def test_calculate_internal_single_deployment(self):
ctd_ds = xr.open_dataset(os.path.join(DATA_DIR, self.ctdpf_fn),
decode_times=False)
ctd_ds = ctd_ds[[
'obs', 'time', 'deployment', 'temperature', 'pressure',
'pressure_temp', 'conductivity', 'ext_volt0'
]]
ctd_stream_dataset = StreamDataset(self.ctdpf_sk, {}, [], 'UNIT')
ctd_stream_dataset.events = self.ctd_events
ctd_stream_dataset._insert_dataset(ctd_ds)
ctd_stream_dataset.calculate_all()
for deployment in ctd_stream_dataset.datasets:
ds = ctd_stream_dataset.datasets[deployment]
tempwat = ctd_sbe16plus_tempwat(
ds.temperature,
ctd_stream_dataset.events.get_cal('CC_a0', deployment)[0][2],
ctd_stream_dataset.events.get_cal('CC_a1', deployment)[0][2],
ctd_stream_dataset.events.get_cal('CC_a2', deployment)[0][2],
ctd_stream_dataset.events.get_cal('CC_a3', deployment)[0][2])
np.testing.assert_array_equal(ds.seawater_temperature, tempwat)
pracsal = ctd_pracsal(ds.seawater_conductivity,
ds.seawater_temperature,
ds.seawater_pressure)
np.testing.assert_array_equal(ds.practical_salinity, pracsal)
def test_calculate_internal_multiple_deployments(self):
ctd_ds = xr.open_dataset(os.path.join(DATA_DIR, self.ctdpf_fn),
decode_times=False)
ctd_ds = ctd_ds[[
'obs', 'time', 'deployment', 'temperature', 'pressure',
'pressure_temp', 'conductivity', 'ext_volt0'
]]
# remap times to make this two separate deployments
dep1_start = self.ctd_events.deps[1].ntp_start
dep2_stop = self.ctd_events.deps[2].ntp_start + 864000
ctd_ds.time.values = np.linspace(dep1_start + 1,
dep2_stop - 1,
num=ctd_ds.time.shape[0])
ctd_stream_dataset = StreamDataset(self.ctdpf_sk, {}, [], 'UNIT')
ctd_stream_dataset.events = self.ctd_events
ctd_stream_dataset._insert_dataset(ctd_ds)
ctd_stream_dataset.calculate_all()
for deployment in ctd_stream_dataset.datasets:
ds = ctd_stream_dataset.datasets[deployment]
tempwat = ctd_sbe16plus_tempwat(
ds.temperature,
ctd_stream_dataset.events.get_cal('CC_a0', deployment)[0][2],
ctd_stream_dataset.events.get_cal('CC_a1', deployment)[0][2],
ctd_stream_dataset.events.get_cal('CC_a2', deployment)[0][2],
ctd_stream_dataset.events.get_cal('CC_a3', deployment)[0][2])
np.testing.assert_array_equal(ds.seawater_temperature, tempwat)
pracsal = ctd_pracsal(ds.seawater_conductivity,
ds.seawater_temperature,
ds.seawater_pressure)
np.testing.assert_array_equal(ds.practical_salinity, pracsal)
def test_calculate_internal_multiple_deployments(self):
ctd_ds = xr.open_dataset(os.path.join(DATA_DIR, self.ctdpf_fn), decode_times=False)
ctd_ds = ctd_ds[['obs', 'time', 'deployment', 'temperature', 'pressure',
'pressure_temp', 'conductivity', 'ext_volt0']]
# remap times to make this two separate deployments
dep1_start = self.ctd_events.deps[1].ntp_start
dep2_stop = self.ctd_events.deps[2].ntp_start + 864000
ctd_ds.time.values = np.linspace(dep1_start+1, dep2_stop-1, num=ctd_ds.time.shape[0])
ctd_stream_dataset = StreamDataset(self.ctdpf_sk, {}, [], 'UNIT')
ctd_stream_dataset.events = self.ctd_events
ctd_stream_dataset._insert_dataset(ctd_ds)
ctd_stream_dataset.calculate_all()
for deployment in ctd_stream_dataset.datasets:
ds = ctd_stream_dataset.datasets[deployment]
tempwat = ctd_sbe16plus_tempwat(ds.temperature,
ctd_stream_dataset.events.get_cal('CC_a0', deployment)[0][2],
ctd_stream_dataset.events.get_cal('CC_a1', deployment)[0][2],
