def aud_usd_data_loader():
from nautilus_trader.backtest.data.providers import TestInstrumentProvider
from tests.test_kit.stubs import TestStubs
from tests.unit_tests.backtest.test_backtest_config import TEST_DATA_DIR
instrument = TestInstrumentProvider.default_fx_ccy("AUD/USD", venue=Venue("SIM"))
def parse_csv_tick(df, instrument_id):
yield instrument
for r in df.values:
ts = secs_to_nanos(pd.Timestamp(r[0]).timestamp())
tick = QuoteTick(
instrument_id=instrument_id,
bid=Price.from_str(str(r[1])),
ask=Price.from_str(str(r[2])),
bid_size=Quantity.from_int(1_000_000),
ask_size=Quantity.from_int(1_000_000),
ts_event=ts,
ts_init=ts,
)
yield tick
catalog = DataCatalog.from_env()
instrument_provider = InstrumentProvider()
instrument_provider.add(instrument)
process_files(
glob_path=f"{TEST_DATA_DIR}/truefx-audusd-ticks.csv",
reader=CSVReader(
block_parser=partial(parse_csv_tick, instrument_id=TestStubs.audusd_id()),
as_dataframe=True,
),
instrument_provider=instrument_provider,
catalog=catalog,
)
def setup(self):
# Fixture Setup
self.clock = LiveClock()
self.uuid_factory = UUIDFactory()
self.logger = Logger(self.clock)
self.trader_id = TraderId("TESTER", "000")
self.account_id = TestStubs.account_id()
self.order_factory = OrderFactory(
trader_id=self.trader_id,
strategy_id=StrategyId("S", "001"),
clock=self.clock,
)
self.random_order_factory = OrderFactory(
trader_id=TraderId("RANDOM", "042"),
strategy_id=StrategyId("S", "042"),
clock=self.clock,
)
self.portfolio = Portfolio(
clock=self.clock,
logger=self.logger,
)
self.portfolio.register_cache(DataCache(self.logger))
self.analyzer = PerformanceAnalyzer()
# Fresh isolated loop testing pattern
self.loop = asyncio.new_event_loop()
asyncio.set_event_loop(self.loop)
self.database = BypassExecutionDatabase(trader_id=self.trader_id,
logger=self.logger)
self.engine = LiveExecutionEngine(
loop=self.loop,
database=self.database,
portfolio=self.portfolio,
clock=self.clock,
logger=self.logger,
)
self.instrument_provider = InstrumentProvider()
self.instrument_provider.add(AUDUSD_SIM)
self.instrument_provider.add(GBPUSD_SIM)
self.client = MockLiveExecutionClient(
name=SIM.value,
account_id=self.account_id,
engine=self.engine,
instrument_provider=self.instrument_provider,
clock=self.clock,
logger=self.logger,
)
self.engine.register_client(self.client)
class TestInstrumentProvider:
def setup(self):
# Fixture Setup
self.provider = InstrumentProvider()
def test_get_all_when_no_instruments_returns_empty_dict(self):
# Arrange, Act
result = self.provider.get_all()
# Assert
assert result == {}
def test_find_when_no_instruments_returns_none(self):
# Arrange, Act
result = self.provider.find(AUDUSD)
# Assert
assert result is None
def setup(self):
# Fixture Setup
self.loop = asyncio.get_event_loop()
self.loop.set_debug(True)
self.clock = LiveClock()
self.uuid_factory = UUIDFactory()
self.logger = Logger(self.clock)
self.trader_id = TestIdStubs.trader_id()
self.msgbus = MessageBus(
trader_id=self.trader_id,
clock=self.clock,
logger=self.logger,
)
self.cache = TestComponentStubs.cache()
self.portfolio = Portfolio(
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.engine = LiveDataEngine(
loop=self.loop,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.client = LiveMarketDataClient(
loop=self.loop,
client_id=ClientId(BINANCE.value),
venue=BINANCE,
instrument_provider=InstrumentProvider(
venue=Venue("SIM"),
logger=self.logger,
),
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
class TestInstrumentProvider:
def setup(self):
# Fixture Setup
self.provider = InstrumentProvider()
def test_load_all_async_when_not_implemented_raises_exception(self):
# Fresh isolated loop testing pattern
loop = asyncio.new_event_loop()
asyncio.set_event_loop(loop)
async def run_test():
# Arrange
# Act
# Assert
with pytest.raises(NotImplementedError):
await self.provider.load_all_async()
loop.run_until_complete(run_test())
def test_load_all_when_not_implemented_raises_exception(self):
# Arrange
# Act
# Assert
with pytest.raises(NotImplementedError):
self.provider.load_all()
def test_load_when_not_implemented_raises_exception(self):
# Arrange
# Act
# Assert
with pytest.raises(NotImplementedError):
self.provider.load(AUDUSD, {})
def test_get_all_when_no_instruments_returns_empty_dict(self):
# Arrange
# Act
result = self.provider.get_all()
# Assert
assert result == {}
def test_find_when_no_instruments_returns_none(self):
# Arrange
# Act
result = self.provider.find(AUDUSD)
# Assert
assert result is None
def setup(self):
# Fixture Setup
self.loop = asyncio.get_event_loop()
self.loop.set_debug(True)
self.clock = LiveClock()
self.uuid_factory = UUIDFactory()
self.logger = Logger(self.clock)
self.trader_id = TestStubs.trader_id()
self.order_factory = OrderFactory(
trader_id=self.trader_id,
strategy_id=StrategyId("S-001"),
clock=self.clock,
)
self.random_order_factory = OrderFactory(
trader_id=TraderId("RANDOM-042"),
strategy_id=StrategyId("S-042"),
clock=self.clock,
)
self.msgbus = MessageBus(
trader_id=self.trader_id,
clock=self.clock,
logger=self.logger,
)
self.cache = TestStubs.cache()
self.portfolio = Portfolio(
