def test_issue_358(self):
"""
Test case for issue #358.
"""
filename = os.path.join(self.path, 'CL.AIO.dataless')
parser = Parser()
parser.read(filename)
dt = UTCDateTime('2012-01-01')
parser.get_paz('CL.AIO.00.EHZ', dt)
def test_issue_358(self):
"""
Test case for issue #358.
"""
filename = os.path.join(self.path, 'CL.AIO.dataless')
parser = Parser()
parser.read(filename)
dt = UTCDateTime('2012-01-01')
parser.get_paz('CL.AIO.00.EHZ', dt)
def test_issue165(self):
"""
Test cases related to #165:
- number of poles or zeros can be 0
- an unsupported response information somewhere in the metadata should
not automatically raise an Error, if the desired information can
still be retrieved
This test also tests if a warning is raised if no startime is given.
"""
parser = Parser()
file = os.path.join(self.path, "bug165.dataless")
t = UTCDateTime("2010-01-01T00:00:00")
# raises UserWarning
with warnings.catch_warnings(record=True) as w:
warnings.simplefilter("always")
# Trigger a warning.
parser.read(file)
self.assertEqual(len(w), 1)
self.assertTrue(issubclass(w[-1].category, UserWarning))
self.assertTrue('date' and 'required' in
str(w[-1].message).lower())
# Triggers a warning.
paz = parser.get_paz("NZ.DCZ.20.HNZ", t)
result = {'digitizer_gain': 419430.0, 'gain': 24595700000000.0,
'poles': [(-981 + 1009j), (-981 - 1009j),
(-3290 + 1263j), (-3290 - 1263j)],
'seismometer_gain': 1.01885, 'sensitivity': 427336.0,
'zeros': []}
self.assertEqual(paz, result)
def test_issue165(self):
"""
Test cases related to #165:
- number of poles or zeros can be 0
- an unsupported response information somewhere in the metadata should
not automatically raise an Error, if the desired information can
still be retrieved
"""
parser = Parser(strict=True)
file = os.path.join(self.path, "bug165.dataless")
t = UTCDateTime("2010-01-01T00:00:00")
parser.read(file)
paz = parser.get_paz("NZ.DCZ.20.HNZ", t)
result = {
'digitizer_gain':
419430.0,
'gain':
24595700000000.0,
'poles': [(-981 + 1009j), (-981 - 1009j), (-3290 + 1263j),
(-3290 - 1263j)],
'seismometer_gain':
1.01885,
'sensitivity':
427336.0,
'zeros': []
}
self.assertEqual(paz, result)
def parser_sensor_resp(dir, sName, type):
par = Parser(dir + '.resp')
par.write_xseed(dir + '.xml')
par.write_seed(dir + '.dataless')
channel = par.blockettes[52][0].channel_identifier
paz = par.get_paz(channel)
if (len(paz['zeros']) <= len(paz['poles'])):
plot_Freq_Amp_Phase(dir + '.freq_amp_phase.png', paz, sName, type)
(Ymax, Ymin, Tmax, Tmin, Tzero) = plot_Seep_Response(dir + '.impulse.png', paz, sName, type)
return (paz, Ymax, Ymin, Tmax, Tmin, Tzero)
else:
print(
"sName Error! , zeros number is larger than poles, Can't Calculate Response and Bode Diagram, Check it!!!")
