def test_can_create():
    """We can create a NemSettlementPeriod."""
    feb = datetime(2020, 2, 25, 12, 15, 12)
    set_per = NemSettlementPeriod(moment=feb)

    aest = timezone('Etc/GMT-10')

    assert set_per.start == aest.localize(datetime(2020, 2, 25, 12, 0, 0))
    assert set_per.end == aest.localize(datetime(2020, 2, 25, 12, 30, 0))
    assert set_per.start_date == date(2020, 2, 25)
    assert set_per.period_id == 25

    # Can handle change of days
    day_shift = datetime(2020, 2, 25, 23, 45, 12)
    set_per = NemSettlementPeriod(moment=day_shift)
    assert set_per.start == aest.localize(datetime(2020, 2, 25, 23, 30, 0))
    assert set_per.end == aest.localize(datetime(2020, 2, 26, 0, 0, 0))
    assert set_per.period_id == 48
    assert set_per.start_hour == 23
    assert set_per.end_hour == 0

    # Will convert a TZ aware datetime
    adelaide_tz = timezone('Australia/Adelaide')
    adelaide = adelaide_tz.localize(datetime(2020, 3, 23, 5, 34, 51))
    adelaide_sp = NemSettlementPeriod(moment=adelaide)
    assert adelaide_sp.start.isoformat() == '2020-03-23T05:00:00+10:00'
Пример #2
0
def test_aggregation_by_period_from_samples():
    """An energy object, created from samples, can be aggregated by period."""
    sample_1_1 = WattSample(watts=10000, moment='2019-11-01T13:00:00')
    sample_2_1 = WattSample(watts=10000, moment='2019-11-01T13:30:00')
    sample_2_2 = WattSample(watts=20000, moment='2019-11-01T13:45:00')
    sample_3_1 = WattSample(watts=10000, moment='2019-11-01T14:05:00')
    sample_3_2 = WattSample(watts=30000, moment='2019-11-01T14:15:00')
    samples = [sample_1_1, sample_2_1, sample_2_2, sample_3_1, sample_3_2]

    energy = ElectricalEnergy.from_power_samples(samples)

    # Energy between 13:00 and 14:15 is of a varied nature.
    #
    #   1. 30min constant 10kW
    #   2. 15min varying from 10 to 20 kW (average 15)
    #   3. 20min varying from 20 to 10 kW (average 15)
    #   4. 10min varying from 10 to 30 kW (average 20)
    # Total:
    #   Approx 17.083333 kWh over 1hr 15min (75min)
    assert energy.kwh == 5 + 3.75 + 5 + (20 * (10 / 60))
    assert energy.time == 75 * 60

    energy_periods = energy.by_period(NemSettlementPeriod)
    assert len(energy_periods) == 3

    # FIRST PERIOD:
    periods_1 = energy_periods[0].settlement_periods(NemSettlementPeriod)
    assert len(periods_1) == 1
    assert periods_1 == [NemSettlementPeriod('2019-11-01T13:00:00')]
    #   Constant power of 10kW across the 30min, measured only at the start
    assert energy_periods[0].kwh == 5.0
    assert len(energy_periods[0].samples) == 2

    # SECOND PERIOD:
    periods_2 = energy_periods[1].settlement_periods(NemSettlementPeriod)
    assert len(periods_2) == 1
    assert periods_2 == [NemSettlementPeriod('2019-11-01T13:30:00')]
    #   1. Power rises from 10 to 20 (mean 15kW) in first 15min
    #   2. Implied constant 20kW for the remaining 15min
    assert energy_periods[1].kwh == (15 * (15 / 60)) + (20 * (15 / 60))
    assert len(energy_periods[1].samples) == 3

    # THIRD PERIOD:
    periods_3 = energy_periods[2].settlement_periods(NemSettlementPeriod)
    assert len(periods_3) == 1
    assert periods_3 == [NemSettlementPeriod('2019-11-01T14:00:00')]
    #   1. Initial 5min is constant 10kW
    #   2. Power rises from 10 to 30 (mean 20 kW) over the next 10min
    #   3. Constant power of 30kW for the final 15min
    # Total:
    #   Approx 11.6667 across the 30min
    expeted_period_3 = (10 * (5 / 60)) + (20 * (10 / 60)) + (30 * (15 / 60))
    assert energy_periods[2].kwh == expeted_period_3
    assert len(energy_periods[2].samples) == 4
def test_can_compare():
    """Can compare two periods."""
    early = NemSettlementPeriod(datetime(2020, 2, 25, 12, 15, 12))
    late = NemSettlementPeriod(datetime(2020, 2, 26, 12, 15, 12))
    assert early < late

    # Same period
    assert NemSettlementPeriod(datetime(2020, 2, 25, 12, 15, 12)) == early
    # Same period, but instantiated one minute apart
    assert NemSettlementPeriod(datetime(2020, 2, 25, 12, 16, 12)) == early
    # Later period in an earlier day
    assert NemSettlementPeriod(datetime(2020, 2, 24, 14, 15, 12)) < early
def test_class_localize():
    """Can localize a datetie to match this class timezone."""
    naive = datetime(2019, 1, 1, 12, 00)
    localized_naive = NemSettlementPeriod.localize(naive).isoformat()
    assert localized_naive == "2019-01-01T12:00:00+10:00"

    utc_time = datetime(2019, 1, 1, 12, 00, tzinfo=timezone('UTC'))
    localized_utc_time = NemSettlementPeriod.localize(utc_time).isoformat()
    assert localized_utc_time == "2019-01-01T22:00:00+10:00"

    naive_str = "2019-01-01T12:00:00"
    localized_naive_str = NemSettlementPeriod.localize(naive_str).isoformat()
    assert localized_naive_str == "2019-01-01T12:00:00+10:00"

    utc_time_str = "2019-01-01T12:00:00Z"
    localized_utc_str = NemSettlementPeriod.localize(utc_time_str).isoformat()
    assert localized_utc_str == "2019-01-01T22:00:00+10:00"
Пример #5
0
def test_can_create():
    """We can create a power sample."""
    adelaide_tz = timezone('Australia/Adelaide')
    sample_time = adelaide_tz.localize(datetime(2020, 3, 23, 5, 34, 51))
    power_sample = WattSample(watts=1000, moment=sample_time)
    assert power_sample.killowatts == 1
    assert power_sample.megawatts == 0.001

    sample_period = power_sample.settlement_period(NemSettlementPeriod)
    period = NemSettlementPeriod(moment=sample_time)
    assert sample_period == period

    decimal_power_sample = WattSample(watts=Decimal(1000), moment=sample_time)
    assert decimal_power_sample == power_sample
Пример #6
0
def test_settlement_period(sample_momemt, period_moment):
    """Test that it reports the correct SP."""
    sample = WattSample(watts=1, moment=sample_momemt)
    period = NemSettlementPeriod(period_moment)
    assert sample.settlement_period(NemSettlementPeriod) == period
Пример #7
0
    #   1. Initial 5min is constant 10kW
    #   2. Power rises from 10 to 30 (mean 20 kW) over the next 10min
    #   3. Constant power of 30kW for the final 15min
    # Total:
    #   Approx 11.6667 across the 30min
    expeted_period_3 = (10 * (5 / 60)) + (20 * (10 / 60)) + (30 * (15 / 60))
    assert energy_periods[2].kwh == expeted_period_3
    assert len(energy_periods[2].samples) == 4


PERIOD_DATA = [
    (
        '2019-11-01T13:30:00',
        '2019-11-01T13:35:00',
        [
            NemSettlementPeriod('2019-11-01T13:30:00')
        ]
    ),
    (
        '2019-11-01T13:30:00',
        '2019-11-01T14:25:00',
        [
            NemSettlementPeriod('2019-11-01T13:30:00'),
            NemSettlementPeriod('2019-11-01T14:00:00')
        ]
    ),
    (
        '2019-11-01T13:00:00',
        '2019-11-01T14:35:00',
        [
            NemSettlementPeriod('2019-11-01T13:00:00'),
def test_nem_accuracy(moment, start, period_id):
    """Test the correct NEM period is built."""
    period = NemSettlementPeriod(moment)
    assert period.start == start
    assert period.period_id == period_id
def test_can_create_from_string():
    """Can be created from a string."""
    set_per = NemSettlementPeriod(moment="2020-02-25T12:00:00")

    aest = timezone('Etc/GMT-10')
    assert set_per.start == aest.localize(datetime(2020, 2, 25, 12, 0, 0))