def test_default(self):
lines = LINES.copy()
expected_results = RESULTS.copy()
# Use SBE45 temp and salinity for test. Omit pressure, as we're after
# surface specific gravity.
ssg = SeawaterSpecificGravityTransform(
temp_field='FlowthroughTemp',
salinity_field='Salinity',
specific_gravity_name='SpecGravity')
parse = ParseTransform(definition_path=self.device_filename)
# value_dict = {}
# timestamp_dict = {}
while lines:
record = parse.transform(lines.pop(0))
result = ssg.transform(record)
expected = expected_results.pop(0)
logging.debug('Got result: %s', result)
logging.debug('Expected result: %s\n', expected)
logging.info('Comparing result:\n%s\nwith expected:\n%s',
result.fields, expected)
self.assertRecursiveAlmostEqual(result.fields, expected)
def test_error(self):
p = ParseTransform(field_patterns=[
'{LF:nc},{LFDepth:of},{LFValid:od},{HF:nc},{HFDepth:of},{HFValid:od},{SoundSpeed:og},{Latitude:f},{Longitude:f}'
])
q = QCFilterTransform(bounds='LFDepth:0:6000,HFDepth:0:5000')
record = 'knud 2017-11-04T05:12:21.981359Z'
self.assertEqual(
q.transform(record),
'Record passed to QCFilterTransform was neither a dict nor a DASRecord. Type was <class \'str\'>: knud 2017-11-04T05:12:21.981359Z'
)
record = p.transform(
'knud 2017-11-04T05:12:21.981359Z 3.5kHz,5146.29,0,,,,1500,-39.583558,-37.466183'
)
self.assertEqual(q.transform(record),
'HFDepth: non-numeric value: "None"')
def test_default(self):
lines = LINES.copy()
expected_results = RESULTS.copy()
# Use port wind speed, output in m/s
tw = TrueWindsTransform(course_field='CourseTrue',
speed_field='SpeedKt',
heading_field='HeadingTrue',
wind_dir_field='PortRelWindDir',
update_on_fields=['PortRelWindDir'],
wind_speed_field='PortRelWindSpeed',
true_dir_name='PortTrueWindDir',
true_speed_name='PortTrueWindSpeed',
apparent_dir_name='PortApparentWindDir',
convert_speed_factor=0.5144)
parse = ParseTransform(
field_patterns=[
'PUS,{:nc},{PortRelWindDir:g},{PortRelWindSpeed:g},M,{PortSoundSpeed:g},{PortSonicTemp:g},{PortStatus:d},{Checksum:nc}',
'$INHDT,{HeadingTrue:f},T*{CheckSum:x}',
'$INRMC,{GPSTime:f},{GPSStatus:w},{Latitude:nlat},{NorS:w},{Longitude:nlat},{EorW:w},{SpeedKt:f},{CourseTrue:f},{GPSDate:w},{MagneticVar:of},{MagneticVarEorW:ow},{Mode:w}*{Checksum:x}',
])
value_dict = {}
timestamp_dict = {}
while lines:
record = parse.transform(lines.pop(0))
result_list = tw.transform(record)
self.assertEqual(type(result_list), list)
result = result_list[0] if len(result_list) else None
expected = expected_results.pop(0)
logging.debug('Got result: %s', result)
logging.debug('Expected result: %s\n', expected)
if not result or not expected:
self.assertIsNone(result)
self.assertIsNone(expected)
else:
logging.debug('Comparing result:\n%s\nwith expected:\n%s',
result.fields, expected)
self.assertRecursiveAlmostEqual(result.fields, expected)
def test_error(self):
p = ParseTransform(field_patterns=[
'{LF:nc},{LFDepth:of},{LFValid:od},{HF:nc},{HFDepth:of},{HFValid:od},{SoundSpeed:og},{Latitude:f},{Longitude:f}'
])
q = ValueFilterTransform(bounds='LFDepth:0:6000,HFDepth:0:5000',
log_level=logging.INFO)
with self.assertLogs(level='INFO') as cm:
test_str = 'knud 2017-11-04T05:12:21.981359Z 3.5kHz,5146.29,0,,,,1500,-39.583558,-37.466183'
record = p.transform(test_str)
record_copy = p.transform(test_str)
del record_copy['fields']['HFDepth']
self.assertEqual(q.transform(record), q.transform(record_copy))
