def test_getEventsWithUTCDateTimes(self): """ Testing event request method with UTCDateTimes as input parameters. """ client = Client() # 1 results = client.getEvents(format="list", min_depth=-700, max_datetime=UTCDateTime("2005-01-01")) expected = [{'author': u'EMSC', 'event_id': u'20040312_0000026', 'origin_id': 1347097, 'longitude': 57.143, 'datetime': UTCDateTime('2004-03-12T22:48:05Z'), 'depth': -700.0, 'magnitude': 4.4, 'magnitude_type': u'mb', 'latitude': 26.303, 'flynn_region': u'SOUTHERN IRAN'}] self.assertEqual(results, expected) # 2 results = client.getEvents(format="list", min_depth=-700, min_datetime=UTCDateTime("2004-01-01"), max_datetime=UTCDateTime("2005-01-01")) expected = [{'author': u'EMSC', 'event_id': u'20040312_0000026', 'origin_id': 1347097, 'longitude': 57.143, 'datetime': UTCDateTime('2004-03-12T22:48:05Z'), 'depth': -700.0, 'magnitude': 4.4, 'magnitude_type': u'mb', 'latitude': 26.303, 'flynn_region': u'SOUTHERN IRAN'}] self.assertEqual(results, expected)
def test_getEventsAsQuakeML(self): """ Testing event request with QuakeML as output format. """ client = Client() results = client.getEvents(format="xml", min_depth=-700, max_datetime=UTCDateTime("2005-01-01")) self.assertTrue(isinstance(results, basestring)) # check for origin id self.assertTrue('1347097' in results)
def test_getEventsAsCatalog(self): """ Testing event request with Catalog as output format. """ client = Client() cat = client.getEvents(format="catalog", min_depth=-700, max_datetime=UTCDateTime("2005-01-01")) self.assertTrue(isinstance(cat, Catalog)) # check for origin id self.assertTrue(cat[0].preferred_origin_id.endswith('1347097'))
def get_events(self): """ Method to fetch updated list of events to use in plot. """ with self.lock: start, end = self.stream[0].stats.starttime, self.stream[0].stats.endtime c = Client() events = c.getEvents(min_datetime=start, max_datetime=end, format="catalog", min_magnitude=self.args.events) return events
def test_issue531(self): """ Event_type "other" has been replaced by "other event" in recent QuakeML version """ client = Client(user='******') events = client.getEvents(minlon=-30, maxlon=40, minlat=30, maxlat=90, min_datetime=UTCDateTime(2000, 4, 11, 11, 24, 31), max_datetime=UTCDateTime(2000, 4, 11, 11, 24, 32), minmag=5.5, format='catalog') self.assertEquals(len(events), 1) self.assertEquals(events[0].event_type, 'other event')
def get_events(self): """ Method to fetch updated list of events to use in plot. """ with self.lock: start, end = self.stream[0].stats.starttime, self.stream[ 0].stats.endtime c = Client() events = c.getEvents(min_datetime=start, max_datetime=end, format="catalog", min_magnitude=self.args.events) return events
def test_getEventDetail(self): """ Testing event detail request method. """ client = Client() # EMSC identifier # xml data = client.getEventDetail("19990817_0000001", format='xml') self.assertTrue(isinstance(data, basestring)) self.assertTrue(data.startswith('<?xml')) # list data = client.getEventDetail("19990817_0000001", format='list') self.assertTrue(isinstance(data, list)) # catalog data = client.getEventDetail("19990817_0000001", format='catalog') self.assertTrue(isinstance(data, Catalog)) # QuakeML identifier # xml data = client.getEventDetail("quakeml:eu.emsc/event#19990817_0000001", format='xml') self.assertTrue(data.startswith('<?xml')) # list data = client.getEventDetail("quakeml:eu.emsc/event#19990817_0000001", format='list') self.assertTrue(isinstance(data, list)) # catalog data = client.getEventDetail("quakeml:eu.emsc/event#19990817_0000001", format='catalog') self.assertTrue(isinstance(data, Catalog))
def test_issue531(self): """ Event_type "other" has been replaced by "other event" in recent QuakeML version """ client = Client(user='******') events = client.getEvents( minlon=-30, maxlon=40, minlat=30, maxlat=90, min_datetime=UTCDateTime(2000, 4, 11, 11, 24, 31), max_datetime=UTCDateTime(2000, 4, 11, 11, 24, 32), minmag=5.5, format='catalog') self.assertEquals(len(events), 1) self.assertEquals(events[0].event_type, 'other event')
def test_getTravelTimes(self): """ Testing request method for calculating travel times. """ client = Client() # 1 result = client.getTravelTimes(20, 20, 10, [(48, 12)], 'ak135') self.assertEqual(len(result), 1) self.assertAlmostEqual(result[0]['P'], 356988.24732429383) self.assertAlmostEqual(result[0]['S'], 645775.5623471631) # 2 result = client.getTravelTimes(0, 0, 10, [(120, 0), (150, 0), (180, 0)]) self.assertEqual(len(result), 3) self.assertAlmostEqual(result[0]['P'], 605519.0321213702) self.assertAlmostEqual(result[0]['S'], 1097834.6352750373) self.assertAlmostEqual(result[1]['P'], 367256.0587305712) self.assertAlmostEqual(result[1]['S'], 665027.0583152708) self.assertEqual(result[2], {})
def test_getTravelTimes(self): """ Testing request method for calculating travel times. """ client = Client() # 1 result = client.getTravelTimes(20, 20, 10, [(48, 12)], 'ak135') self.assertEquals(len(result), 1) self.assertAlmostEquals(result[0]['P'], 356988.24732429383) self.assertAlmostEquals(result[0]['S'], 645775.5623471631) # 2 result = client.getTravelTimes(0, 0, 10, [(120, 0), (150, 0), (180, 0)]) self.assertEquals(len(result), 3) self.assertAlmostEquals(result[0]['P'], 605519.0321213702) self.assertAlmostEquals(result[0]['S'], 1097834.6352750373) self.assertAlmostEquals(result[1]['P'], 367256.0587305712) self.assertAlmostEquals(result[1]['S'], 665027.0583152708) self.assertEquals(result[2], {})
def test_getEventsWithUTCDateTimes(self): """ Testing event request method with UTCDateTimes as input parameters. """ client = Client() # 1 results = client.getEvents(format="list", min_depth=-700, max_datetime=UTCDateTime("2005-01-01")) expected = [{ 'author': u'EMSC', 'event_id': u'20040312_0000026', 'origin_id': 1347097, 'longitude': 57.143, 'datetime': UTCDateTime('2004-03-12T22:48:05Z'), 'depth': -700.0, 'magnitude': 4.4, 'magnitude_type': u'mb', 'latitude': 26.303, 'flynn_region': u'SOUTHERN IRAN' }] self.assertEquals(results, expected) # 2 results = client.getEvents(format="list", min_depth=-700, min_datetime=UTCDateTime("2004-01-01"), max_datetime=UTCDateTime("2005-01-01")) expected = [{ 'author': u'EMSC', 'event_id': u'20040312_0000026', 'origin_id': 1347097, 'longitude': 57.143, 'datetime': UTCDateTime('2004-03-12T22:48:05Z'), 'depth': -700.0, 'magnitude': 4.4, 'magnitude_type': u'mb', 'latitude': 26.303, 'flynn_region': u'SOUTHERN IRAN' }] self.assertEquals(results, expected)
def test_saveWaveform(self): """ """ # initialize client client = Client(user='******') start = UTCDateTime(2012, 1, 1) end = start + 10 with NamedTemporaryFile() as tf: mseedfile = tf.name # MiniSEED client.saveWaveform(mseedfile, 'BW', 'MANZ', '', 'EHZ', start, end) st = read(mseedfile) # MiniSEED may not start with Volume Index Control Headers (V) with open(mseedfile, 'rb') as fp: self.assertNotEqual(fp.read(8)[6:7], b"V") # ArcLink cuts on record base self.assertTrue(st[0].stats.starttime <= start) self.assertTrue(st[0].stats.endtime >= end) self.assertEqual(st[0].stats.network, 'BW') self.assertEqual(st[0].stats.station, 'MANZ') self.assertEqual(st[0].stats.location, '') self.assertEqual(st[0].stats.channel, 'EHZ') # Full SEED with NamedTemporaryFile() as tf: fseedfile = tf.name client.saveWaveform(fseedfile, 'BW', 'MANZ', '', 'EHZ', start, end, format='FSEED') st = read(fseedfile) # Full SEED must start with Volume Index Control Headers (V) with open(fseedfile, 'rb') as fp: self.assertEqual(fp.read(8)[6:7], b"V") # ArcLink cuts on record base self.assertTrue(st[0].stats.starttime <= start) self.assertTrue(st[0].stats.endtime >= end) self.assertEqual(st[0].stats.network, 'BW') self.assertEqual(st[0].stats.station, 'MANZ') self.assertEqual(st[0].stats.location, '') self.assertEqual(st[0].stats.channel, 'EHZ')
def test_saveWaveform(self): """ """ mseedfile = NamedTemporaryFile().name fseedfile = NamedTemporaryFile().name # initialize client client = Client(user='******') start = UTCDateTime(2008, 1, 1) end = start + 10 # MiniSEED client.saveWaveform(mseedfile, 'BW', 'MANZ', '', 'EHZ', start, end) st = read(mseedfile) # MiniSEED may not start with Volume Index Control Headers (V) self.assertNotEquals(open(mseedfile).read(8)[6], "V") # ArcLink cuts on record base self.assertTrue(st[0].stats.starttime <= start) self.assertTrue(st[0].stats.endtime >= end) self.assertEquals(st[0].stats.network, 'BW') self.assertEquals(st[0].stats.station, 'MANZ') self.assertEquals(st[0].stats.location, '') self.assertEquals(st[0].stats.channel, 'EHZ') os.remove(mseedfile) # Full SEED client.saveWaveform(fseedfile, 'BW', 'MANZ', '', 'EHZ', start, end, format='FSEED') st = read(fseedfile) # Full SEED must start with Volume Index Control Headers (V) self.assertEquals(open(fseedfile).read(8)[6], "V") # ArcLink cuts on record base self.assertTrue(st[0].stats.starttime <= start) self.assertTrue(st[0].stats.endtime >= end) self.assertEquals(st[0].stats.network, 'BW') self.assertEquals(st[0].stats.station, 'MANZ') self.assertEquals(st[0].stats.location, '') self.assertEquals(st[0].stats.channel, 'EHZ') os.remove(fseedfile)
def test_getInventory(self): """ Testing inventory requests. """ client = Client(user='******') dt1 = UTCDateTime("1974-01-01T00:00:00") dt2 = UTCDateTime("2011-01-01T00:00:00") # 1 - XML w/ instruments result = client.getInventory('GE', 'SNAA', '', 'BHZ', dt1, dt2, format='XML') self.assertTrue(result.startswith('<?xml')) self.assertTrue('code="GE"' in result) # 2 - SUDS object w/o instruments result = client.getInventory('GE', 'SNAA', '', 'BHZ', dt1, dt2, instruments=False) self.assertTrue(isinstance(result, object)) self.assertEqual(result.ArclinkInventory.inventory.network._code, 'GE') # 3 - SUDS object w/ instruments result = client.getInventory('GE', 'SNAA', '', 'BHZ', dt1, dt2, instruments=True) self.assertTrue(isinstance(result, object)) self.assertEqual(result.ArclinkInventory.inventory.network._code, 'GE') self.assertTrue('sensor' in result.ArclinkInventory.inventory) self.assertTrue('responsePAZ' in result.ArclinkInventory.inventory) # 4 - SUDS object with spatial filters client = Client(user='******') result = client.getInventory('GE', 'SNAA', '', 'BHZ', dt1, dt2, min_latitude=-72.0, max_latitude=-71.0, min_longitude=-3, max_longitude=-2) self.assertTrue(isinstance(result, object)) self.assertEqual(result.ArclinkInventory.inventory.network._code, 'GE') # 5 - SUDS object with spatial filters with incorrect coordinates client = Client(user='******') result = client.getInventory('GE', 'SNAA', '', 'BHZ', dt1, dt2, min_latitude=-71.0, max_latitude=-72.0, min_longitude=-2, max_longitude=-3) self.assertTrue(isinstance(result, object)) self.assertEqual(result.ArclinkInventory.inventory.network._code, 'GE')
