import shutil import unittest import numpy as num from matplotlib import image, pyplot as plt from pyrocko import util, gmtpy from pyrocko import automap import common noshow = False km = 1000. @unittest.skipUnless( gmtpy.have_gmt(), 'GMT not available') @unittest.skipUnless( gmtpy.have_pixmaptools(), '`pdftocairo` or `convert` not available') class AutomapTestCase(unittest.TestCase): def setUp(self): self.tempdir = tempfile.mkdtemp() def tearDown(self): shutil.rmtree(self.tempdir) def fpath(self, fn): return os.path.join(self.tempdir, fn) def fpath_ref(self, fn): try:
class ScenarioTestCase(unittest.TestCase): store_id = 'crust2_m5_hardtop_8Hz_fine' store_id_static = 'ak135_static' tempdirs = [] @classmethod def tearDownClass(cls): for d in cls.tempdirs: continue shutil.rmtree(d) @unittest.skipUnless(*have_store(store_id)) def test_scenario_waveforms(self): tempdir = mkdtemp(prefix='pyrocko-scenario') self.tempdirs.append(tempdir) vmin = 2500. generator = scenario.ScenarioGenerator( seed=20, center_lat=42.6, center_lon=13.3, radius=60*km, target_generators=[ targets.WaveformGenerator( store_id=ScenarioTestCase.store_id, station_generator=targets.RandomStationGenerator( nstations=5, avoid_water=False), noise_generator=targets.waveform.WhiteNoiseGenerator(), seismogram_quantity='velocity'), ], source_generator=scenario.DCSourceGenerator( time_min=util.str_to_time('2017-01-01 00:00:00'), time_max=util.str_to_time('2017-01-01 02:00:00'), radius=10*km, depth_min=1*km, depth_max=10*km, magnitude_min=3.0, magnitude_max=4.5, strike=120., dip=45., rake=90., perturbation_angle_std=15., nevents=3) ) def twin(source): tmin = source.time tmax = source.time + 100*km / vmin return tmin, tmax engine = gf.get_engine() generator.init_modelling(engine) ref_sources = generator.get_sources() ref_trs_list = [] for source in ref_sources: trs = generator.get_waveforms(*twin(source)) trs.sort(key=lambda tr: tr.nslc_id) ref_trs_list.append(trs) collection = scenario.ScenarioCollection(tempdir, engine) collection.add_scenario('one', generator) with self.assertRaises(scenario.ScenarioError): collection.add_scenario('one', generator) assert len(collection.list_scenarios()) == 1 assert collection.list_scenarios()[0].scenario_id == 'one' s = collection.get_scenario('one') for ref_trs, source in zip( ref_trs_list, s.get_generator().get_sources()): trs = generator.get_waveforms(*twin(source)) trs.sort(key=lambda tr: tr.nslc_id) self.assert_traces_almost_equal(trs, ref_trs) collection2 = scenario.ScenarioCollection(tempdir, engine) assert len(collection2.list_scenarios()) == 1 assert collection2.list_scenarios()[0].scenario_id == 'one' s = collection2.get_scenario('one') for ref_trs, source in zip( ref_trs_list, s.get_generator().get_sources()): trs = generator.get_waveforms(*twin(source)) trs.sort(key=lambda tr: tr.nslc_id) self.assert_traces_almost_equal(trs, ref_trs) tmin, tmax = s.get_time_range() s.ensure_data(tmin, tmax) p = s.get_waveform_pile() for ref_trs, source in zip( ref_trs_list, s.get_generator().get_sources()): tmin, tmax = twin(source) trs = p.all(tmin=tmin, tmax=tmax, include_last=False) trs.sort(key=lambda tr: tr.nslc_id) self.assert_traces_almost_equal(trs, ref_trs) @unittest.skipUnless( have_kite(), 'Kite is not available') @unittest.skipUnless(*have_store(store_id)) @unittest.skipUnless(*have_store(store_id_static)) def test_scenario_insar(self): tempdir = mkdtemp(prefix='pyrocko-scenario') self.tempdirs.append(tempdir) generator = scenario.ScenarioGenerator( seed=20, center_lat=42.6, center_lon=13.3, radius=60*km, target_generators=[ targets.InSARGenerator( resolution=(20, 20), noise_generator=targets.insar.AtmosphericNoiseGenerator( amplitude=1e-5)) ], source_generator=scenario.DCSourceGenerator( time_min=util.str_to_time('2017-01-01 00:00:00'), time_max=util.str_to_time('2017-01-01 02:00:00'), radius=10*km, depth_min=1*km, depth_max=10*km, magnitude_min=3.0, magnitude_max=4.5, strike=120., dip=45., rake=90., perturbation_angle_std=15., nevents=3) ) engine = gf.get_engine() generator.init_modelling(engine) collection = scenario.ScenarioCollection(tempdir, engine) collection.add_scenario('insar', generator) s = collection.get_scenario('insar') s.ensure_data() @unittest.skipUnless(*have_store(store_id_static)) def test_scenario_gnss(self): tempdir = mkdtemp(prefix='pyrocko-scenario') self.tempdirs.append(tempdir) generator = scenario.ScenarioGenerator( seed=20, center_lat=42.6, center_lon=13.3, radius=60*km, target_generators=[ targets.GNSSCampaignGenerator( station_generator=targets.RandomStationGenerator( avoid_water=False, channels=None)) ], source_generator=scenario.DCSourceGenerator( time_min=util.str_to_time('2017-01-01 00:00:00'), time_max=util.str_to_time('2017-01-01 02:00:00'), radius=10*km, depth_min=1*km, depth_max=10*km, magnitude_min=3.0, magnitude_max=4.5, strike=120., dip=45., rake=90., perturbation_angle_std=15., nevents=3) ) engine = gf.get_engine() generator.init_modelling(engine) collection = scenario.ScenarioCollection(tempdir, engine) collection.add_scenario('gnss', generator) s = collection.get_scenario('gnss') assert len(s.get_gnss_campaigns()) == 1 @unittest.skipUnless( have_kite(), 'Kite is not available') @unittest.skipUnless(*have_store(store_id)) @unittest.skipUnless(*have_store(store_id_static)) def test_scenario_combinations(self): generator = scenario.ScenarioGenerator( seed=20, center_lat=42.6, center_lon=13.3, radius=60*km, target_generators=[ targets.WaveformGenerator( store_id=ScenarioTestCase.store_id, station_generator=targets.RandomStationGenerator( avoid_water=False), noise_generator=targets.waveform.WhiteNoiseGenerator(), seismogram_quantity='velocity'), targets.InSARGenerator( resolution=(20, 20), noise_generator=targets.insar.AtmosphericNoiseGenerator( amplitude=1e-5)), targets.GNSSCampaignGenerator( station_generator=targets.RandomStationGenerator( avoid_water=False, channels=None)) ], source_generator=scenario.DCSourceGenerator( time_min=util.str_to_time('2017-01-01 00:00:00'), time_max=util.str_to_time('2017-01-01 02:00:00'), radius=10*km, depth_min=1*km, depth_max=10*km, magnitude_min=3.0, magnitude_max=4.5, strike=120., dip=45., rake=90., perturbation_angle_std=15., nevents=3) ) engine = gf.get_engine() generator.init_modelling(engine) for src in scenario.sources.AVAILABLE_SOURCES: generator.source_generator = src( time_min=util.str_to_time('2017-01-01 00:00:00'), time_max=util.str_to_time('2017-01-01 02:00:00'), radius=1*km, depth_min=1.5*km, depth_max=5*km, magnitude_min=3.0, magnitude_max=4.5) generator.source_generator.update_hierarchy(generator) generator.get_stations() generator.get_waveforms() generator.get_insar_scenes() generator.get_gnss_campaigns() @unittest.skipUnless(*have_store(store_id_static)) @unittest.skipUnless( gmtpy.have_gmt(), 'GMT not available') @unittest.skipUnless( have_srtm_credentials(), 'No Earthdata credentials in config.') def test_scenario_map(self): tempdir = mkdtemp(prefix='pyrocko-scenario') self.tempdirs.append(tempdir) generator = scenario.ScenarioGenerator( seed=20, center_lat=42.6, center_lon=13.3, radius=60*km, target_generators=[ targets.WaveformGenerator( store_id=ScenarioTestCase.store_id, station_generator=targets.RandomStationGenerator( avoid_water=False), noise_generator=targets.waveform.WhiteNoiseGenerator(), seismogram_quantity='velocity'), targets.InSARGenerator( resolution=(20, 20), noise_generator=targets.insar.AtmosphericNoiseGenerator( amplitude=1e-5)), targets.GNSSCampaignGenerator( station_generator=targets.RandomStationGenerator( avoid_water=False, channels=None)) ], source_generator=scenario.DCSourceGenerator( time_min=util.str_to_time('2017-01-01 00:00:00'), time_max=util.str_to_time('2017-01-01 02:00:00'), radius=10*km, depth_min=1*km, depth_max=10*km, magnitude_min=3.0, magnitude_max=4.5, strike=120., dip=45., rake=90., perturbation_angle_std=15., nevents=3) ) engine = gf.get_engine() collection = scenario.ScenarioCollection(tempdir, engine) collection.add_scenario('plot', generator) s = collection.get_scenario('plot') s.get_map() def assert_traces_almost_equal(self, trs1, trs2): assert len(trs1) == len(trs2) for (tr1, tr2) in zip(trs1, trs2): tr1.assert_almost_equal(tr2)
import tempfile import shutil import unittest import numpy as num from numpy.testing import assert_allclose from matplotlib import image, pyplot as plt from pyrocko import util, gmtpy from pyrocko.gmtpy import cm, inch, golden_ratio import common noshow = False @unittest.skipUnless(gmtpy.have_gmt(), 'GMT not available') @unittest.skipUnless(gmtpy.have_pixmaptools(), '`pdftocairo` or `convert` not available') class GmtPyTestCase(unittest.TestCase): def setUp(self): self.tempdir = tempfile.mkdtemp() def tearDown(self): shutil.rmtree(self.tempdir) def fpath(self, fn): return os.path.join(self.tempdir, fn) def fpath_ref(self, fn): try: return common.test_data_file(fn)