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.data_engine = LiveDataEngine(
loop=self.loop,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.exec_engine = LiveExecutionEngine(
loop=self.loop,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.risk_engine = LiveRiskEngine(
loop=self.loop,
portfolio=self.portfolio,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.instrument_provider = InstrumentProvider()
self.instrument_provider.add(AUDUSD_SIM)
self.instrument_provider.add(GBPUSD_SIM)
self.client = MockLiveExecutionClient(
loop=self.loop,
client_id=ClientId(SIM.value),
venue_type=VenueType.ECN,
account_id=TestStubs.account_id(),
account_type=AccountType.CASH,
base_currency=USD,
instrument_provider=self.instrument_provider,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.portfolio.update_account(TestStubs.event_cash_account_state())
self.exec_engine.register_client(self.client)
self.cache.add_instrument(AUDUSD_SIM)
class TestLiveExecutionEngine:
def setup(self):
# Fixture Setup
self.loop = asyncio.get_event_loop()
self.loop.set_debug(True)
self.clock = LiveClock()
self.uuid_factory = UUIDFactory()
self.logger = Logger(self.clock)
self.trader_id = TestStubs.trader_id()
self.order_factory = OrderFactory(
trader_id=self.trader_id,
strategy_id=StrategyId("S-001"),
clock=self.clock,
)
self.random_order_factory = OrderFactory(
trader_id=TraderId("RANDOM-042"),
strategy_id=StrategyId("S-042"),
clock=self.clock,
)
self.msgbus = MessageBus(
trader_id=self.trader_id,
clock=self.clock,
logger=self.logger,
)
self.cache = TestStubs.cache()
self.portfolio = Portfolio(
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.data_engine = LiveDataEngine(
loop=self.loop,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.exec_engine = LiveExecutionEngine(
loop=self.loop,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.risk_engine = LiveRiskEngine(
loop=self.loop,
portfolio=self.portfolio,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.instrument_provider = InstrumentProvider()
self.instrument_provider.add(AUDUSD_SIM)
self.instrument_provider.add(GBPUSD_SIM)
self.client = MockLiveExecutionClient(
loop=self.loop,
client_id=ClientId(SIM.value),
venue_type=VenueType.ECN,
account_id=TestStubs.account_id(),
account_type=AccountType.CASH,
base_currency=USD,
instrument_provider=self.instrument_provider,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.portfolio.update_account(TestStubs.event_cash_account_state())
self.exec_engine.register_client(self.client)
self.cache.add_instrument(AUDUSD_SIM)
def teardown(self):
self.exec_engine.dispose()
@pytest.mark.asyncio
async def test_start_when_loop_not_running_logs(self):
# Arrange, Act
self.exec_engine.start()
# Assert
assert True # No exceptions raised
self.exec_engine.stop()
@pytest.mark.asyncio
async def test_message_qsize_at_max_blocks_on_put_command(self):
# Arrange
# Deregister test fixture ExecutionEngine from msgbus)
self.msgbus.deregister(endpoint="ExecEngine.execute",
handler=self.exec_engine.execute)
self.msgbus.deregister(endpoint="ExecEngine.process",
handler=self.exec_engine.process)
self.exec_engine = LiveExecutionEngine(
loop=self.loop,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
config=LiveExecEngineConfig(qsize=1),
)
strategy = TradingStrategy()
strategy.register(
trader_id=self.trader_id,
portfolio=self.portfolio,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
order = strategy.order_factory.market(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity.from_int(100000),
)
submit_order = SubmitOrder(
self.trader_id,
strategy.id,
None,
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
# Act
self.exec_engine.execute(submit_order)
self.exec_engine.execute(submit_order)
await asyncio.sleep(0.1)
# Assert
assert self.exec_engine.qsize() == 1
assert self.exec_engine.command_count == 0
@pytest.mark.asyncio
async def test_message_qsize_at_max_blocks_on_put_event(self):
# Arrange
# Deregister test fixture ExecutionEngine from msgbus)
self.msgbus.deregister(endpoint="ExecEngine.execute",
handler=self.exec_engine.execute)
self.msgbus.deregister(endpoint="ExecEngine.process",
handler=self.exec_engine.process)
self.exec_engine = LiveExecutionEngine(
loop=self.loop,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
config=LiveExecEngineConfig(qsize=1),
)
strategy = TradingStrategy()
strategy.register(
trader_id=self.trader_id,
portfolio=self.portfolio,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
order = strategy.order_factory.market(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity.from_int(100000),
)
submit_order = SubmitOrder(
self.trader_id,
strategy.id,
None,
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
event = TestStubs.event_order_submitted(order)
# Act
self.exec_engine.execute(submit_order)
self.exec_engine.process(event) # Add over max size
await asyncio.sleep(0.1)
# Assert
assert self.exec_engine.qsize() == 1
assert self.exec_engine.command_count == 0
@pytest.mark.asyncio
async def test_start(self):
# Arrange, Act
self.exec_engine.start()
await asyncio.sleep(0.1)
# Assert
assert self.exec_engine.is_running
# Tear Down
self.exec_engine.stop()
@pytest.mark.asyncio