def test_getLatestEvents(self): """ Testing request method for latest events. """ client = Client() # xml data = client.getLatestEvents(5, format='xml') self.assertTrue(isinstance(data, basestring)) self.assertTrue(data.startswith('<?xml')) # list data = client.getLatestEvents(5, format='list') self.assertTrue(isinstance(data, list)) self.assertEquals(len(data), 5) # catalog data = client.getLatestEvents(5, format='catalog') self.assertTrue(isinstance(data, Catalog)) # no given number of events should default to 10 data = client.getLatestEvents(format='list') self.assertEquals(len(data), 10) # invalid number of events should default to 10 data = client.getLatestEvents(num='blah', format='list') self.assertEquals(len(data), 10)
def test_getLatestEvents(self): """ Testing request method for latest events. XXX: Currently we can not rely on the length of the returned list due to a bug in Web Service implementation. """ client = Client() # xml data = client.getLatestEvents(5, format='xml') self.assertTrue(isinstance(data, bytes)) self.assertTrue(data.startswith(b'<?xml')) # list data = client.getLatestEvents(5, format='list') self.assertTrue(isinstance(data, list)) # catalog data = client.getLatestEvents(5, format='catalog') self.assertTrue(isinstance(data, Catalog)) # no given number of events should default to 10 data = client.getLatestEvents(format='list') self.assertTrue(isinstance(data, list)) # invalid number of events should default to 10 data = client.getLatestEvents(num='blah', format='list') self.assertTrue(isinstance(data, list))
def test_getEventsList(self): """ Testing event request method. """ client = Client() # 1 results = client.getEvents(format="list", min_depth=-700, max_datetime="2005-01-01") expected = [{'author': u'EMSC', 'event_id': u'20040312_0000026', 'origin_id': 1347097, 'longitude': 57.143, 'datetime': UTCDateTime('2004-03-12T22:48:05Z'), 'depth':-700.0, 'magnitude': 4.4, 'magnitude_type': u'mb', 'latitude': 26.303, 'flynn_region': u'SOUTHERN IRAN'}] self.assertEquals(results, expected) # 2 results = client.getEvents(format="list", min_latitude=-95, max_latitude=-1, min_longitude=20, max_longitude=90, max_datetime="2005-01-01") expected = [{'author': u'NEIR', 'event_id': u'20041016_0000009', 'origin_id': 120690, 'longitude': 33.682, 'datetime': UTCDateTime('2004-10-16T01:29:14Z'), 'depth':-10.0, 'magnitude': 5.0, 'magnitude_type': u'm ', 'latitude':-46.394, 'flynn_region': u'PRINCE EDWARD ISLANDS REGION'}] self.assertEquals(results, expected) # 3 results = client.getEvents(format="list", min_depth=-11, max_depth=-22.33, min_magnitude=6.6, max_magnitude=7, max_datetime="2005-01-01") expected = [{'author': u'EMSC', 'event_id': u'20001206_0000014', 'origin_id': 1441886, 'longitude': 54.843, 'datetime': UTCDateTime('2000-12-06T17:11:05Z'), 'depth':-11.4, 'magnitude': 6.7, 'magnitude_type': u'mb', 'latitude': 39.604}, {'author': u'EMSC', 'event_id': u'20010210_0000010', 'origin_id': 1438991, 'longitude': 43.784, 'datetime': UTCDateTime('2001-02-10T18:21:57Z'), 'depth':-17.0, 'magnitude': 6.6, 'magnitude_type': u'mb', 'latitude': 12.045, 'flynn_region': u'NEAR THE COAST OF YEMEN'}] self.assertEquals(results, expected) # 4 results = client.getEvents(format="list", author="EMSC", max_results=3, magnitude_type="mw", min_magnitude=4, max_datetime="2005-01-01") expected = [{'author': u'EMSC', 'event_id': u'19980110_0000006', 'origin_id': 1500183, 'longitude': 20.816, 'datetime': UTCDateTime('1998-01-10T19:21:55Z'), 'depth':-10.0, 'magnitude': 5.5, 'magnitude_type': u'mw', 'latitude': 37.243, 'flynn_region': u'IONIAN SEA'}, {'author': u'EMSC', 'event_id': u'19980128_0000006', 'origin_id': 1500249, 'longitude': 32.204, 'datetime': UTCDateTime('1998-01-28T22:38:57Z'), 'depth':-41.6, 'magnitude': 4.3, 'magnitude_type': u'mw', 'latitude': 34.429}, {'author': u'EMSC', 'event_id': u'19980213_0000004', 'origin_id': 1500135, 'longitude': 28.459, 'datetime': UTCDateTime('1998-02-13T07:18:50Z'), 'depth':-69.2, 'magnitude': 4.8, 'magnitude_type': u'mw', 'latitude': 36.284}] self.assertEquals(results, expected)
def plotDay(self, *args, **kwargs): """ Extend the seismogram. """ # Merge and trim to pad. self.stream.merge() if len(self.stream) != 1: msg = "All traces need to be of the same id for a dayplot" raise ValueError(msg) self.stream.trim(self.starttime, self.endtime, pad=True) # Get minmax array. self.__dayplotGetMinMaxValues(self, *args, **kwargs) # Normalize array self.__dayplotNormalizeValues(self, *args, **kwargs) # Get timezone information. If none is given, use local time. self.time_offset = kwargs.get( 'time_offset', round((UTCDateTime(datetime.now()) - UTCDateTime()) / 3600.0, 2)) self.timezone = kwargs.get('timezone', 'local time') # Try to guess how many steps are needed to advance one full time unit. self.repeat = None intervals = self.extreme_values.shape[0] if self.interval < 60 and 60 % self.interval == 0: self.repeat = 60 / self.interval elif self.interval < 1800 and 3600 % self.interval == 0: self.repeat = 3600 / self.interval # Otherwise use a maximum value of 10. else: if intervals >= 10: self.repeat = 10 else: self.repeat = intervals # Create axis to plot on. if self.background_color: ax = self.fig.add_subplot(1, 1, 1, axisbg=self.background_color) else: ax = self.fig.add_subplot(1, 1, 1) # Adjust the subplots self.fig.subplots_adjust(left=self.subplots_adjust_left, right=self.subplots_adjust_right, top=self.subplots_adjust_top, bottom=self.subplots_adjust_bottom) # Create x_value_array. aranged_array = np.arange(self.width) x_values = np.empty(2 * self.width) x_values[0::2] = aranged_array x_values[1::2] = aranged_array intervals = self.extreme_values.shape[0] # Loop over each step. for _i in xrange(intervals): # Create offset array. y_values = np.ma.empty(self.width * 2) y_values.fill(intervals - (_i + 1)) # Add min and max values. y_values[0::2] += self.extreme_values[_i, :, 0] y_values[1::2] += self.extreme_values[_i, :, 1] # Plot the values. ax.plot(x_values, y_values, color=self.color[_i % len(self.color)], linewidth=self.linewidth, linestyle=self.linestyle) # Plot the scale, if required. scale_unit = kwargs.get("data_unit", None) if scale_unit is not None: self._plotDayplotScale(unit=scale_unit) # Set ranges. ax.set_xlim(0, self.width - 1) ax.set_ylim(-0.3, intervals + 0.3) self.axis = [ax] # Set ticks. self.__dayplotSetYTicks(*args, **kwargs) self.__dayplotSetXTicks(*args, **kwargs) # Choose to show grid but only on the x axis. self.fig.axes[0].grid(color=self.grid_color, linestyle=self.grid_linestyle, linewidth=self.grid_linewidth) self.fig.axes[0].yaxis.grid(False) # Set the title of the plot. self.fig.suptitle(self.title, fontsize=self.title_size) # Now try to plot some events. events = kwargs.get("events", []) # Potentially download some events with the help of obspy.neries. if "min_magnitude" in events: try: from obspy.neries import Client c = Client() events = c.getEvents(min_datetime=self.starttime, max_datetime=self.endtime, format="catalog", min_magnitude=events["min_magnitude"]) except Exception, e: msg = "Could not download the events because of '%s: %s'." % \ (e.__class__.__name__, e.message) warnings.warn(msg)