ctd_stream_dataset.events.get_cal('CC_a2', deployment)[0][2],
ctd_stream_dataset.events.get_cal('CC_a3', deployment)[0][2])
np.testing.assert_array_equal(ds.seawater_temperature, tempwat)
pracsal = ctd_pracsal(ds.seawater_conductivity,
ds.seawater_temperature,
ds.seawater_pressure)
np.testing.assert_array_equal(ds.practical_salinity, pracsal)
def test_calculate_external_multiple_deployments(self):
ctd_ds = xr.open_dataset(os.path.join(DATA_DIR, self.ctdpf_fn), decode_times=False)
nut_ds = xr.open_dataset(os.path.join(DATA_DIR, self.nutnr_fn), decode_times=False)
ctd_ds = ctd_ds[['obs', 'time', 'deployment', 'temperature', 'pressure',
'pressure_temp', 'conductivity', 'ext_volt0']]
nut_ds = nut_ds[['obs', 'time', 'deployment', 'spectral_channels',
'frame_type', 'nutnr_dark_value_used_for_fit']]
# remap times to make this two separate deployments
dep1_start = self.ctd_events.deps[1].ntp_start
dep2_stop = self.ctd_events.deps[2].ntp_start + 864000
ctd_ds.time.values = np.linspace(dep1_start + 1, dep2_stop - 1, num=ctd_ds.time.shape[0])
nut_ds.time.values = np.linspace(dep1_start + 1, dep2_stop - 1, num=nut_ds.time.shape[0])
ctd_stream_dataset = StreamDataset(self.ctdpf_sk, {}, [], 'UNIT')
ctd_stream_dataset.events = self.ctd_events
ctd_stream_dataset._insert_dataset(ctd_ds)
ctd_stream_dataset.calculate_all()
nut_stream_dataset = StreamDataset(self.nutnr_sk, {}, [self.ctdpf_sk], 'UNIT')
nut_stream_dataset.events = self.nut_events
nut_stream_dataset._insert_dataset(nut_ds)
nut_stream_dataset.calculate_all()
nut_stream_dataset.interpolate_needed({self.ctdpf_sk: ctd_stream_dataset})
nut_stream_dataset.calculate_all()
expected_params = ['ctdpf_sbe43_sample-seawater_temperature',
'ctdpf_sbe43_sample-practical_salinity',
'salinity_corrected_nitrate']
self.assert_parameters_in_datasets(nut_stream_dataset.datasets, expected_params)
def test_calculate_external_single_deployment(self):
ctd_ds = xr.open_dataset(os.path.join(DATA_DIR, self.ctdpf_fn), decode_times=False)
nut_ds = xr.open_dataset(os.path.join(DATA_DIR, self.nutnr_fn), decode_times=False)
ctd_ds = ctd_ds[['obs', 'time', 'deployment', 'temperature', 'pressure',
'pressure_temp', 'conductivity', 'ext_volt0']]
nut_ds = nut_ds[['obs', 'time', 'deployment', 'spectral_channels',
'frame_type', 'nutnr_dark_value_used_for_fit']]
ctd_stream_dataset = StreamDataset(self.ctdpf_sk, {}, [], 'UNIT')
ctd_stream_dataset.events = self.ctd_events
ctd_stream_dataset._insert_dataset(ctd_ds)
ctd_stream_dataset.calculate_all()
nut_stream_dataset = StreamDataset(self.nutnr_sk, {}, [self.ctdpf_sk], 'UNIT')
nut_stream_dataset.events = self.nut_events
nut_stream_dataset._insert_dataset(nut_ds)
nut_stream_dataset.calculate_all()
nut_stream_dataset.interpolate_needed({self.ctdpf_sk: ctd_stream_dataset})
nut_stream_dataset.calculate_all()
expected_params = ['ctdpf_sbe43_sample-seawater_temperature',
'ctdpf_sbe43_sample-practical_salinity',
'salinity_corrected_nitrate']
self.assert_parameters_in_datasets(nut_stream_dataset.datasets, expected_params)
def test_calculate_external_multiple_deployments(self):
ctd_ds = xr.open_dataset(os.path.join(DATA_DIR, self.ctdpf_fn), decode_times=False)
nut_ds = xr.open_dataset(os.path.join(DATA_DIR, self.nutnr_fn), decode_times=False)
ctd_ds = ctd_ds[['obs', 'time', 'deployment', 'temperature', 'pressure',
'pressure_temp', 'conductivity', 'ext_volt0']]
nut_ds = nut_ds[['obs', 'time', 'deployment', 'spectral_channels',
'frame_type', 'nutnr_dark_value_used_for_fit']]
# remap times to make this two separate deployments
dep1_start = self.ctd_events.deps[1].ntp_start
dep2_stop = self.ctd_events.deps[2].ntp_start + 864000
ctd_ds.time.values = np.linspace(dep1_start + 1, dep2_stop - 1, num=ctd_ds.time.shape[0])
nut_ds.time.values = np.linspace(dep1_start + 1, dep2_stop - 1, num=nut_ds.time.shape[0])
ctd_stream_dataset = StreamDataset(self.ctdpf_sk, {}, [], 'UNIT')
ctd_stream_dataset.events = self.ctd_events
ctd_stream_dataset._insert_dataset(ctd_ds)
ctd_stream_dataset.calculate_all()
nut_stream_dataset = StreamDataset(self.nutnr_sk, {}, [self.ctdpf_sk], 'UNIT')
nut_stream_dataset.events = self.nut_events
nut_stream_dataset._insert_dataset(nut_ds)
nut_stream_dataset.calculate_all()
nut_stream_dataset.interpolate_needed({self.ctdpf_sk: ctd_stream_dataset})
nut_stream_dataset.calculate_all()
expected_params = ['ctdpf_sbe43_sample-seawater_temperature',
'ctdpf_sbe43_sample-practical_salinity',
'salinity_corrected_nitrate']
self.assert_parameters_in_datasets(nut_stream_dataset.datasets, expected_params)
def test_calculate_external_single_deployment(self):
ctd_ds = xr.open_dataset(os.path.join(DATA_DIR, self.ctdpf_fn), decode_times=False)
nut_ds = xr.open_dataset(os.path.join(DATA_DIR, self.nutnr_fn), decode_times=False)
ctd_ds = ctd_ds[['obs', 'time', 'deployment', 'temperature', 'pressure',
'pressure_temp', 'conductivity', 'ext_volt0']]
nut_ds = nut_ds[['obs', 'time', 'deployment', 'spectral_channels',
'frame_type', 'nutnr_dark_value_used_for_fit']]
ctd_stream_dataset = StreamDataset(self.ctdpf_sk, {}, [], 'UNIT')
ctd_stream_dataset.events = self.ctd_events
ctd_stream_dataset._insert_dataset(ctd_ds)
ctd_stream_dataset.calculate_all()
nut_stream_dataset = StreamDataset(self.nutnr_sk, {}, [self.ctdpf_sk], 'UNIT')
nut_stream_dataset.events = self.nut_events
nut_stream_dataset._insert_dataset(nut_ds)
nut_stream_dataset.calculate_all()
nut_stream_dataset.interpolate_needed({self.ctdpf_sk: ctd_stream_dataset})
nut_stream_dataset.calculate_all()
expected_params = ['ctdpf_sbe43_sample-seawater_temperature',
'ctdpf_sbe43_sample-practical_salinity',
'salinity_corrected_nitrate']
self.assert_parameters_in_datasets(nut_stream_dataset.datasets, expected_params)
def test_calculate_internal_single_deployment(self):
ctd_ds = xr.open_dataset(os.path.join(DATA_DIR, self.ctdpf_fn), decode_times=False)
ctd_ds = ctd_ds[['obs', 'time', 'deployment', 'temperature', 'pressure',
'pressure_temp', 'conductivity', 'ext_volt0']]
ctd_stream_dataset = StreamDataset(self.ctdpf_sk, {}, [], 'UNIT')
ctd_stream_dataset.events = self.ctd_events
ctd_stream_dataset._insert_dataset(ctd_ds)
ctd_stream_dataset.calculate_all()
for deployment in ctd_stream_dataset.datasets:
ds = ctd_stream_dataset.datasets[deployment]
tempwat = ctd_sbe16plus_tempwat(ds.temperature,
ctd_stream_dataset.events.get_cal('CC_a0', deployment)[0][2],
ctd_stream_dataset.events.get_cal('CC_a1', deployment)[0][2],
ctd_stream_dataset.events.get_cal('CC_a2', deployment)[0][2],
ctd_stream_dataset.events.get_cal('CC_a3', deployment)[0][2])
np.testing.assert_array_equal(ds.seawater_temperature, tempwat)
pracsal = ctd_pracsal(ds.seawater_conductivity,