async def test_kill_when_running_and_no_messages_on_queues(self):
# Arrange, Act
self.exec_engine.start()
await asyncio.sleep(0)
self.exec_engine.kill()
# Assert
assert self.exec_engine.is_stopped
@pytest.mark.asyncio
async def test_kill_when_not_running_with_messages_on_queue(self):
# Arrange, Act
self.exec_engine.kill()
# Assert
assert self.exec_engine.qsize() == 0
@pytest.mark.asyncio
async def test_execute_command_places_command_on_queue(self):
# Arrange
self.exec_engine.start()
strategy = TradingStrategy()
strategy.register(
trader_id=self.trader_id,
portfolio=self.portfolio,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
order = strategy.order_factory.market(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity.from_int(100000),
)
submit_order = SubmitOrder(
self.trader_id,
strategy.id,
None,
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
# Act
self.exec_engine.execute(submit_order)
await asyncio.sleep(0.1)
# Assert
assert self.exec_engine.qsize() == 0
assert self.exec_engine.command_count == 1
# Tear Down
self.exec_engine.stop()
@pytest.mark.asyncio
async def test_reconcile_state_with_no_active_orders(self):
# Arrange
self.exec_engine.start()
strategy = TradingStrategy()
strategy.register(
trader_id=self.trader_id,
portfolio=self.portfolio,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
# Act
await self.exec_engine.reconcile_state(timeout_secs=10)
self.exec_engine.stop()
await asyncio.sleep(0.1)
# Assert
assert True # No exceptions raised
@pytest.mark.asyncio
async def test_reconcile_state_when_report_agrees_reconciles(self):
# Arrange
self.exec_engine.start()
strategy = TradingStrategy()
strategy.register(
trader_id=self.trader_id,
portfolio=self.portfolio,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
order = strategy.order_factory.limit(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity.from_int(100000),
Price.from_str("1.00000"),
)
submit_order = SubmitOrder(
self.trader_id,
strategy.id,
None,
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
self.exec_engine.execute(submit_order)
self.exec_engine.process(TestStubs.event_order_submitted(order))
self.exec_engine.process(TestStubs.event_order_accepted(order))
report = OrderStatusReport(
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"), # <-- from stub event
order_status=OrderStatus.ACCEPTED,
filled_qty=Quantity.zero(),
ts_init=0,
)
self.client.add_order_status_report(report)
await asyncio.sleep(0.1) # Allow processing time
# Act
result = await self.exec_engine.reconcile_state(timeout_secs=10)
self.exec_engine.stop()
# Assert
assert result
@pytest.mark.asyncio
async def test_reconcile_state_when_canceled_reconciles(self):
# Arrange
self.exec_engine.start()
strategy = TradingStrategy()
strategy.register(
trader_id=self.trader_id,
portfolio=self.portfolio,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
order = strategy.order_factory.limit(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity.from_int(100000),
Price.from_str("1.00000"),
)
submit_order = SubmitOrder(
self.trader_id,
strategy.id,
None,
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
self.exec_engine.execute(submit_order)
self.exec_engine.process(TestStubs.event_order_submitted(order))
self.exec_engine.process(TestStubs.event_order_accepted(order))
report = OrderStatusReport(
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"), # <-- from stub event
order_status=OrderStatus.CANCELED,
filled_qty=Quantity.zero(),
ts_init=0,
)
self.client.add_order_status_report(report)
await asyncio.sleep(0.1) # Allow processing time
# Act
result = await self.exec_engine.reconcile_state(timeout_secs=10)
self.exec_engine.stop()
# Assert
assert result
@pytest.mark.asyncio
async def test_reconcile_state_when_expired_reconciles(self):
# Arrange
self.exec_engine.start()
strategy = TradingStrategy()
strategy.register(
trader_id=self.trader_id,
portfolio=self.portfolio,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
order = strategy.order_factory.limit(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity.from_int(100000),
Price.from_str("1.00000"),
)
submit_order = SubmitOrder(
self.trader_id,
strategy.id,
None,
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
self.exec_engine.execute(submit_order)
self.exec_engine.process(TestStubs.event_order_submitted(order))
self.exec_engine.process(TestStubs.event_order_accepted(order))
report = OrderStatusReport(
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"), # <-- from stub event
order_status=OrderStatus.EXPIRED,
filled_qty=Quantity.zero(),
ts_init=0,
)
self.client.add_order_status_report(report)
await asyncio.sleep(0.1) # Allow processing time
# Act
result = await self.exec_engine.reconcile_state(timeout_secs=10)
self.exec_engine.stop()
# Assert
assert result
@pytest.mark.skip(reason="reimplement reconciliation")
@pytest.mark.asyncio
async def test_reconcile_state_when_partially_filled_reconciles(self):
# Arrange
self.exec_engine.start()
strategy = TradingStrategy()
strategy.register(
trader_id=self.trader_id,
portfolio=self.portfolio,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
order = strategy.order_factory.limit(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity.from_int(100000),