def plotDay(self, *args, **kwargs): """ Extend the seismogram. """ # Merge and trim to pad. self.stream.merge() if len(self.stream) != 1: msg = "All traces need to be of the same id for a dayplot" raise ValueError(msg) self.stream.trim(self.starttime, self.endtime, pad=True) # Get minmax array. self.__dayplotGetMinMaxValues(self, *args, **kwargs) # Normalize array self.__dayplotNormalizeValues(self, *args, **kwargs) # Get timezone information. If none is given, use local time. self.time_offset = kwargs.get('time_offset', round((UTCDateTime(datetime.now()) - UTCDateTime()) / 3600.0, 2)) self.timezone = kwargs.get('timezone', 'local time') # Try to guess how many steps are needed to advance one full time unit. self.repeat = None intervals = self.extreme_values.shape[0] if self.interval < 60 and 60 % self.interval == 0: self.repeat = 60 / self.interval elif self.interval < 1800 and 3600 % self.interval == 0: self.repeat = 3600 / self.interval # Otherwise use a maximum value of 10. else: if intervals >= 10: self.repeat = 10 else: self.repeat = intervals # Create axis to plot on. if self.background_color: ax = self.fig.add_subplot(1, 1, 1, axisbg=self.background_color) else: ax = self.fig.add_subplot(1, 1, 1) # Adjust the subplots self.fig.subplots_adjust(left=self.subplots_adjust_left, right=self.subplots_adjust_right, top=self.subplots_adjust_top, bottom=self.subplots_adjust_bottom) # Create x_value_array. aranged_array = np.arange(self.width) x_values = np.empty(2 * self.width) x_values[0::2] = aranged_array x_values[1::2] = aranged_array intervals = self.extreme_values.shape[0] # Loop over each step. for _i in xrange(intervals): # Create offset array. y_values = np.ma.empty(self.width * 2) y_values.fill(intervals - (_i + 1)) # Add min and max values. y_values[0::2] += self.extreme_values[_i, :, 0] y_values[1::2] += self.extreme_values[_i, :, 1] # Plot the values. ax.plot(x_values, y_values, color=self.color[_i % len(self.color)], linewidth=self.linewidth, linestyle=self.linestyle) # Plot the scale, if required. scale_unit = kwargs.get("data_unit", None) if scale_unit is not None: self._plotDayplotScale(unit=scale_unit) # Set ranges. ax.set_xlim(0, self.width - 1) ax.set_ylim(-0.3, intervals + 0.3) self.axis = [ax] # Set ticks. self.__dayplotSetYTicks(*args, **kwargs) self.__dayplotSetXTicks(*args, **kwargs) # Choose to show grid but only on the x axis. self.fig.axes[0].grid(color=self.grid_color, linestyle=self.grid_linestyle, linewidth=self.grid_linewidth) self.fig.axes[0].yaxis.grid(False) # Set the title of the plot. self.fig.suptitle(self.title, fontsize=self.title_size) # Now try to plot some events. events = kwargs.get("events", []) # Potentially download some events with the help of obspy.neries. if "min_magnitude" in events: try: from obspy.neries import Client c = Client() events = c.getEvents(min_datetime=self.starttime, max_datetime=self.endtime, format="catalog", min_magnitude=events["min_magnitude"]) except Exception, e: msg = "Could not download the events because of '%s: %s'." % \ (e.__class__.__name__, e.message) warnings.warn(msg)
def test_getEventsList(self): """ Testing event request method. """ client = Client() # 1 results = client.getEvents(format="list", min_depth=-700, max_datetime="2005-01-01") expected = [{ 'author': u'EMSC', 'event_id': u'20040312_0000026', 'origin_id': 1347097, 'longitude': 57.143, 'datetime': UTCDateTime('2004-03-12T22:48:05Z'), 'depth': -700.0, 'magnitude': 4.4, 'magnitude_type': u'mb', 'latitude': 26.303, 'flynn_region': u'SOUTHERN IRAN' }] self.assertEquals(results, expected) # 2 results = client.getEvents(format="list", min_latitude=-95, max_latitude=-1, min_longitude=20, max_longitude=90, max_datetime="2005-01-01") expected = [{ 'author': u'NEIR', 'event_id': u'20041016_0000009', 'origin_id': 120690, 'longitude': 33.682, 'datetime': UTCDateTime('2004-10-16T01:29:14Z'), 'depth': -10.0, 'magnitude': 5.0, 'magnitude_type': u'm ', 'latitude': -46.394, 'flynn_region': u'PRINCE EDWARD ISLANDS REGION' }] self.assertEquals(results, expected) # 3 results = client.getEvents(format="list", min_depth=-11, max_depth=-22.33, min_magnitude=6.6, max_magnitude=7, max_datetime="2005-01-01") expected = [{ 'author': u'EMSC', 'event_id': u'20001206_0000014', 'origin_id': 1441886, 'longitude': 54.843, 'datetime': UTCDateTime('2000-12-06T17:11:05Z'), 'depth': -11.4, 'magnitude': 6.7, 'magnitude_type': u'mb', 'latitude': 39.604 }, { 'author': u'EMSC', 'event_id': u'20010210_0000010', 'origin_id': 1438991, 'longitude': 43.784, 'datetime': UTCDateTime('2001-02-10T18:21:57Z'), 'depth': -17.0, 'magnitude': 6.6, 'magnitude_type': u'mb', 'latitude': 12.045, 'flynn_region': u'NEAR THE COAST OF YEMEN' }] self.assertEquals(results, expected) # 4 results = client.getEvents(format="list", author="EMSC", max_results=3, magnitude_type="mw", min_magnitude=4, max_datetime="2005-01-01") expected = [{ 'author': u'EMSC', 'event_id': u'19980110_0000006', 'origin_id': 1500183, 'longitude': 20.816, 'datetime': UTCDateTime('1998-01-10T19:21:55Z'), 'depth': -10.0, 'magnitude': 5.5, 'magnitude_type': u'mw', 'latitude': 37.243, 'flynn_region': u'IONIAN SEA' }, { 'author': u'EMSC', 'event_id': u'19980128_0000006', 'origin_id': 1500249, 'longitude': 32.204, 'datetime': UTCDateTime('1998-01-28T22:38:57Z'), 'depth': -41.6, 'magnitude': 4.3, 'magnitude_type': u'mw', 'latitude': 34.429 }, { 'author': u'EMSC', 'event_id': u'19980213_0000004', 'origin_id': 1500135, 'longitude': 28.459, 'datetime': UTCDateTime('1998-02-13T07:18:50Z'), 'depth': -69.2, 'magnitude': 4.8, 'magnitude_type': u'mw', 'latitude': 36.284 }] self.assertEquals(results, expected)
def test_getInventory(self): """ Testing inventory requests. """ client = Client(user='******') dt1 = UTCDateTime("1974-01-01T00:00:00") dt2 = UTCDateTime("2011-01-01T00:00:00") # 1 - XML w/ instruments result = client.getInventory('GE', 'SNAA', '', 'BHZ', dt1, dt2, format='XML') self.assertTrue(result.startswith(b'<?xml')) self.assertTrue(b'code="GE"' in result) # 2 - SUDS object w/o instruments result = client.getInventory('GE', 'SNAA', '', 'BHZ', dt1, dt2, instruments=False) self.assertTrue(isinstance(result, object)) self.assertEqual(result.ArclinkInventory.inventory.network._code, 'GE') # 3 - SUDS object w/ instruments result = client.getInventory('GE', 'SNAA', '', 'BHZ', dt1, dt2, instruments=True) self.assertTrue(isinstance(result, object)) self.assertEqual(result.ArclinkInventory.inventory.network._code, 'GE') self.assertTrue('sensor' in result.ArclinkInventory.inventory) self.assertTrue('responsePAZ' in result.ArclinkInventory.inventory) # 4 - SUDS object with spatial filters client = Client(user='******') result = client.getInventory('GE', 'SNAA', '', 'BHZ', dt1, dt2, min_latitude=-72.0, max_latitude=-71.0, min_longitude=-3, max_longitude=-2) self.assertTrue(isinstance(result, object)) self.assertEqual(result.ArclinkInventory.inventory.network._code, 'GE') # 5 - SUDS object with spatial filters with incorrect coordinates client = Client(user='******') result = client.getInventory('GE', 'SNAA', '', 'BHZ', dt1, dt2, min_latitude=-71.0, max_latitude=-72.0, min_longitude=-2, max_longitude=-3) self.assertTrue(isinstance(result, object)) self.assertEqual(result.ArclinkInventory.inventory.network._code, 'GE')