return (paz, 0, 0, 0, 0, 0)
def test_get_paz_from_xseed(self):
"""
Get PAZ from XSEED file, testcase for #146
"""
filename = os.path.join(self.path, 'dataless.seed.BW_FURT')
sp1 = Parser(filename)
sp2 = Parser(sp1.get_xseed())
paz = sp2.get_paz('EHE')
result = {'gain': 1.00000e+00,
'zeros': [0j, 0j, 0j],
'poles': [(-4.44400e+00 + 4.44400e+00j),
(-4.44400e+00 - 4.44400e+00j),
(-1.08300e+00 + 0.00000e+00j)],
'sensitivity': 6.71140E+08,
'seismometer_gain': 4.00000E+02,
'digitizer_gain': 1677850.0}
self.assertEqual(sorted(paz.items()), sorted(result.items()))
def test_get_paz_from_xseed(self):
"""
Get PAZ from XSEED file, testcase for #146
"""
filename = os.path.join(self.path, 'dataless.seed.BW_FURT')
sp1 = Parser(filename)
sp2 = Parser(sp1.get_xseed())
paz = sp2.get_paz('EHE')
result = {'gain': 1.00000e+00,
'zeros': [0j, 0j, 0j],
'poles': [(-4.44400e+00 + 4.44400e+00j),
(-4.44400e+00 - 4.44400e+00j),
(-1.08300e+00 + 0.00000e+00j)],
'sensitivity': 6.71140E+08,
'seismometer_gain': 4.00000E+02,
'digitizer_gain': 1677850.0}
self.assertEqual(sorted(paz.items()), sorted(result.items()))
def test_issue165(self):
"""
Test cases related to #165:
- number of poles or zeros can be 0
- an unsupported response information somewhere in the metadata should
not automatically raise an Error, if the desired information can
still be retrieved
"""
parser = Parser(strict=True)
file = os.path.join(self.path, "bug165.dataless")
t = UTCDateTime("2010-01-01T00:00:00")
parser.read(file)
paz = parser.get_paz("NZ.DCZ.20.HNZ", t)
result = {'digitizer_gain': 419430.0, 'gain': 24595700000000.0,
'poles': [(-981 + 1009j), (-981 - 1009j),
(-3290 + 1263j), (-3290 - 1263j)],
'seismometer_gain': 1.01885, 'sensitivity': 427336.0,
'zeros': []}
self.assertEqual(paz, result)
def parser_digitizer_resp(dir, sName):
filename = dir + '.resp'
par = Parser(filename)
par.write_xseed(dir + '.xml')
par.write_seed(dir + '.dataless')
channel = par.blockettes[52][0].channel_identifier
sample_rate = par.blockettes[52][0].sample_rate
paz = par.get_paz(channel)
sensitivity = paz['digitizer_gain']
if (sample_rate < 1):
sample_rate = 1
inv = read_inventory(filename, "RESP")
resp = inv[0][0][0].response
# print(resp)
response, freqs = resp.get_evalresp_response(1. / (sample_rate * 2.), 65536 * 16, output="VEL")
plot_Digitizer_Freq_Amp(dir + '.freq_amp.png', sName, sample_rate, sensitivity, response, freqs)
return (sample_rate, sensitivity)
def test_issue_361(self):
"""
Test case for issue #361.
"""
filename = os.path.join(self.path, 'G.SPB.dataless')
parser = Parser()
parser.read(filename)
# 1 - G.SPB..BHZ - no Laplace transform - works
parser.get_paz('G.SPB..BHZ')
# 2 - G.SPB.00.BHZ - raises exception because of multiple results
self.assertRaises(SEEDParserException, parser.get_paz, 'G.SPB.00.BHZ')
# 3 - G.SPB.00.BHZ with datetime - no Laplace transform - works
dt = UTCDateTime('2007-01-01')
parser.get_paz('G.SPB.00.BHZ', dt)
# 4 - G.SPB.00.BHZ with later datetime works
dt = UTCDateTime('2012-01-01')
parser.get_paz('G.SPB.00.BHZ', dt)
def test_issue_361(self):
"""
Test case for issue #361.
"""
filename = os.path.join(self.path, 'G.SPB.dataless')
parser = Parser()
parser.read(filename)
# 1 - G.SPB..BHZ - no Laplace transform - works
parser.get_paz('G.SPB..BHZ')
# 2 - G.SPB.00.BHZ - raises exception because of multiple results
self.assertRaises(SEEDParserException, parser.get_paz, 'G.SPB.00.BHZ')
# 3 - G.SPB.00.BHZ with datetime - no Laplace transform - works
dt = UTCDateTime('2007-01-01')
parser.get_paz('G.SPB.00.BHZ', dt)
# 4 - G.SPB.00.BHZ with later datetime works
dt = UTCDateTime('2012-01-01')
parser.get_paz('G.SPB.00.BHZ', dt)
def test_issue165(self):
"""
Test cases related to #165:
- number of poles or zeros can be 0
- an unsupported response information somewhere in the metadata should
not automatically raise an Error, if the desired information can
still be retrieved
This test also tests if a warning is raised if no startime is given.