Price.from_str("1.00000"),
)
submit_order = SubmitOrder(
self.trader_id,
strategy.id,
None,
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
self.exec_engine.execute(submit_order)
self.exec_engine.process(TestStubs.event_order_submitted(order))
self.exec_engine.process(TestStubs.event_order_accepted(order))
report = OrderStatusReport(
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"), # <-- from stub event
order_status=OrderStatus.PARTIALLY_FILLED,
filled_qty=Quantity.from_int(70000),
ts_init=0,
)
trade1 = ExecutionReport(
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"),
venue_position_id=None,
execution_id=ExecutionId("1"),
last_qty=Quantity.from_int(50000),
last_px=Price.from_str("1.00000"),
commission=Money(5.00, USD),
liquidity_side=LiquiditySide.MAKER,
ts_event=0,
ts_init=0,
)
trade2 = ExecutionReport(
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"),
venue_position_id=None,
execution_id=ExecutionId("2"),
last_qty=Quantity.from_int(20000),
last_px=Price.from_str("1.00000"),
commission=Money(2.00, USD),
liquidity_side=LiquiditySide.MAKER,
ts_event=0,
ts_init=0,
)
self.client.add_order_status_report(report)
self.client.add_trades_list(VenueOrderId("1"), [trade1, trade2])
await asyncio.sleep(0.1) # Allow processing time
# Act
result = await self.exec_engine.reconcile_state(timeout_secs=10)
self.exec_engine.stop()
# Assert
assert result
@pytest.mark.skip(reason="reimplement reconciliation")
@pytest.mark.asyncio
async def test_reconcile_state_when_filled_reconciles(self):
# Arrange
self.exec_engine.start()
strategy = TradingStrategy()
strategy.register(
trader_id=self.trader_id,
portfolio=self.portfolio,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
order = strategy.order_factory.limit(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity.from_int(100000),
Price.from_str("1.00000"),
)
submit_order = SubmitOrder(
self.trader_id,
strategy.id,
None,
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
self.exec_engine.execute(submit_order)
self.exec_engine.process(TestStubs.event_order_submitted(order))
self.exec_engine.process(TestStubs.event_order_accepted(order))
report = OrderStatusReport(
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"), # <-- from stub event
order_status=OrderStatus.FILLED,
filled_qty=Quantity.from_int(100000),
ts_init=0,
)
trade1 = ExecutionReport(
execution_id=ExecutionId("1"),
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"),
venue_position_id=None,
last_qty=Quantity.from_int(50000),
last_px=Price.from_str("1.00000"),
commission=Money(5.00, USD),
liquidity_side=LiquiditySide.MAKER,
ts_event=0,
ts_init=0,
)
trade2 = ExecutionReport(
execution_id=ExecutionId("2"),
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"),
venue_position_id=None,
last_qty=Quantity.from_int(50000),
last_px=Price.from_str("1.00000"),
commission=Money(2.00, USD),
liquidity_side=LiquiditySide.MAKER,
ts_event=0,
ts_init=0,
)
self.client.add_order_status_report(report)
self.client.add_trades_list(VenueOrderId("1"), [trade1, trade2])
await asyncio.sleep(0.1) # Allow processing time
# Act
result = await self.exec_engine.reconcile_state(timeout_secs=10)
self.exec_engine.stop()
# Assert
assert result
class TestLiveExecutionEngine:
def setup(self):
# Fixture Setup
self.clock = LiveClock()
self.uuid_factory = UUIDFactory()
self.logger = Logger(self.clock)
self.trader_id = TraderId("TESTER", "000")
self.account_id = TestStubs.account_id()
self.order_factory = OrderFactory(
trader_id=self.trader_id,
strategy_id=StrategyId("S", "001"),
clock=self.clock,
)
self.random_order_factory = OrderFactory(
trader_id=TraderId("RANDOM", "042"),
strategy_id=StrategyId("S", "042"),
clock=self.clock,
)
self.portfolio = Portfolio(
clock=self.clock,
logger=self.logger,
)
self.portfolio.register_cache(DataCache(self.logger))
self.analyzer = PerformanceAnalyzer()
# Fresh isolated loop testing pattern
self.loop = asyncio.new_event_loop()
asyncio.set_event_loop(self.loop)
self.database = BypassExecutionDatabase(trader_id=self.trader_id,
logger=self.logger)
self.engine = LiveExecutionEngine(
loop=self.loop,
database=self.database,
portfolio=self.portfolio,
clock=self.clock,
logger=self.logger,
)
self.instrument_provider = InstrumentProvider()
self.instrument_provider.add(AUDUSD_SIM)
self.instrument_provider.add(GBPUSD_SIM)
self.client = MockLiveExecutionClient(
name=SIM.value,
account_id=self.account_id,
engine=self.engine,
instrument_provider=self.instrument_provider,
clock=self.clock,
logger=self.logger,
)
self.engine.register_client(self.client)
def teardown(self):
self.engine.dispose()
self.loop.stop()
self.loop.close()
def test_start_when_loop_not_running_logs(self):
# Arrange
# Act
self.engine.start()
# Assert
assert True # No exceptions raised
self.engine.stop()
def test_get_event_loop_returns_expected_loop(self):
# Arrange
# Act
loop = self.engine.get_event_loop()
# Assert
assert loop == self.loop
def test_message_qsize_at_max_blocks_on_put_command(self):
# Arrange
self.engine = LiveExecutionEngine(
loop=self.loop,
database=self.database,
portfolio=self.portfolio,
clock=self.clock,
logger=self.logger,
config={"qsize": 1},
)
strategy = TradingStrategy(order_id_tag="001")
strategy.register_trader(
TraderId("TESTER", "000"),
self.clock,
self.logger,
)
self.engine.register_strategy(strategy)
order = strategy.order_factory.market(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity(100000),
)
submit_order = SubmitOrder(
order.instrument_id,
self.trader_id,
self.account_id,
strategy.id,
PositionId.null(),
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
# Act
self.engine.execute(submit_order)
self.engine.execute(submit_order)
# Assert
assert self.engine.qsize() == 1
assert self.engine.command_count == 0
def test_message_qsize_at_max_blocks_on_put_event(self):
# Arrange
self.engine = LiveExecutionEngine(
loop=self.loop,
database=self.database,
portfolio=self.portfolio,
clock=self.clock,
logger=self.logger,
config={"qsize": 1},
)
strategy = TradingStrategy(order_id_tag="001")
strategy.register_trader(
TraderId("TESTER", "000"),
self.clock,
self.logger,
)
self.engine.register_strategy(strategy)
order = strategy.order_factory.market(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity(100000),
)
submit_order = SubmitOrder(
order.instrument_id,
self.trader_id,
self.account_id,
strategy.id,
PositionId.null(),
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
event = TestStubs.event_order_submitted(order)
# Act
self.engine.execute(submit_order)
self.engine.process(event) # Add over max size
# Assert
assert self.engine.qsize() == 1
assert self.engine.command_count == 0
def test_start(self):
async def run_test():
# Arrange
# Act
self.engine.start()
await asyncio.sleep(0.1)
# Assert
assert self.engine.state == ComponentState.RUNNING
# Tear Down
self.engine.stop()
self.loop.run_until_complete(run_test())
def test_kill_when_running_and_no_messages_on_queues(self):
async def run_test():
# Arrange
# Act
self.engine.start()
await asyncio.sleep(0)
self.engine.kill()
# Assert
assert self.engine.state == ComponentState.STOPPED
self.loop.run_until_complete(run_test())
def test_kill_when_not_running_with_messages_on_queue(self):
async def run_test():
# Arrange
# Act
self.engine.kill()
# Assert
assert self.engine.qsize() == 0
self.loop.run_until_complete(run_test())
def test_execute_command_places_command_on_queue(self):
async def run_test():
# Arrange
self.engine.start()
strategy = TradingStrategy(order_id_tag="001")
strategy.register_trader(
TraderId("TESTER", "000"),
self.clock,
self.logger,
)
self.engine.register_strategy(strategy)
order = strategy.order_factory.market(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity(100000),
)
submit_order = SubmitOrder(
order.instrument_id,
self.trader_id,
self.account_id,
strategy.id,
PositionId.null(),
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
# Act
self.engine.execute(submit_order)
await asyncio.sleep(0.1)
# Assert
assert self.engine.qsize() == 0
assert self.engine.command_count == 1
# Tear Down
self.engine.stop()
self.loop.run_until_complete(run_test())
def test_handle_position_opening_with_position_id_none(self):
async def run_test():
# Arrange
self.engine.start()
strategy = TradingStrategy(order_id_tag="001")
strategy.register_trader(
TraderId("TESTER", "000"),
self.clock,
self.logger,
)
self.engine.register_strategy(strategy)
order = strategy.order_factory.market(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity(100000),
)
event = TestStubs.event_order_submitted(order)
# Act
self.engine.process(event)
await asyncio.sleep(0.1)
# Assert
assert self.engine.qsize() == 0
assert self.engine.event_count == 1
# Tear Down
self.engine.stop()
self.loop.run_until_complete(run_test())
def test_reconcile_state_with_no_active_orders(self):
async def run_test():
# Arrange
self.engine.start()
strategy = TradingStrategy(order_id_tag="001")
strategy.register_trader(
TraderId("TESTER", "000"),
self.clock,
self.logger,
)
self.engine.register_strategy(strategy)
# Act
await self.engine.reconcile_state()
self.engine.stop()
# Assert
assert True # No exceptions raised
self.loop.run_until_complete(run_test())
def test_reconcile_state_when_report_agrees_reconciles(self):
async def run_test():
# Arrange
self.engine.start()
strategy = TradingStrategy(order_id_tag="001")
strategy.register_trader(
TraderId("TESTER", "000"),
self.clock,
self.logger,
)
self.engine.register_strategy(strategy)
order = strategy.order_factory.limit(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity(100000),
Price("1.00000"),
)
submit_order = SubmitOrder(
AUDUSD_SIM.id,
self.trader_id,
self.account_id,
strategy.id,
PositionId.null(),
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
self.engine.execute(submit_order)
self.engine.process(TestStubs.event_order_submitted(order))
self.engine.process(TestStubs.event_order_accepted(order))
report = OrderStatusReport(
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"), # <-- from stub event
order_state=OrderState.ACCEPTED,
filled_qty=Quantity(0),
timestamp_ns=0,
)
self.client.add_order_status_report(report)
await asyncio.sleep(0.1) # Allow processing time
# Act
result = await self.engine.reconcile_state()
self.engine.stop()
# Assert
assert result
