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- from openleadr import utils, objects
- from dataclasses import dataclass
- import pytest
- from datetime import datetime, timezone, timedelta
- from collections import deque
- @dataclass
- class dc:
- a: int = 2
- def test_hasmember():
- obj = {'a': 1}
- assert utils.hasmember(obj, 'a') == True
- assert utils.hasmember(obj, 'b') == False
- obj = dc()
- assert utils.hasmember(obj, 'a') == True
- assert utils.hasmember(obj, 'b') == False
- def test_getmember():
- obj = {'a': 1}
- assert utils.getmember(obj, 'a') == 1
- obj = dc()
- assert utils.getmember(obj, 'a') == 2
- def test_setmember():
- obj = {'a': 1}
- utils.setmember(obj, 'a', 10)
- assert utils.getmember(obj, 'a') == 10
- obj = dc()
- utils.setmember(obj, 'a', 10)
- assert utils.getmember(obj, 'a') == 10
- @pytest.mark.asyncio
- async def test_delayed_call_with_func():
- async def myfunc():
- pass
- await utils.delayed_call(myfunc, delay=0.1)
- @pytest.mark.asyncio
- async def test_delayed_call_with_coro():
- async def mycoro():
- pass
- await utils.delayed_call(mycoro(), delay=0.1)
- @pytest.mark.asyncio
- async def test_delayed_call_with_coro_func():
- async def mycoro():
- pass
- await utils.delayed_call(mycoro, delay=0.1)
- def test_determine_event_status_completed():
- active_period = {'dtstart': datetime.now(timezone.utc) - timedelta(seconds=10),
- 'duration': timedelta(seconds=5)}
- assert utils.determine_event_status(active_period) == 'completed'
- def test_determine_event_status_active():
- active_period = {'dtstart': datetime.now(timezone.utc) - timedelta(seconds=10),
- 'duration': timedelta(seconds=15)}
- assert utils.determine_event_status(active_period) == 'active'
- def test_determine_event_status_near():
- active_period = {'dtstart': datetime.now(timezone.utc) + timedelta(seconds=3),
- 'duration': timedelta(seconds=5),
- 'ramp_up_duration': timedelta(seconds=5)}
- assert utils.determine_event_status(active_period) == 'near'
- def test_determine_event_status_far():
- active_period = {'dtstart': datetime.now(timezone.utc) + timedelta(seconds=10),
- 'duration': timedelta(seconds=5)}
- assert utils.determine_event_status(active_period) == 'far'
- def test_determine_event_status_far_with_ramp_up():
- active_period = {'dtstart': datetime.now(timezone.utc) + timedelta(seconds=10),
- 'duration': timedelta(seconds=5),
- 'ramp_up_duration': timedelta(seconds=5)}
- assert utils.determine_event_status(active_period) == 'far'
- def test_get_active_period_from_intervals():
- now = datetime.now(timezone.utc)
- intervals=[{'dtstart': now,
- 'duration': timedelta(seconds=5)},
- {'dtstart': now + timedelta(seconds=5),
- 'duration': timedelta(seconds=5)}]
- assert utils.get_active_period_from_intervals(intervals) == {'dtstart': now,
- 'duration': timedelta(seconds=10)}
- intervals=[objects.Interval(dtstart=now,
- duration=timedelta(seconds=5),
- signal_payload=1),
- objects.Interval(dtstart=now + timedelta(seconds=5),
- duration=timedelta(seconds=5),
- signal_payload=2)]
- assert utils.get_active_period_from_intervals(intervals) == {'dtstart': now,
- 'duration': timedelta(seconds=10)}
- assert utils.get_active_period_from_intervals(intervals, False) == objects.ActivePeriod(dtstart=now,
- duration=timedelta(seconds=10))
- def test_cron_config():
- assert utils.cron_config(timedelta(seconds=5)) == {'second': '*/5', 'minute': '*', 'hour': '*'}
- assert utils.cron_config(timedelta(minutes=1)) == {'second': '0', 'minute': '*/1', 'hour': '*'}
- assert utils.cron_config(timedelta(minutes=5)) == {'second': '0', 'minute': '*/5', 'hour': '*'}
- assert utils.cron_config(timedelta(hours=1)) == {'second': '0', 'minute': '0', 'hour': '*/1'}
- assert utils.cron_config(timedelta(hours=2)) == {'second': '0', 'minute': '0', 'hour': '*/2'}
- assert utils.cron_config(timedelta(hours=25)) == {'second': '0', 'minute': '0', 'hour': '0'}
- assert utils.cron_config(timedelta(seconds=10), randomize_seconds=True) == {'second': '*/10',
- 'minute': '*',
- 'hour': '*',
- 'jitter': 1}
- def test_get_event_from_deque():
- d = deque()
- now = datetime.now(timezone.utc)
- event1 = objects.Event(event_descriptor=objects.EventDescriptor(event_id='event123',
- event_status='far',
- modification_number='1',
- market_context='http://marketcontext01'),
- event_signals=[objects.EventSignal(signal_name='simple',
- signal_type='level',
- signal_id=utils.generate_id(),
- intervals=[objects.Interval(dtstart=now,
- duration=timedelta(minutes=10),
- signal_payload=1)])],
- targets=[{'ven_id': 'ven123'}])
- msg_one = {'message': 'one'}
- msg_two = {'message': 'two'}
- msg_three = {'message': 'three'}
