Beispiel #1
0
class SimulatedExchangeTests(unittest.TestCase):
    def setUp(self):
        # Fixture Setup
        self.clock = TestClock()
        self.uuid_factory = UUIDFactory()
        self.logger = TestLogger(self.clock)

        self.portfolio = Portfolio(
            clock=self.clock,
            logger=self.logger,
        )

        self.data_engine = DataEngine(
            portfolio=self.portfolio,
            clock=self.clock,
            logger=self.logger,
            config={'use_previous_close':
                    False},  # To correctly reproduce historical data bars
        )

        self.data_engine.cache.add_instrument(AUDUSD_SIM)
        self.data_engine.cache.add_instrument(USDJPY_SIM)
        self.portfolio.register_cache(self.data_engine.cache)

        self.analyzer = PerformanceAnalyzer()
        self.trader_id = TraderId("TESTER", "000")
        self.account_id = AccountId("SIM", "001")

        exec_db = BypassExecutionDatabase(
            trader_id=self.trader_id,
            logger=self.logger,
        )

        self.exec_engine = ExecutionEngine(
            database=exec_db,
            portfolio=self.portfolio,
            clock=self.clock,
            logger=self.logger,
        )

        self.exchange = SimulatedExchange(
            venue=SIM,
            oms_type=OMSType.HEDGING,
            generate_position_ids=True,
            is_frozen_account=False,
            starting_balances=[Money(1_000_000, USD)],
            instruments=[AUDUSD_SIM, USDJPY_SIM],
            modules=[],
            fill_model=FillModel(),
            exec_cache=self.exec_engine.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_client = BacktestExecClient(
            exchange=self.exchange,
            account_id=self.account_id,
            engine=self.exec_engine,
            clock=self.clock,
            logger=self.logger,
        )

        self.exec_engine.register_client(self.exec_client)
        self.exchange.register_client(self.exec_client)

        self.strategy = MockStrategy(
            bar_type=TestStubs.bartype_usdjpy_1min_bid())
        self.strategy.register_trader(
            self.trader_id,
            self.clock,
            self.logger,
        )

        self.data_engine.register_strategy(self.strategy)
        self.exec_engine.register_strategy(self.strategy)
        self.data_engine.start()
        self.exec_engine.start()
        self.strategy.start()

    def test_repr(self):
        # Arrange
        # Act
        # Assert
        self.assertEqual("SimulatedExchange(SIM)", repr(self.exchange))

    def test_check_residuals(self):
        # Arrange
        # Act
        self.exchange.check_residuals()
        # Assert
        self.assertTrue(True)  # No exceptions raised

    def test_check_residuals_with_working_and_oco_orders(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        entry1 = self.strategy.order_factory.limit(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
            Price("90.000"),
        )

        entry2 = self.strategy.order_factory.limit(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
            Price("89.900"),
        )

        bracket1 = self.strategy.order_factory.bracket(
            entry_order=entry1,
            stop_loss=Price("89.900"),
            take_profit=Price("91.000"),
        )

        bracket2 = self.strategy.order_factory.bracket(
            entry_order=entry2,
            stop_loss=Price("89.800"),
        )

        self.strategy.submit_bracket_order(bracket1)
        self.strategy.submit_bracket_order(bracket2)

        tick2 = QuoteTick(
            USDJPY_SIM.symbol,
            Price("89.998"),
            Price("89.999"),
            Quantity(100000),
            Quantity(100000),
            UNIX_EPOCH,
        )

        self.exchange.process_tick(tick2)

        # Act
        self.exchange.check_residuals()

        # Assert
        self.assertEqual(3, len(self.exchange.get_working_orders()))
        self.assertIn(bracket1.stop_loss,
                      self.exchange.get_working_orders().values())
        self.assertIn(bracket1.take_profit,
                      self.exchange.get_working_orders().values())
        self.assertIn(entry2, self.exchange.get_working_orders().values())

    def test_get_working_orders_when_no_orders_returns_empty_dict(self):
        # Arrange
        # Act
        orders = self.exchange.get_working_orders()

        self.assertEqual({}, orders)

    def test_submit_order_with_no_market_rejects_order(self):
        # Arrange
        order = self.strategy.order_factory.stop_market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
            Price("80.000"),
        )

        # Act
        self.strategy.submit_order(order)

        # Assert
        self.assertEqual(2, self.strategy.object_storer.count)
        self.assertTrue(
            isinstance(self.strategy.object_storer.get_store()[1],
                       OrderRejected))

    def test_submit_order_with_invalid_price_gets_rejected(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.exchange.process_tick(tick)
        self.portfolio.update_tick(tick)

        order = self.strategy.order_factory.stop_market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
            Price("80.000"),
        )

        # Act
        self.strategy.submit_order(order)

        # Assert
        self.assertEqual(OrderState.REJECTED, order.state)

    def test_submit_market_order(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        # Create order
        order = self.strategy.order_factory.market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
        )