self.loop.run_until_complete(run_test())
def test_reconcile_state_when_cancelled_reconciles(self):
async def run_test():
# Arrange
self.engine.start()
strategy = TradingStrategy(order_id_tag="001")
strategy.register_trader(
TraderId("TESTER", "000"),
self.clock,
self.logger,
)
self.engine.register_strategy(strategy)
order = strategy.order_factory.limit(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity(100000),
Price("1.00000"),
)
submit_order = SubmitOrder(
AUDUSD_SIM.id,
self.trader_id,
self.account_id,
strategy.id,
PositionId.null(),
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
self.engine.execute(submit_order)
self.engine.process(TestStubs.event_order_submitted(order))
self.engine.process(TestStubs.event_order_accepted(order))
report = OrderStatusReport(
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"), # <-- from stub event
order_state=OrderState.CANCELLED,
filled_qty=Quantity(0),
timestamp_ns=0,
)
self.client.add_order_status_report(report)
await asyncio.sleep(0.1) # Allow processing time
# Act
result = await self.engine.reconcile_state()
self.engine.stop()
# Assert
assert result
self.loop.run_until_complete(run_test())
def test_reconcile_state_when_expired_reconciles(self):
async def run_test():
# Arrange
self.engine.start()
strategy = TradingStrategy(order_id_tag="001")
strategy.register_trader(
TraderId("TESTER", "000"),
self.clock,
self.logger,
)
self.engine.register_strategy(strategy)
order = strategy.order_factory.limit(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity(100000),
Price("1.00000"),
)
submit_order = SubmitOrder(
AUDUSD_SIM.id,
self.trader_id,
self.account_id,
strategy.id,
PositionId.null(),
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
self.engine.execute(submit_order)
self.engine.process(TestStubs.event_order_submitted(order))
self.engine.process(TestStubs.event_order_accepted(order))
report = OrderStatusReport(
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"), # <-- from stub event
order_state=OrderState.EXPIRED,
filled_qty=Quantity(0),
timestamp_ns=0,
)
self.client.add_order_status_report(report)
await asyncio.sleep(0.01)
# Act
result = await self.engine.reconcile_state()
self.engine.stop()
# Assert
assert result
self.loop.run_until_complete(run_test())
def test_reconcile_state_when_partially_filled_reconciles(self):
async def run_test():
# Arrange
self.engine.start()
strategy = TradingStrategy(order_id_tag="001")
strategy.register_trader(
TraderId("TESTER", "000"),
self.clock,
self.logger,
)
self.engine.register_strategy(strategy)
order = strategy.order_factory.limit(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity(100000),
Price("1.00000"),
)
submit_order = SubmitOrder(
AUDUSD_SIM.id,
self.trader_id,
self.account_id,
strategy.id,
PositionId.null(),
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
self.engine.execute(submit_order)
self.engine.process(TestStubs.event_order_submitted(order))
self.engine.process(TestStubs.event_order_accepted(order))
report = OrderStatusReport(
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"), # <-- from stub event
order_state=OrderState.PARTIALLY_FILLED,
filled_qty=Quantity(70000),
timestamp_ns=0,
)
trade1 = ExecutionReport(
execution_id=ExecutionId("1"),
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"),
last_qty=Decimal(50000),
last_px=Decimal("1.00000"),
commission_amount=Decimal("5.0"),
commission_currency="USD",
liquidity_side=LiquiditySide.MAKER,
execution_ns=0,
timestamp_ns=0,
)
trade2 = ExecutionReport(
execution_id=ExecutionId("2"),
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"),
last_qty=Decimal(20000),
last_px=Decimal("1.00000"),
commission_amount=Decimal("2.0"),
commission_currency="USD",
liquidity_side=LiquiditySide.MAKER,
execution_ns=0,
timestamp_ns=0,
)
self.client.add_order_status_report(report)
self.client.add_trades_list(VenueOrderId("1"), [trade1, trade2])
await asyncio.sleep(0.01)
# Act
result = await self.engine.reconcile_state()
self.engine.stop()
# Assert
assert result
self.loop.run_until_complete(run_test())
def test_reconcile_state_when_filled_reconciles(self):
async def run_test():
# Arrange
self.engine.start()
strategy = TradingStrategy(order_id_tag="001")
strategy.register_trader(
TraderId("TESTER", "000"),
self.clock,
self.logger,
)
self.engine.register_strategy(strategy)
order = strategy.order_factory.limit(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity(100000),
Price("1.00000"),
)
submit_order = SubmitOrder(
AUDUSD_SIM.id,
self.trader_id,
self.account_id,
strategy.id,
PositionId.null(),
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
self.engine.execute(submit_order)
self.engine.process(TestStubs.event_order_submitted(order))
self.engine.process(TestStubs.event_order_accepted(order))
report = OrderStatusReport(
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"), # <-- from stub event
order_state=OrderState.FILLED,
filled_qty=Quantity(100000),
timestamp_ns=0,
)
trade1 = ExecutionReport(
execution_id=ExecutionId("1"),
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"),
last_qty=Decimal(50000),
last_px=Decimal("1.00000"),
commission_amount=Decimal("5.0"),
commission_currency="USD",
liquidity_side=LiquiditySide.MAKER,
execution_ns=0,
timestamp_ns=0,
)
trade2 = ExecutionReport(
execution_id=ExecutionId("2"),
client_order_id=order.client_order_id,
venue_order_id=VenueOrderId("1"),
last_qty=Decimal(50000),
last_px=Decimal("1.00000"),
commission_amount=Decimal("2.0"),
commission_currency="USD",
liquidity_side=LiquiditySide.MAKER,
execution_ns=0,
timestamp_ns=0,
)
self.client.add_order_status_report(report)
self.client.add_trades_list(VenueOrderId("1"), [trade1, trade2])
await asyncio.sleep(0.01)
# Act
result = await self.engine.reconcile_state()
self.engine.stop()
# Assert
assert result
self.loop.run_until_complete(run_test())
def setup(self):
# Fixture Setup
self.provider = InstrumentProvider()
def setup(self):
# Fixture Setup
self.clock = LiveClock()
self.uuid_factory = UUIDFactory()
self.logger = Logger(self.clock)
self.trader_id = TraderId("TESTER-000")
self.order_factory = OrderFactory(
trader_id=self.trader_id,
strategy_id=StrategyId("S-001"),
clock=self.clock,
)
self.random_order_factory = OrderFactory(
trader_id=TraderId("RANDOM-042"),
strategy_id=StrategyId("S-042"),
clock=self.clock,
)
# Fresh isolated loop testing pattern
self.loop = asyncio.new_event_loop()
asyncio.set_event_loop(self.loop)
self.cache = TestStubs.cache()
self.portfolio = Portfolio(
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.exec_engine = LiveExecutionEngine(
loop=self.loop,
portfolio=self.portfolio,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.risk_engine = LiveRiskEngine(
loop=self.loop,
exec_engine=self.exec_engine,
portfolio=self.portfolio,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.instrument_provider = InstrumentProvider()
self.instrument_provider.add(AUDUSD_SIM)
self.instrument_provider.add(GBPUSD_SIM)
self.client = MockLiveExecutionClient(
client_id=ClientId(SIM.value),
venue_type=VenueType.ECN,
account_id=TestStubs.account_id(),
account_type=AccountType.CASH,
base_currency=USD,
engine=self.exec_engine,
instrument_provider=self.instrument_provider,
clock=self.clock,
logger=self.logger,
)
# Wired up components
self.exec_engine.register_risk_engine(self.risk_engine)
self.exec_engine.register_client(self.client)
class TestLiveExecutionEngine:
def setup(self):
# Fixture Setup
self.loop = asyncio.get_event_loop()
self.loop.set_debug(True)
self.clock = LiveClock()
self.uuid_factory = UUIDFactory()
self.logger = Logger(self.clock)
self.trader_id = TestIdStubs.trader_id()
self.order_factory = OrderFactory(
trader_id=self.trader_id,
strategy_id=StrategyId("S-001"),
clock=self.clock,
)
self.random_order_factory = OrderFactory(
trader_id=TraderId("RANDOM-042"),
strategy_id=StrategyId("S-042"),
clock=self.clock,
)
self.msgbus = MessageBus(
trader_id=self.trader_id,
clock=self.clock,
logger=self.logger,
)
self.cache = TestComponentStubs.cache()
self.portfolio = Portfolio(
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.data_engine = LiveDataEngine(
loop=self.loop,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.exec_engine = LiveExecutionEngine(
loop=self.loop,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.risk_engine = LiveRiskEngine(
loop=self.loop,
portfolio=self.portfolio,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.instrument_provider = InstrumentProvider(
venue=SIM,
logger=self.logger,
)
self.instrument_provider.add(AUDUSD_SIM)
self.instrument_provider.add(GBPUSD_SIM)
self.client = MockLiveExecutionClient(
loop=self.loop,
client_id=ClientId(SIM.value),
venue=SIM,
account_type=AccountType.CASH,
base_currency=USD,
instrument_provider=self.instrument_provider,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
self.portfolio.update_account(TestEventStubs.cash_account_state())
self.exec_engine.register_client(self.client)
self.cache.add_instrument(AUDUSD_SIM)
def teardown(self):
self.exec_engine.dispose()
@pytest.mark.asyncio
async def test_start_when_loop_not_running_logs(self):
# Arrange, Act
self.exec_engine.start()
# Assert
assert True # No exceptions raised
self.exec_engine.stop()
@pytest.mark.asyncio
async def test_message_qsize_at_max_blocks_on_put_command(self):
# Arrange
# Deregister test fixture ExecutionEngine from msgbus)
self.msgbus.deregister(
endpoint="ExecEngine.execute",
handler=self.exec_engine.execute,
)
self.msgbus.deregister(
endpoint="ExecEngine.process",
handler=self.exec_engine.process,
)
self.msgbus.deregister(
endpoint="ExecEngine.reconcile_report",
handler=self.exec_engine.reconcile_report,
)
self.msgbus.deregister(
endpoint="ExecEngine.reconcile_mass_status",
handler=self.exec_engine.reconcile_mass_status,
)
self.exec_engine = LiveExecutionEngine(
loop=self.loop,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
config=LiveExecEngineConfig(qsize=1),
)
strategy = TradingStrategy()
strategy.register(
trader_id=self.trader_id,
portfolio=self.portfolio,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
order = strategy.order_factory.market(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity.from_int(100000),
)
submit_order = SubmitOrder(
self.trader_id,
strategy.id,
None,
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
# Act
self.exec_engine.execute(submit_order)
self.exec_engine.execute(submit_order)
await asyncio.sleep(0.1)
# Assert
assert self.exec_engine.qsize() == 1
assert self.exec_engine.command_count == 0
@pytest.mark.asyncio
async def test_message_qsize_at_max_blocks_on_put_event(self):
# Arrange
# Deregister test fixture ExecutionEngine from msgbus)
self.msgbus.deregister(
endpoint="ExecEngine.execute",
handler=self.exec_engine.execute,
)
self.msgbus.deregister(
endpoint="ExecEngine.process",
handler=self.exec_engine.process,
)
self.msgbus.deregister(
endpoint="ExecEngine.reconcile_report",
handler=self.exec_engine.reconcile_report,
)
self.msgbus.deregister(
endpoint="ExecEngine.reconcile_mass_status",
handler=self.exec_engine.reconcile_mass_status,
)
self.exec_engine = LiveExecutionEngine(
loop=self.loop,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
config=LiveExecEngineConfig(qsize=1),
)
strategy = TradingStrategy()
strategy.register(
trader_id=self.trader_id,
portfolio=self.portfolio,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
order = strategy.order_factory.market(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity.from_int(100000),
)
submit_order = SubmitOrder(
self.trader_id,
strategy.id,
None,
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
event = TestEventStubs.order_submitted(order)
# Act
self.exec_engine.execute(submit_order)
self.exec_engine.process(event) # Add over max size
await asyncio.sleep(0.1)
# Assert
assert self.exec_engine.qsize() == 1
assert self.exec_engine.command_count == 0
@pytest.mark.asyncio
async def test_start(self):
# Arrange, Act
self.exec_engine.start()
await asyncio.sleep(0.1)
# Assert
assert self.exec_engine.is_running
# Tear Down
self.exec_engine.stop()
@pytest.mark.asyncio
async def test_kill_when_running_and_no_messages_on_queues(self):
# Arrange, Act
self.exec_engine.start()
await asyncio.sleep(0)
self.exec_engine.kill()
# Assert
assert self.exec_engine.is_stopped
@pytest.mark.asyncio
async def test_kill_when_not_running_with_messages_on_queue(self):
# Arrange, Act
self.exec_engine.kill()
# Assert
assert self.exec_engine.qsize() == 0
@pytest.mark.asyncio
async def test_execute_command_places_command_on_queue(self):
# Arrange
self.exec_engine.start()
strategy = TradingStrategy()
strategy.register(
trader_id=self.trader_id,
portfolio=self.portfolio,
msgbus=self.msgbus,
cache=self.cache,
clock=self.clock,
logger=self.logger,
)
order = strategy.order_factory.market(
AUDUSD_SIM.id,
OrderSide.BUY,
Quantity.from_int(100000),
)
submit_order = SubmitOrder(
self.trader_id,
strategy.id,
None,
order,
self.uuid_factory.generate(),
self.clock.timestamp_ns(),
)
# Act
self.exec_engine.execute(submit_order)
await asyncio.sleep(0.1)
# Assert
assert self.exec_engine.qsize() == 0
assert self.exec_engine.command_count == 1
# Tear Down
self.exec_engine.stop()
def test_handle_order_status_report(self):
# Arrange
order_report = OrderStatusReport(
account_id=AccountId("SIM", "001"),
instrument_id=AUDUSD_SIM.id,
client_order_id=ClientOrderId("O-123456"),
order_list_id=OrderListId("1"),
venue_order_id=VenueOrderId("2"),
order_side=OrderSide.SELL,
order_type=OrderType.STOP_LIMIT,
contingency_type=ContingencyType.OCO,
time_in_force=TimeInForce.DAY,
expire_time=None,
order_status=OrderStatus.REJECTED,
price=Price.from_str("0.90090"),
trigger_price=Price.from_str("0.90100"),
trigger_type=TriggerType.DEFAULT,
limit_offset=None,
trailing_offset=Decimal("0.00010"),
offset_type=TrailingOffsetType.PRICE,
quantity=Quantity.from_int(1_000_000),
filled_qty=Quantity.from_int(0),
display_qty=None,
avg_px=None,
post_only=True,
reduce_only=False,
cancel_reason="SOME_REASON",
report_id=UUID4(),
ts_accepted=1_000_000,
ts_triggered=1_500_000,
ts_last=2_000_000,
ts_init=3_000_000,
)
# Act
self.exec_engine.reconcile_report(order_report)
# Assert
assert self.exec_engine.report_count == 1
def test_handle_trade_report(self):
# Arrange
trade_report = TradeReport(
account_id=AccountId("SIM", "001"),
instrument_id=AUDUSD_SIM.id,
client_order_id=ClientOrderId("O-123456789"),
venue_order_id=VenueOrderId("1"),
venue_position_id=PositionId("2"),
trade_id=TradeId("3"),
order_side=OrderSide.BUY,
last_qty=Quantity.from_int(100),
last_px=Price.from_str("100.50"),
commission=Money("4.50", USD),
liquidity_side=LiquiditySide.TAKER,
report_id=UUID4(),
ts_event=0,
ts_init=0,
)
# Act
self.exec_engine.reconcile_report(trade_report)
# Assert
assert self.exec_engine.report_count == 1
def test_handle_position_status_report(self):
# Arrange
position_report = PositionStatusReport(
account_id=AccountId("SIM", "001"),
instrument_id=AUDUSD_SIM.id,
venue_position_id=PositionId("1"),
position_side=PositionSide.LONG,
quantity=Quantity.from_int(1_000_000),
report_id=UUID4(),
ts_last=0,
ts_init=0,
)
# Act
self.exec_engine.reconcile_report(position_report)
# Assert
assert self.exec_engine.report_count == 1
def test_execution_mass_status(self):
# Arrange
mass_status = ExecutionMassStatus(
client_id=ClientId("SIM"),
account_id=TestIdStubs.account_id(),
venue=Venue("SIM"),
report_id=UUID4(),
ts_init=0,
)
# Act
self.exec_engine.reconcile_mass_status(mass_status)
# Assert
assert self.exec_engine.report_count == 1