q = ValueFilterTransform(bounds='LFDepth:0:6000,HFDepth:0:5000',
log_level=logging.WARNING)
with self.assertLogs(level='WARNING') as cm:
test_str = 'knud 2017-11-04T05:12:21.981359Z 3.5kHz,5146.29,0,,,,1500,-39.583558,-37.466183'
record = p.transform(test_str)
record_copy = p.transform(test_str)
del record_copy['fields']['HFDepth']
self.assertEqual(q.transform(record), q.transform(record_copy))
with self.assertLogs(level='WARNING') as cm:
record = 'knud 2017-11-04T05:12:21.981359Z'
self.assertEqual(q.transform(record), None)
self.assertEqual(cm.output, [
'WARNING:root:Record passed to ValueFilterTransform was neither a dict nor a '
"DASRecord. Type was <class 'str'>: knud 2017-11-04T05:12:21.981359Z"
])
with self.assertRaises(ValueError):
ValueFilterTransform(bounds='LFDepth:0:6000,HFDepth:0:5000',
log_level='a string')
def test_default(self):
p = ParseTransform(
field_patterns=['{Units:d}:{GravValue:d} {GravError:d}'])
q = ValueFilterTransform(bounds='GravValue:22000:23000,GravError::2')
record = p.transform('grv1 2017-11-04T05:12:21.273413Z 01:022013 00')
self.assertEqual(q.transform(record), record)
record = p.transform('grv1 2017-11-04T05:12:21.273413Z 01:022013 -5')
self.assertEqual(q.transform(record), record)
record = p.transform('grv1 2017-11-04T05:12:21.273413Z 01:023013 00')
record_copy = p.transform(
'grv1 2017-11-04T05:12:21.273413Z 01:023013 00')
del record_copy['fields']['GravValue']
self.assertEqual(q.transform(record), q.transform(record_copy))
record = p.transform('grv1 2017-11-04T05:12:21.273413Z 01:023013 03')
record_copy = p.transform(
'grv1 2017-11-04T05:12:21.273413Z 01:023013 03')
del record_copy['fields']['GravValue']
del record_copy['fields']['GravError']
self.assertEqual(q.transform(record), q.transform(record_copy))
def test_default(self):
p = ParseTransform(
field_patterns=['{Units:d}:{GravValue:d} {GravError:d}'])
q = QCFilterTransform(bounds='GravValue:22000:23000,GravError::2')
record = p.transform('grv1 2017-11-04T05:12:21.273413Z 01:022013 00')
self.assertIsNone(q.transform(record))
record = p.transform('grv1 2017-11-04T05:12:21.273413Z 01:022013 -5')
self.assertIsNone(q.transform(record))
record = p.transform('grv1 2017-11-04T05:12:21.273413Z 01:023013 00')
self.assertEqual(q.transform(record),
'GravValue: 23013 > upper bound 23000')
record = p.transform('grv1 2017-11-04T05:12:21.273413Z 01:023013 03')
self.assertEqual(
q.transform(record).split(';').sort(),
'GravValue: 23013 > upper bound 23000; GravError: 3 > upper bound 2'
.split(';').sort())
if new_args.regex_filter:
transforms.append(RegexFilterTransform(new_args.regex_filter))
if new_args.qc_filter:
transforms.append(QCFilterTransform(new_args.qc_filter))
if new_args.parse_nmea:
transforms.append(
ParseNMEATransform(
message_path=all_args.parse_nmea_message_path,
sensor_path=all_args.parse_nmea_sensor_path,
sensor_model_path=all_args.parse_nmea_sensor_model_path,
time_format=all_args.time_format)
)
if new_args.parse:
transforms.append(
ParseTransform(
definition_path=all_args.parse_definition_path,
return_json=all_args.parse_to_json,
return_das_record=all_args.parse_to_das_record)
)
if new_args.aggregate_xml:
transforms.append(XMLAggregatorTransform(new_args.aggregate_xml))
if new_args.max_min:
transforms.append(MaxMinTransform())
if new_args.count:
transforms.append(CountTransform())
if new_args.to_json:
transforms.append(ToJSONTransform())
if new_args.to_json_pretty:
