def _test_bts_simulation_dt(self):
code = """
def initialize(context):
pass
"""
algo = TradingAlgorithm(script=code,
sim_params=self.sim_params,
env=self.env)
algo.perf_tracker = PerformanceTracker(
sim_params=self.sim_params,
trading_calendar=self.trading_calendar,
env=self.env,
)
dt = pd.Timestamp("2016-08-04 9:13:14", tz='US/Eastern')
algo_simulator = AlgorithmSimulator(algo, self.sim_params,
self.data_portal,
BeforeTradingStartsOnlyClock(dt),
algo._create_benchmark_source(),
NoRestrictions(), None)
# run through the algo's simulation
list(algo_simulator.transform())
# since the clock only ever emitted a single before_trading_start
# event, we can check that the simulation_dt was properly set
self.assertEqual(dt, algo_simulator.simulation_dt)
def get_generator(self):
if self.trading_client is not None:
return self.trading_client.transform()
perf = None
if self.perf_tracker is None:
tracker = self.perf_tracker = PerformanceTracker(
sim_params=self.sim_params,
trading_calendar=self.trading_calendar,
env=self.trading_environment,
)
# Set the dt initially to the period start by forcing it to change.
self.on_dt_changed(self.sim_params.start_session)
# Unpacking the perf_tracker and positions if available
perf = get_algo_object(
algo_name=self.algo_namespace,
key='cumulative_performance',
)
if not self.initialized:
self.initialize(*self.initialize_args, **self.initialize_kwargs)
self.initialized = True
# Call the simulation trading algorithm for side-effects:
# it creates the perf tracker
# TradingAlgorithm._create_generator(self, self.sim_params)
if perf is not None:
tracker.cumulative_performance = perf
period = self.perf_tracker.todays_performance
period.starting_cash = perf.ending_cash
period.starting_exposure = perf.ending_exposure
period.starting_value = perf.ending_value
period.position_tracker = perf.position_tracker
self.trading_client = ExchangeAlgorithmExecutor(
algo=self,
sim_params=self.sim_params,
data_portal=self.data_portal,
clock=self.clock,
benchmark_source=self._create_benchmark_source(),
restrictions=self.restrictions,
universe_func=self._calculate_universe,
)
return self.trading_client.transform()
def _init_trading_client(self):
"""
This replaces Ziplines `_create_generator` method. The main difference
is that we are restoring performance tracker objects if available.
This allows us to stop/start algos without loosing their state.
"""
self.state = get_algo_object(
algo_name=self.algo_namespace,
key='context.state_{}'.format(self.mode_name),
)
if self.state is None:
self.state = {}
if self.perf_tracker is None:
# Note from the Zipline dev:
# HACK: When running with the `run` method, we set perf_tracker to
# None so that it will be overwritten here.
tracker = self.perf_tracker = PerformanceTracker(
sim_params=self.sim_params,
trading_calendar=self.trading_calendar,
env=self.trading_environment,
)
# Set the dt initially to the period start by forcing it to change.
self.on_dt_changed(self.sim_params.start_session)
new_position_tracker = tracker.position_tracker
tracker.position_tracker = None
# Unpacking the perf_tracker and positions if available
cum_perf = get_algo_object(
algo_name=self.algo_namespace,
key='cumulative_performance_{}'.format(self.mode_name),
)
if cum_perf is not None:
tracker.cumulative_performance = cum_perf
# Ensure single common position tracker
tracker.position_tracker = cum_perf.position_tracker
today = pd.Timestamp.utcnow().floor('1D')
todays_perf = get_algo_object(
algo_name=self.algo_namespace,
key=today.strftime('%Y-%m-%d'),
rel_path='daily_performance_{}'.format(self.mode_name),
)
if todays_perf is not None:
# Ensure single common position tracker
if tracker.position_tracker is not None:
todays_perf.position_tracker = tracker.position_tracker
else:
tracker.position_tracker = todays_perf.position_tracker
tracker.todays_performance = todays_perf
if tracker.position_tracker is None:
# Use a new position_tracker if not is found in the state
tracker.position_tracker = new_position_tracker
if not self.initialized:
# Calls the initialize function of the algorithm
self.initialize(*self.initialize_args, **self.initialize_kwargs)
self.initialized = True
self.trading_client = ExchangeAlgorithmExecutor(
algo=self,
sim_params=self.sim_params,
data_portal=self.data_portal,
clock=self.clock,
benchmark_source=self._create_benchmark_source(),
restrictions=self.restrictions,
universe_func=self._calculate_universe,
)
def transaction_sim(self, **params):
"""This is a utility method that asserts expected
results for conversion of orders to transactions given a
trade history
"""
trade_count = params['trade_count']
trade_interval = params['trade_interval']
order_count = params['order_count']
order_amount = params['order_amount']
order_interval = params['order_interval']
expected_txn_count = params['expected_txn_count']
expected_txn_volume = params['expected_txn_volume']
# optional parameters
# ---------------------
# if present, alternate between long and short sales
alternate = params.get('alternate')
# if present, expect transaction amounts to match orders exactly.
complete_fill = params.get('complete_fill')
asset1 = self.asset_finder.retrieve_asset(1)
metadata = make_simple_equity_info([asset1.sid], self.start, self.end)
with TempDirectory() as tempdir, \
tmp_trading_env(equities=metadata,
load=self.make_load_function()) as env:
if trade_interval < timedelta(days=1):
sim_params = factory.create_simulation_parameters(
start=self.start,
end=self.end,
data_frequency="minute"
)
minutes = self.trading_calendar.minutes_window(
sim_params.first_open,
int((trade_interval.total_seconds() / 60) * trade_count)
+ 100)
price_data = np.array([10.1] * len(minutes))
assets = {
asset1.sid: pd.DataFrame({
"open": price_data,
"high": price_data,
"low": price_data,
"close": price_data,
"volume": np.array([100] * len(minutes)),
"dt": minutes
}).set_index("dt")
}
write_bcolz_minute_data(
self.trading_calendar,
self.trading_calendar.sessions_in_range(
self.trading_calendar.minute_to_session_label(
minutes[0]
),
self.trading_calendar.minute_to_session_label(
minutes[-1]
)
),
tempdir.path,
iteritems(assets),
)
equity_minute_reader = BcolzMinuteBarReader(tempdir.path)
data_portal = DataPortal(
env.asset_finder, self.trading_calendar,
first_trading_day=equity_minute_reader.first_trading_day,
minute_reader=equity_minute_reader,
)
else:
sim_params = factory.create_simulation_parameters(
data_frequency="daily"
)
days = sim_params.sessions
assets = {
1: pd.DataFrame({
"open": [10.1] * len(days),
"high": [10.1] * len(days),
"low": [10.1] * len(days),
"close": [10.1] * len(days),
"volume": [100] * len(days),
"day": [day.value for day in days]
}, index=days)
}
path = os.path.join(tempdir.path, "testdata.bcolz")
BcolzDailyBarWriter(path, self.trading_calendar, days[0],
days[-1]).write(
assets.items()
)
equity_daily_reader = BcolzDailyBarReader(path)
data_portal = DataPortal(
env.asset_finder, self.trading_calendar,
first_trading_day=equity_daily_reader.first_trading_day,
daily_reader=equity_daily_reader,
)
if "default_slippage" not in params or \
not params["default_slippage"]:
slippage_func = FixedSlippage()
else:
slippage_func = None
blotter = Blotter(sim_params.data_frequency, slippage_func)
start_date = sim_params.first_open
if alternate:
alternator = -1
else:
alternator = 1
tracker = PerformanceTracker(sim_params, self.trading_calendar,
self.env)
# replicate what tradesim does by going through every minute or day
# of the simulation and processing open orders each time
if sim_params.data_frequency == "minute":
ticks = minutes
else:
ticks = days
transactions = []
order_list = []
order_date = start_date
for tick in ticks:
blotter.current_dt = tick
if tick >= order_date and len(order_list) < order_count:
# place an order
direction = alternator ** len(order_list)
order_id = blotter.order(
asset1,
order_amount * direction,
MarketOrder())
order_list.append(blotter.orders[order_id])
order_date = order_date + order_interval
# move after market orders to just after market next
# market open.
if order_date.hour >= 21:
if order_date.minute >= 00:
order_date = order_date + timedelta(days=1)
order_date = order_date.replace(hour=14, minute=30)
else:
bar_data = BarData(
data_portal=data_portal,
simulation_dt_func=lambda: tick,
data_frequency=sim_params.data_frequency,
trading_calendar=self.trading_calendar,
restrictions=NoRestrictions(),
)
txns, _, closed_orders = blotter.get_transactions(bar_data)
for txn in txns:
tracker.process_transaction(txn)
transactions.append(txn)
blotter.prune_orders(closed_orders)
for i in range(order_count):
order = order_list[i]
self.assertEqual(order.asset, asset1)
self.assertEqual(order.amount, order_amount * alternator ** i)
if complete_fill:
self.assertEqual(len(transactions), len(order_list))
total_volume = 0
for i in range(len(transactions)):
txn = transactions[i]
total_volume += txn.amount
if complete_fill:
order = order_list[i]
self.assertEqual(order.amount, txn.amount)
self.assertEqual(total_volume, expected_txn_volume)
self.assertEqual(len(transactions), expected_txn_count)
cumulative_pos = tracker.position_tracker.positions[asset1]
if total_volume == 0:
self.assertIsNone(cumulative_pos)
else:
self.assertEqual(total_volume, cumulative_pos.amount)
# the open orders should not contain the asset.
oo = blotter.open_orders
self.assertNotIn(
asset1,
oo,
"Entry is removed when no open orders"
)
def transaction_sim(self, **params):
"""This is a utility method that asserts expected
results for conversion of orders to transactions given a
trade history
"""
trade_count = params['trade_count']
trade_interval = params['trade_interval']
order_count = params['order_count']
order_amount = params['order_amount']
order_interval = params['order_interval']
expected_txn_count = params['expected_txn_count']
expected_txn_volume = params['expected_txn_volume']
# optional parameters
# ---------------------
# if present, alternate between long and short sales
alternate = params.get('alternate')
