree'): bset = node[0][0] if bset.tag.endswith("logicTreeBranchingLevel"): bset = bset[0] if bset.attrib['uncertaintyType'] == 'sourceModel': sm_nodes = [] for smpath in logictree.collect_info(what).smpaths: sm_nodes.append( print(source_model_info(sm_nodes)) elif bset.attrib['uncertaintyType'] == 'gmpeModel': print(logictree.GsimLogicTree(what)) else: print(node.to_str()) elif what.endswith(('.ini', '.zip')): with Monitor('info', measuremem=True) as mon: if report: print('Generated', reportwriter.build_report(what)) else: oq = readinput.get_oqparam(what) lt = readinput.get_logic_tree(oq) size = humansize(oq.get_input_size()) print('calculation_mode: %s' % oq.calculation_mode) print('description: %s' % oq.description) print('input size: %s' % size) for i, bset in enumerate(lt.branchsets): print('branchset%d: %r' % (i, bset)) if mon.duration > 1: print(mon) elif what: print("No info for '%s'" % what)
main.what = 'filename or one of %s' % ', '.join(choices) = 'build rst report from job.ini file or zip archive'