def test_get_minutes_from_radians(self):
"""geomag.ChannelConverterTest.test_get_decimal_from_radian()
Call get_decimal_from_radian using pi/4, expect d to be 45
"""
radians = math.pi / 4.0
minutes = channel.get_minutes_from_radians(radians)
assert_almost_equal(minutes, 45 * 60, 8,
'Expect minutes to be equal to 45 degrees', True)
def test_verification_data():
"""
This is a verification test of data done with different
converters, to see if the same result is returned.
Since the small angle approximation was used in the other
converters, AND round off was done differently, we can't
get the exact results.
Change the precision in assert_almost_equal to larger precision
(ie 2 to 8) to see how off the data is. Most are well within
expectations.
"""
DECBAS = 552.7
obs_v = obspy.core.Stream()
obs_v += __create_trace(
'H', [20889.55, 20889.57, 20889.74, 20889.86, 20889.91, 20889.81],
DECBAS)
obs_v += __create_trace('E',
[-21.10, -20.89, -20.72, -20.57, -20.39, -20.12],
DECBAS)
obs_v += __create_trace(
'Z', [47565.29, 47565.34, 47565.39, 47565.45, 47565.51, 47565.54],
DECBAS)
obs_v += __create_trace(
'F', [52485.77, 52485.84, 52485.94, 52486.06, 52486.11, 52486.10],
DECBAS)
obs_V = StreamConverter.get_obs_from_obs(obs_v, True, True)
d = obs_V.select(channel='D')[0].data
d = ChannelConverter.get_minutes_from_radians(d)
# Using d values calculated using small angle approximation.
assert_almost_equal(
d, [-3.47, -3.43, -3.40, -3.38, -3.35, -3.31], 2,
'Expect d to equal [-3.47, -3.43, -3.40, -3.38, -3.35, -3.31]', True)
mag = obspy.core.Stream()
DECBAS = 552.7
mag += __create_trace(
'H', [20884.04, 20883.45, 20883.38, 20883.43, 20883.07, 20882.76],
DECBAS)
d = ChannelConverter.get_radians_from_minutes(
[556.51, 556.52, 556.56, 556.61, 556.65, 556.64])
mag += __create_trace('D', d, DECBAS)
mag += __create_trace(
'Z', [48546.90, 48546.80, 48546.80, 48546.70, 48546.80, 48546.90],
DECBAS)
mag += __create_trace('F', [0.10, 0.00, 0.10, 0.00, 0.00, 0.00, 0.00],
DECBAS)
geo = StreamConverter.get_geo_from_mag(mag)
X = geo.select(channel='X')[0].data
Y = geo.select(channel='Y')[0].data
assert_almost_equal(
X, [20611.00, 20610.40, 20610.30, 20610.30, 20609.90, 20609.60], 2)
assert_almost_equal(Y,
[3366.00, 3366.00, 3366.20, 3366.50, 3366.70, 3366.60],
1)
def test_verification_data():
"""
This is a verification test of data done with different
converters, to see if the same result is returned.
Since the small angle approximation was used in the other
converters, AND round off was done differently, we can't
get the exact results.
Change the precision in assert_almost_equal to larger precision
(ie 2 to 8) to see how off the data is. Most are well within
expectations.
"""
DECBAS = 552.7
obs_v = obspy.core.Stream()
obs_v += __create_trace('H',
[20889.55, 20889.57, 20889.74, 20889.86, 20889.91, 20889.81], DECBAS)
obs_v += __create_trace('E',
[-21.10, -20.89, -20.72, -20.57, -20.39, -20.12], DECBAS)
obs_v += __create_trace('Z',
[47565.29, 47565.34, 47565.39, 47565.45, 47565.51, 47565.54], DECBAS)
obs_v += __create_trace('F',
[52485.77, 52485.84, 52485.94, 52486.06, 52486.11, 52486.10], DECBAS)
obs_V = StreamConverter.get_obs_from_obs(obs_v, True, True)
d = obs_V.select(channel='D')[0].data
d = ChannelConverter.get_minutes_from_radians(d)
# Using d values calculated using small angle approximation.
assert_almost_equal(d,
[-3.47, -3.43, -3.40, -3.38, -3.35, -3.31], 2,
'Expect d to equal [-3.47, -3.43, -3.40, -3.38, -3.35, -3.31]', True)
mag = obspy.core.Stream()
DECBAS = 552.7
mag += __create_trace('H',
[20884.04, 20883.45, 20883.38, 20883.43, 20883.07, 20882.76], DECBAS)
d = ChannelConverter.get_radians_from_minutes(
[556.51, 556.52, 556.56, 556.61, 556.65, 556.64])
mag += __create_trace('D', d, DECBAS)
mag += __create_trace('Z',
[48546.90, 48546.80, 48546.80, 48546.70, 48546.80, 48546.90], DECBAS)
mag += __create_trace('F',
[0.10, 0.00, 0.10, 0.00, 0.00, 0.00, 0.00], DECBAS)
geo = StreamConverter.get_geo_from_mag(mag)
X = geo.select(channel='X')[0].data
Y = geo.select(channel='Y')[0].data
assert_almost_equal(X,
[20611.00, 20610.40, 20610.30, 20610.30, 20609.90, 20609.60], 2)
assert_almost_equal(Y,
[3366.00, 3366.00, 3366.20, 3366.50, 3366.70, 3366.60], 1)