"""
parser = Parser()
file = os.path.join(self.path, "bug165.dataless")
t = UTCDateTime("2010-01-01T00:00:00")
# raises UserWarning
with warnings.catch_warnings(record=True) as w:
warnings.simplefilter("always")
# Trigger a warning.
parser.read(file)
self.assertEqual(len(w), 1)
self.assertTrue(issubclass(w[-1].category, UserWarning))
self.assertTrue('date'
and 'required' in str(w[-1].message).lower())
# Triggers a warning.
paz = parser.get_paz("NZ.DCZ.20.HNZ", t)
result = {
'digitizer_gain':
419430.0,
'gain':
24595700000000.0,
'poles': [(-981 + 1009j), (-981 - 1009j), (-3290 + 1263j),
(-3290 - 1263j)],
'seismometer_gain':
1.01885,
'sensitivity':
427336.0,
'zeros': []
}
self.assertEqual(paz, result)
def test_get_paz(self):
"""
Test extracting poles and zeros information
"""
filename = os.path.join(self.path, 'arclink_full.seed')
sp = Parser(filename)
paz = sp.get_paz('BHE')
self.assertEqual(paz['gain'], +6.00770e+07)
self.assertEqual(paz['zeros'], [0j, 0j])
self.assertEqual(
paz['poles'],
[(-3.70040e-02 + 3.70160e-02j),
(-3.70040e-02 - 3.70160e-02j), (-2.51330e+02 + 0.00000e+00j),
(-1.31040e+02 - 4.67290e+02j), (-1.31040e+02 + 4.67290e+02j)])
self.assertEqual(paz['sensitivity'], +7.86576e+08)
self.assertEqual(paz['seismometer_gain'], +1.50000E+03)
# Raise exception for undefined channels
self.assertRaises(SEEDParserException, sp.get_paz, 'EHE')
#
# Do the same for another dataless file
#
filename = os.path.join(self.path, 'dataless.seed.BW_FURT')
sp = Parser(filename)
paz = sp.get_paz('EHE')
self.assertEqual(paz['gain'], +1.00000e+00)
self.assertEqual(paz['zeros'], [0j, 0j, 0j])
self.assertEqual(paz['poles'], [(-4.44400e+00 + 4.44400e+00j),
(-4.44400e+00 - 4.44400e+00j),
(-1.08300e+00 + 0.00000e+00j)])
self.assertEqual(paz['sensitivity'], +6.71140E+08)
self.assertEqual(paz['seismometer_gain'], 4.00000E+02)
# Raise exception for undefined channels
self.assertRaises(SEEDParserException, sp.get_paz, 'BHE')
# Raise UserWarning if not a Laplacian transfer function ('A').
# Modify transfer_fuction_type on the fly
for blk in sp.blockettes[53]:
blk.transfer_function_types = 'X'
with warnings.catch_warnings(record=True):
warnings.simplefilter("error", UserWarning)
self.assertRaises(UserWarning, sp.get_paz, 'EHE')
#
# And the same for yet another dataless file
#
filename = os.path.join(self.path, 'nied.dataless.gz')
with gzip.open(filename) as g:
f = io.BytesIO(g.read())
sp = Parser(f)
gain = [+3.94857E+03, +4.87393E+04, +3.94857E+03]
zeros = [[+0.00000E+00 + 0.00000E+00j, +0.00000E+00 + 0.00000E+00j],
[+0.00000E+00 + 0.00000E+00j, +0.00000E+00 + 0.00000E+00j,
-6.32511E+02 + 0.00000E+00j],
[+0.00000E+00 + 0.00000E+00j, +0.00000E+00 + 0.00000E+00j]]
poles = [[-1.23413E-02 + 1.23413E-02j, -1.23413E-02 - 1.23413E-02j,
-3.91757E+01 + 4.91234E+01j, -3.91757E+01 - 4.91234E+01j],
[-3.58123E-02 - 4.44766E-02j, -3.58123E-02 + 4.44766E-02j,
-5.13245E+02 + 0.00000E+00j, -6.14791E+04 + 0.00000E+00j],
[-1.23413E-02 + 1.23413E-02j, -1.23413E-02 - 1.23413E-02j,
-3.91757E+01 + 4.91234E+01j, -3.91757E+01 - 4.91234E+01j]]
sensitivity = [+4.92360E+08, +2.20419E+06, +9.84720E+08]
seismometer_gain = [+2.29145E+03, +1.02583E+01, +2.29145E+03]
for i, channel in enumerate(['BHZ', 'BLZ', 'LHZ']):
paz = sp.get_paz(channel)
self.assertEqual(paz['gain'], gain[i])