- event2 = objects.Event(event_descriptor=objects.EventDescriptor(event_id='event123',
- event_status='far',
- modification_number='1',
- market_context='http://marketcontext01'),
- event_signals=[objects.EventSignal(signal_name='simple',
- signal_type='level',
- signal_id=utils.generate_id(),
- intervals=[objects.Interval(dtstart=now,
- duration=timedelta(minutes=10),
- signal_payload=1)])],
- targets=[{'ven_id': 'ven123'}])
- d.append(event1)
- d.append(msg_one)
- d.append(msg_two)
- d.append(msg_three)
- d.append(event2)
- assert utils.get_next_event_from_deque(d) is event1
- assert utils.get_next_event_from_deque(d) is event2
- assert utils.get_next_event_from_deque(d) is None
- assert utils.get_next_event_from_deque(d) is None
- assert len(d) == 3
- assert d.popleft() is msg_one
- assert d.popleft() is msg_two
- assert d.popleft() is msg_three
- assert len(d) == 0
- assert utils.get_next_event_from_deque(d) is None
- def test_validate_report_measurement_dict_missing_items(caplog):
- measurement = {'name': 'rainbows'}
- with pytest.raises(ValueError) as err:
- utils.validate_report_measurement_dict(measurement)
- assert str(err.value) == (f"The measurement dict must contain the following keys: "
- "'name', 'description', 'unit'. Please correct this.")
- def test_validate_report_measurement_dict_invalid_name(caplog):
- measurement = {'name': 'rainbows',
- 'unit': 'B',
- 'description': 'Rainbows'}
- utils.validate_report_measurement_dict(measurement)
- assert measurement['name'] == 'customUnit'
- assert (f"You provided a measurement with an unknown name rainbows. "
- "This was corrected to 'customUnit'. Please correct this in your "
- "report definition.") in caplog.messages
- def test_validate_report_measurement_dict_invalid_unit():
- with pytest.raises(ValueError) as err:
- measurement = {'name': 'current',
- 'unit': 'B',
- 'description': 'Current'}
- utils.validate_report_measurement_dict(measurement)
- assert str(err.value) == (f"The unit 'B' is not acceptable for measurement 'current'. Allowed "
- f"units are: 'A'.")
- def test_validate_report_measurement_dict_invalid_description(caplog):
- with pytest.raises(ValueError) as err:
- measurement = {'name': 'current',
- 'unit': 'A',
- 'description': 'something'}
- utils.validate_report_measurement_dict(measurement)
- str(err.value) == (f"The measurement's description 'something' "
- f"did not match the expected description for this type "
- f" ('Current'). Please correct this, or use "
- "'customUnit' as the name.")
- def test_validate_report_measurement_dict_invalid_description_case(caplog):
- measurement = {'name': 'current',
- 'unit': 'A',
- 'description': 'CURRENT'}
- utils.validate_report_measurement_dict(measurement)
- assert measurement['description'] == 'Current'
- assert (f"The description for the measurement with name 'current' "
- f"was not in the correct case; you provided 'CURRENT' but "
- f"it should be 'Current'. "
- "This was automatically corrected.") in caplog.messages
- def test_validate_report_measurement_dict_missing_power_attributes(caplog):
- with pytest.raises(ValueError) as err:
- measurement = {'name': 'powerReal',
- 'description': 'RealPower',
- 'unit': 'W'}
- utils.validate_report_measurement_dict(measurement)
- assert str(err.value) == ("A 'power' related measurement must contain a "
- "'power_attributes' section that contains the following "
- "keys: 'voltage' (int), 'ac' (boolean), 'hertz' (int)")
- def test_validate_report_measurement_dict_invalid_power_attributes(caplog):
- with pytest.raises(ValueError) as err:
- measurement = {'name': 'powerReal',
- 'description': 'RealPower',
- 'unit': 'W',
- 'power_attributes': {'a': 123}}
- utils.validate_report_measurement_dict(measurement)
- assert str(err.value) == ("The power_attributes of the measurement must contain the "
- "following keys: 'voltage' (int), 'ac' (bool), 'hertz' (int).")
- def test_parse_duration():
- assert utils.parse_duration("PT1M") == timedelta(minutes=1)
- assert utils.parse_duration("PT1M5S") == timedelta(minutes=1, seconds=5)
- assert utils.parse_duration("PT1H5M10S") == timedelta(hours=1, minutes=5, seconds=10)
- assert utils.parse_duration("P1DT1H5M10S") == timedelta(days=1, hours=1, minutes=5, seconds=10)
- assert utils.parse_duration("P1M") == timedelta(days=30)
- assert utils.parse_duration("-P1M") == timedelta(days=-30)
- assert utils.parse_duration("2W") == timedelta(days=14)
- with pytest.raises(ValueError) as err:
- utils.parse_duration("Hello")
- assert str(err.value) == f"The duration 'Hello' did not match the requested format"
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