ds.seawater_temperature,
ds.seawater_pressure)
np.testing.assert_array_equal(ds.practical_salinity, pracsal)
def test_calculate_external_12035(self):
velpt_ds = xr.open_dataset(os.path.join(DATA_DIR, self.velpt_fn),
decode_times=False)
metbk_ds = xr.open_dataset(os.path.join(DATA_DIR, self.metbk_fn),
decode_times=False)
velpt_ds = velpt_ds[[
'obs', 'time', 'deployment', 'velocity_beam1', 'velocity_beam2',
'velocity_beam3', 'amplitude_beam1', 'amplitude_beam2',
'amplitude_beam3'
]]
metbk_ds = metbk_ds[[
'obs', 'time', 'deployment', 'barometric_pressure',
'relative_humidity', 'air_temperature', 'longwave_irradiance',
'precipitation', 'sea_surface_temperature',
'sea_surface_conductivity', 'shortwave_irradiance',
'eastward_wind_velocity', 'northward_wind_velocity'
]]
velpt_stream_dataset = StreamDataset(self.velpt_sk, {}, [], 'UNIT')
velpt_stream_dataset.events = self.velpt_events
velpt_stream_dataset._insert_dataset(velpt_ds)
velpt_stream_dataset.calculate_all()
metbk_stream_dataset = StreamDataset(self.metbk_sk, {},
[self.velpt_sk], 'UNIT')
metbk_stream_dataset.events = self.metbk_events
metbk_stream_dataset._insert_dataset(metbk_ds)
metbk_stream_dataset.calculate_all()
metbk_stream_dataset.interpolate_needed(
{self.velpt_sk: velpt_stream_dataset})
metbk_stream_dataset.calculate_all()
expected_params = [
'met_barpres',
'met_windavg_mag_corr_east',
'met_windavg_mag_corr_north',
'met_current_direction',
'met_current_speed',
'met_relwind_direction',
'met_relwind_speed',
'met_netsirr',
'met_salsurf',
'met_spechum',
'met_heatflx_minute',
'met_latnflx_minute',
'met_netlirr_minute',
'met_sensflx_minute',
]
self.assert_parameters_in_datasets(metbk_stream_dataset.datasets,
expected_params)
def test_calculate_external_12035(self):
velpt_ds = xr.open_dataset(os.path.join(DATA_DIR, self.velpt_fn), decode_times=False)
metbk_ds = xr.open_dataset(os.path.join(DATA_DIR, self.metbk_fn), decode_times=False)
velpt_ds = velpt_ds[['obs', 'time', 'deployment', 'velocity_beam1', 'velocity_beam2', 'velocity_beam3',
'amplitude_beam1', 'amplitude_beam2', 'amplitude_beam3']]
metbk_ds = metbk_ds[['obs', 'time', 'deployment', 'barometric_pressure', 'relative_humidity',
'air_temperature', 'longwave_irradiance', 'precipitation', 'sea_surface_temperature',
'sea_surface_conductivity', 'shortwave_irradiance', 'eastward_wind_velocity',
'northward_wind_velocity']]
velpt_stream_dataset = StreamDataset(self.velpt_sk, {}, [], 'UNIT')
velpt_stream_dataset.events = self.velpt_events
velpt_stream_dataset._insert_dataset(velpt_ds)
velpt_stream_dataset.calculate_all()
metbk_stream_dataset = StreamDataset(self.metbk_sk, {}, [self.velpt_sk], 'UNIT')
metbk_stream_dataset.events = self.metbk_events
metbk_stream_dataset._insert_dataset(metbk_ds)
metbk_stream_dataset.calculate_all()
metbk_stream_dataset.interpolate_needed({self.velpt_sk: velpt_stream_dataset})
metbk_stream_dataset.calculate_all()
expected_params = ['met_barpres',
'met_windavg_mag_corr_east',
'met_windavg_mag_corr_north',
'met_current_direction',
'met_current_speed',
'met_relwind_direction',
'met_relwind_speed',
'met_netsirr',
'met_salsurf',
'met_spechum',
'met_heatflx_minute',
'met_latnflx_minute',
'met_netlirr_minute',
'met_sensflx_minute',
]
self.assert_parameters_in_datasets(metbk_stream_dataset.datasets, expected_params)