def test_init(self):
t = Tariff(tariff_file=self.get_test_tariff(),
timezone='America/Los_Angeles')
assert t.tariff_file != None
assert t.tariff_json != None
assert t.rate_structure != None
assert t.rate_schedule != None
def test_cost(self):
l_data = [(1379487600, 5.0), (1379488500, 5.0), (1379489400, 5.0),
(1379490300, 5.0), (1379491200, 5.0)]
cost = [(1379487600, 0.0), (1379488500, 0.17), (1379489400, 0.17),
(1379490300, 0.17), (1379491200, 0.17)]
cumulative_cost = [(1379487600, 0.0), (1379488500, 0.17),
(1379489400, 0.34), (1379490300, 0.52),
(1379491200, 0.69)]
tariff = Tariff(tariff_file=self.get_test_tariff(),
timezone='America/Los_Angeles')
ls = Loadshape(l_data,
timezone='America/Los_Angeles',
log_level=30,
tariff=tariff)
cost_out, cumulative_cost_out = ls.cost()
assert cost_out.data() == cost
assert cumulative_cost_out.data() == cumulative_cost
with open(file_name, 'w') as outfile:
json.dump(data, outfile)
outfile.close()
# ----- build loadshape object ----- #
my_load_shape = Loadshape(load_data=LOAD_DATA, temp_data=TEMP_DATA,
timezone='America/Los_Angeles',
temp_units="F", sq_ft=BUILDING_SQ_FT)
# ----- add exclusions as necessary ----- #
my_load_shape.add_exclusion("2013-09-23 00:00:00", "2013-09-24 00:00:00")
my_load_shape.add_exclusion("2013-09-27 00:00:00", "2013-09-28 00:00:00")
my_load_shape.add_named_exclusion("US_HOLIDAYS")
# ----- add tariff to enable cost calculations ----- #
tariff = Tariff(tariff_file=TARIFF, timezone='America/Los_Angeles')
tariff.add_dr_period("2013-09-23 14:00:00", "2013-09-23 16:00:00")
tariff.add_dr_period("2013-09-27 14:00:00", "2013-09-27 16:15:00")
my_load_shape.set_tariff(tariff)
# ----- build the baseline to use as a reference for performance ----- #
event_baseline = my_load_shape.baseline(weighting_days=14,
modeling_interval=900,
step_size=900)
# ----- calculate the performance summary for the event period ----- #
event_performance = my_load_shape.event_performance(DR_EVENT_START, DR_EVENT_END)
# ----- calculate the performance summary for the whole day ----- #
event_day_performance = my_load_shape.event_performance(DR_EVENT_DAY_START, DR_EVENT_DAY_END)
def test_parse_rate_schedule(self):
t = Tariff(timezone='America/Los_Angeles')
t.read_tariff_file(tariff_file=self.get_test_tariff())
t.parse_rate_schedule()
assert t.rate_schedule != None
def test_read_tariff_file(self):
t = Tariff(timezone='America/Los_Angeles')
t.read_tariff_file(tariff_file=self.get_test_tariff())
assert t.tariff_file != None
assert t.tariff_json != None
def test_parse_rate_schedule(self):
t = Tariff(timezone='America/Los_Angeles')
t.read_tariff_file(tariff_file=self.get_test_tariff())
t.parse_rate_schedule()
assert t.rate_schedule != None
def test_read_tariff_file(self):
t = Tariff(timezone='America/Los_Angeles')
t.read_tariff_file(tariff_file=self.get_test_tariff())
assert t.tariff_file != None
assert t.tariff_json != None