# if present, expect transaction amounts to match orders exactly.
complete_fill = params.get('complete_fill')
asset1 = self.asset_finder.retrieve_asset(1)
metadata = make_simple_equity_info([asset1.sid], self.start, self.end)
with TempDirectory() as tempdir, \
tmp_trading_env(equities=metadata,
load=self.make_load_function()) as env:
if trade_interval < timedelta(days=1):
sim_params = factory.create_simulation_parameters(
start=self.start,
end=self.end,
data_frequency="minute"
)
minutes = self.trading_calendar.minutes_window(
sim_params.first_open,
int((trade_interval.total_seconds() / 60) * trade_count)
+ 100)
price_data = np.array([10.1] * len(minutes))
assets = {
asset1.sid: pd.DataFrame({
"open": price_data,
"high": price_data,
"low": price_data,
"close": price_data,
"volume": np.array([100] * len(minutes)),
"dt": minutes
}).set_index("dt")
}
write_bcolz_minute_data(
self.trading_calendar,
self.trading_calendar.sessions_in_range(
self.trading_calendar.minute_to_session_label(
minutes[0]
),
self.trading_calendar.minute_to_session_label(
minutes[-1]
)
),
tempdir.path,
iteritems(assets),
)
equity_minute_reader = BcolzMinuteBarReader(tempdir.path)
data_portal = DataPortal(
env.asset_finder, self.trading_calendar,
first_trading_day=equity_minute_reader.first_trading_day,
equity_minute_reader=equity_minute_reader,
)
else:
sim_params = factory.create_simulation_parameters(
data_frequency="daily"
)
days = sim_params.sessions
assets = {
1: pd.DataFrame({
"open": [10.1] * len(days),
"high": [10.1] * len(days),
"low": [10.1] * len(days),
"close": [10.1] * len(days),
"volume": [100] * len(days),
"day": [day.value for day in days]
}, index=days)
}
path = os.path.join(tempdir.path, "testdata.bcolz")
BcolzDailyBarWriter(path, self.trading_calendar, days[0],
days[-1]).write(
assets.items()
)
equity_daily_reader = BcolzDailyBarReader(path)
data_portal = DataPortal(
env.asset_finder, self.trading_calendar,
first_trading_day=equity_daily_reader.first_trading_day,
equity_daily_reader=equity_daily_reader,
)
if "default_slippage" not in params or \
not params["default_slippage"]:
slippage_func = FixedSlippage()
else:
slippage_func = None
blotter = Blotter(sim_params.data_frequency, slippage_func)
start_date = sim_params.first_open
if alternate:
alternator = -1
else:
alternator = 1
tracker = PerformanceTracker(sim_params, self.trading_calendar,
self.env)
# replicate what tradesim does by going through every minute or day
# of the simulation and processing open orders each time
if sim_params.data_frequency == "minute":
ticks = minutes
else:
ticks = days
transactions = []
order_list = []
order_date = start_date
for tick in ticks:
blotter.current_dt = tick
if tick >= order_date and len(order_list) < order_count:
# place an order
direction = alternator ** len(order_list)
order_id = blotter.order(
asset1,
order_amount * direction,
MarketOrder())
order_list.append(blotter.orders[order_id])
order_date = order_date + order_interval
# move after market orders to just after market next
# market open.
if order_date.hour >= 21:
if order_date.minute >= 00:
order_date = order_date + timedelta(days=1)
order_date = order_date.replace(hour=14, minute=30)
else:
bar_data = BarData(
data_portal=data_portal,
simulation_dt_func=lambda: tick,
data_frequency=sim_params.data_frequency,
trading_calendar=self.trading_calendar,
restrictions=NoRestrictions(),
)
txns, _, closed_orders = blotter.get_transactions(bar_data)
for txn in txns:
tracker.process_transaction(txn)
transactions.append(txn)
blotter.prune_orders(closed_orders)
for i in range(order_count):
order = order_list[i]
self.assertEqual(order.asset, asset1)
self.assertEqual(order.amount, order_amount * alternator ** i)
if complete_fill:
self.assertEqual(len(transactions), len(order_list))
total_volume = 0
for i in range(len(transactions)):
txn = transactions[i]
total_volume += txn.amount
if complete_fill:
order = order_list[i]
self.assertEqual(order.amount, txn.amount)
self.assertEqual(total_volume, expected_txn_volume)
self.assertEqual(len(transactions), expected_txn_count)
cumulative_pos = tracker.position_tracker.positions[asset1]
if total_volume == 0:
self.assertIsNone(cumulative_pos)
else:
self.assertEqual(total_volume, cumulative_pos.amount)
# the open orders should not contain the asset.
oo = blotter.open_orders
self.assertNotIn(
asset1,
oo,
"Entry is removed when no open orders"
)