self.assertEqual(paz['zeros'], zeros[i])
self.assertEqual(paz['poles'], poles[i])
self.assertEqual(paz['sensitivity'], sensitivity[i])
self.assertEqual(paz['seismometer_gain'], seismometer_gain[i])
sp = Parser(os.path.join(self.path, 'dataless.seed.BW_RJOB'))
paz = sp.get_paz("BW.RJOB..EHZ", UTCDateTime("2007-01-01"))
result = {'gain': 1.0,
'poles': [(-4.444 + 4.444j), (-4.444 - 4.444j),
(-1.083 + 0j)],
'seismometer_gain': 400.0,
'sensitivity': 671140000.0,
'zeros': [0j, 0j, 0j],
'digitizer_gain': 1677850.0}
self.assertEqual(paz, result)
paz = sp.get_paz("BW.RJOB..EHZ", UTCDateTime("2010-01-01"))
result = {'gain': 60077000.0,
'poles': [(-0.037004000000000002 + 0.037016j),
(-0.037004000000000002 - 0.037016j),
(-251.33000000000001 + 0j),
(-131.03999999999999 - 467.29000000000002j),
(-131.03999999999999 + 467.29000000000002j)],
'seismometer_gain': 1500.0,
'sensitivity': 2516800000.0,
'zeros': [0j, 0j],
'digitizer_gain': 1677850.0}
self.assertEqual(sorted(paz.items()), sorted(result.items()))
# check arg name changed in [3722]
result = {'gain': 60077000.0,
'poles': [(-0.037004000000000002 + 0.037016j),
(-0.037004000000000002 - 0.037016j),
(-251.33000000000001 + 0j),
(-131.03999999999999 - 467.29000000000002j),
(-131.03999999999999 + 467.29000000000002j)],
'seismometer_gain': 1500.0,
'sensitivity': 2516800000.0,
'zeros': [0j, 0j],
'digitizer_gain': 1677850.0}
paz = sp.get_paz(seed_id="BW.RJOB..EHZ",
datetime=UTCDateTime("2010-01-01"))
self.assertEqual(sorted(paz.items()), sorted(result.items()))
# test for multiple blockette 53s using II dataless
sp = Parser(os.path.join(self.path, 'dataless.seed.II_COCO'))
paz = sp.get_paz("II.COCO.00.BHZ", UTCDateTime("2013-01-01"))
result = {'gain': 1057.5083723679224,
'poles': [(-0.004799989149937387 + 0j),
(-0.07341022385496342 + 0j),
(-21.852101684280665 + 23.497667916231002j),
(-21.852101684280665 - 23.497667916231002j)],
'seismometer_gain': 2164.8,
'sensitivity': 3598470000.0,
'zeros': [0j, 0j],
'digitizer_gain': 1662150.0}
self.assertEqual(sorted(paz.items()), sorted(result.items()))
def test_get_paz(self):
"""
Test extracting poles and zeros information
"""
filename = os.path.join(self.path, 'arclink_full.seed')
sp = Parser(filename)
paz = sp.get_paz('BHE')
self.assertEqual(paz['gain'], +6.00770e+07)
self.assertEqual(paz['zeros'], [0j, 0j])
self.assertEqual(paz['poles'], [(-3.70040e-02 + 3.70160e-02j),
(-3.70040e-02 - 3.70160e-02j),
(-2.51330e+02 + 0.00000e+00j),
(-1.31040e+02 - 4.67290e+02j),
(-1.31040e+02 + 4.67290e+02j)])
self.assertEqual(paz['sensitivity'], +7.86576e+08)
self.assertEqual(paz['seismometer_gain'], +1.50000E+03)
# Raise exception for undefined channels
self.assertRaises(SEEDParserException, sp.get_paz, 'EHE')
#
# Do the same for another dataless file
#
filename = os.path.join(self.path, 'dataless.seed.BW_FURT')
sp = Parser(filename)
paz = sp.get_paz('EHE')
self.assertEqual(paz['gain'], +1.00000e+00)
self.assertEqual(paz['zeros'], [0j, 0j, 0j])
self.assertEqual(paz['poles'], [(-4.44400e+00 + 4.44400e+00j),
(-4.44400e+00 - 4.44400e+00j),
(-1.08300e+00 + 0.00000e+00j)])
self.assertEqual(paz['sensitivity'], +6.71140E+08)
self.assertEqual(paz['seismometer_gain'], 4.00000E+02)
# Raise exception for undefined channels
self.assertRaises(SEEDParserException, sp.get_paz, 'BHE')
# Raise UserWarning if not a Laplacian transfer function ('A').
# Modify transfer_fuction_type on the fly
for blk in sp.blockettes[53]:
blk.transfer_function_types = 'X'
with warnings.catch_warnings(record=True):
warnings.simplefilter("error", UserWarning)
self.assertRaises(UserWarning, sp.get_paz, 'EHE')
#
# And the same for yet another dataless file
#
filename = os.path.join(self.path, 'nied.dataless.gz')
with gzip.open(filename) as g:
f = io.BytesIO(g.read())
sp = Parser(f)
gain = [+3.94857E+03, +4.87393E+04, +3.94857E+03]
zeros = [[+0.00000E+00 + 0.00000E+00j, +0.00000E+00 + 0.00000E+00j],
[
+0.00000E+00 + 0.00000E+00j, +0.00000E+00 + 0.00000E+00j,
-6.32511E+02 + 0.00000E+00j
], [+0.00000E+00 + 0.00000E+00j, +0.00000E+00 + 0.00000E+00j]]
poles = [[
-1.23413E-02 + 1.23413E-02j, -1.23413E-02 - 1.23413E-02j,
-3.91757E+01 + 4.91234E+01j, -3.91757E+01 - 4.91234E+01j
],
[
-3.58123E-02 - 4.44766E-02j, -3.58123E-02 + 4.44766E-02j,
-5.13245E+02 + 0.00000E+00j, -6.14791E+04 + 0.00000E+00j
],
[
-1.23413E-02 + 1.23413E-02j, -1.23413E-02 - 1.23413E-02j,
-3.91757E+01 + 4.91234E+01j, -3.91757E+01 - 4.91234E+01j
]]
sensitivity = [+4.92360E+08, +2.20419E+06, +9.84720E+08]
seismometer_gain = [+2.29145E+03, +1.02583E+01, +2.29145E+03]
for i, channel in enumerate(['BHZ', 'BLZ', 'LHZ']):
paz = sp.get_paz(channel)
self.assertEqual(paz['gain'], gain[i])
self.assertEqual(paz['zeros'], zeros[i])
self.assertEqual(paz['poles'], poles[i])
self.assertEqual(paz['sensitivity'], sensitivity[i])
self.assertEqual(paz['seismometer_gain'], seismometer_gain[i])
sp = Parser(os.path.join(self.path, 'dataless.seed.BW_RJOB'))
paz = sp.get_paz("BW.RJOB..EHZ", UTCDateTime("2007-01-01"))
result = {
'gain': 1.0,
'poles': [(-4.444 + 4.444j), (-4.444 - 4.444j), (-1.083 + 0j)],
'seismometer_gain': 400.0,
'sensitivity': 671140000.0,
'zeros': [0j, 0j, 0j],
'digitizer_gain': 1677850.0
}
self.assertEqual(paz, result)
paz = sp.get_paz("BW.RJOB..EHZ", UTCDateTime("2010-01-01"))
result = {
'gain':
60077000.0,
'poles': [(-0.037004000000000002 + 0.037016j),
(-0.037004000000000002 - 0.037016j),
(-251.33000000000001 + 0j),
(-131.03999999999999 - 467.29000000000002j),
(-131.03999999999999 + 467.29000000000002j)],
'seismometer_gain':
1500.0,
'sensitivity':
2516800000.0,
'zeros': [0j, 0j],
'digitizer_gain':
1677850.0
}
self.assertEqual(sorted(paz.items()), sorted(result.items()))
# check arg name changed in [3722]
result = {
'gain':
60077000.0,
'poles': [(-0.037004000000000002 + 0.037016j),
(-0.037004000000000002 - 0.037016j),
(-251.33000000000001 + 0j),
(-131.03999999999999 - 467.29000000000002j),
(-131.03999999999999 + 467.29000000000002j)],
'seismometer_gain':
1500.0,
'sensitivity':
2516800000.0,
'zeros': [0j, 0j],
'digitizer_gain':
1677850.0
}
paz = sp.get_paz(seed_id="BW.RJOB..EHZ",
datetime=UTCDateTime("2010-01-01"))
self.assertEqual(sorted(paz.items()), sorted(result.items()))
# test for multiple blockette 53s using II dataless
sp = Parser(os.path.join(self.path, 'dataless.seed.II_COCO'))
paz = sp.get_paz("II.COCO.00.BHZ", UTCDateTime("2013-01-01"))
result = {
'gain':
1057.5083723679224,
'poles': [(-0.004799989149937387 + 0j),
(-0.07341022385496342 + 0j),
(-21.852101684280665 + 23.497667916231002j),
(-21.852101684280665 - 23.497667916231002j)],
'seismometer_gain':
2164.8,
'sensitivity':
3598470000.0,
'zeros': [0j, 0j],
'digitizer_gain':
1662150.0
}
self.assertEqual(sorted(paz.items()), sorted(result.items()))