        # Act
        self.strategy.submit_order(order)

        # Assert
        self.assertEqual(OrderState.FILLED, order.state)
        self.assertEqual(Decimal("90.003"), order.avg_price)

    def test_submit_limit_order(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        order = self.strategy.order_factory.limit(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
            Price("80.000"),
        )

        # Act
        self.strategy.submit_order(order)

        # Assert
        self.assertEqual(1, len(self.exchange.get_working_orders()))
        self.assertIn(order.cl_ord_id, self.exchange.get_working_orders())

    def test_submit_bracket_market_order(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        entry_order = self.strategy.order_factory.market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
        )

        bracket_order = self.strategy.order_factory.bracket(
            entry_order,
            Price("80.000"),
        )

        # Act
        self.strategy.submit_bracket_order(bracket_order)

        # Assert
        self.assertEqual(OrderState.FILLED, entry_order.state)

    def test_submit_bracket_stop_order(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        entry_order = self.strategy.order_factory.stop_market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
            Price("96.710"),
        )

        bracket_order = self.strategy.order_factory.bracket(
            entry_order,
            Price("86.000"),
            Price("97.000"),
        )

        # Act
        self.strategy.submit_bracket_order(bracket_order)

        # Assert
        self.assertEqual(1, len(self.exchange.get_working_orders()))
        self.assertIn(entry_order.cl_ord_id,
                      self.exchange.get_working_orders())

    def test_cancel_stop_order(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        order = self.strategy.order_factory.stop_market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
            Price("96.711"),
        )

        self.strategy.submit_order(order)

        # Act
        self.strategy.cancel_order(order)

        # Assert
        self.assertEqual(0, len(self.exchange.get_working_orders()))

    def test_cancel_stop_order_when_order_does_not_exist_generates_cancel_reject(
            self):
        # Arrange
        command = CancelOrder(
            venue=SIM,
            trader_id=self.trader_id,
            account_id=self.account_id,
            cl_ord_id=ClientOrderId("O-123456"),
            command_id=self.uuid_factory.generate(),
            command_timestamp=UNIX_EPOCH,
        )

        # Act
        self.exchange.handle_cancel_order(command)

        # Assert
        self.assertEqual(2, self.exec_engine.event_count)

    def test_modify_stop_order_when_order_does_not_exist(self):
        # Arrange
        command = ModifyOrder(
            venue=SIM,
            trader_id=self.trader_id,
            account_id=self.account_id,
            cl_ord_id=ClientOrderId("O-123456"),
            quantity=Quantity(100000),
            price=Price("1.00000"),
            command_id=self.uuid_factory.generate(),
            command_timestamp=UNIX_EPOCH,
        )

        # Act
        self.exchange.handle_modify_order(command)

        # Assert
        self.assertEqual(2, self.exec_engine.event_count)

    def test_modify_stop_order(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        order = self.strategy.order_factory.stop_market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
            Price("96.711"),
        )

        self.strategy.submit_order(order)

        # Act
        self.strategy.modify_order(order, order.quantity, Price("96.714"))

        # Assert
        self.assertEqual(1, len(self.exchange.get_working_orders()))
        self.assertEqual(Price("96.714"), order.price)

    def test_expire_order(self):
        # Arrange
        # Prepare market
        tick1 = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick1)
        self.exchange.process_tick(tick1)

        order = self.strategy.order_factory.stop_market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
            Price("96.711"),
            time_in_force=TimeInForce.GTD,
            expire_time=UNIX_EPOCH + timedelta(minutes=1),
        )

        self.strategy.submit_order(order)

        tick2 = QuoteTick(
            USDJPY_SIM.symbol,
            Price("96.709"),
            Price("96.710"),
            Quantity(100000),
            Quantity(100000),
            UNIX_EPOCH + timedelta(minutes=1),
        )

        # Act
        self.exchange.process_tick(tick2)

        # Assert
        self.assertEqual(0, len(self.exchange.get_working_orders()))

    def test_modify_bracket_order_working_stop_loss(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        entry_order = self.strategy.order_factory.market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
        )

        bracket_order = self.strategy.order_factory.bracket(
            entry_order,
            stop_loss=Price("85.000"),
        )

        self.strategy.submit_bracket_order(bracket_order)

        # Act
        self.strategy.modify_order(bracket_order.stop_loss,
                                   bracket_order.entry.quantity,
                                   Price("85.100"))

        # Assert
        self.assertEqual(Price("85.100"), bracket_order.stop_loss.price)

    def test_submit_market_order_with_slippage_fill_model_slips_order(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        fill_model = FillModel(
            prob_fill_at_limit=0.0,
            prob_fill_at_stop=1.0,
            prob_slippage=1.0,
            random_seed=None,
        )

        self.exchange.set_fill_model(fill_model)

        order = self.strategy.order_factory.market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
        )

        # Act
        self.strategy.submit_order(order)

        # Assert
        self.assertEqual(Decimal("90.004"), order.avg_price)

    def test_order_fills_gets_commissioned(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        order = self.strategy.order_factory.market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
        )

        top_up_order = self.strategy.order_factory.market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
        )

        reduce_order = self.strategy.order_factory.market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(50000),
        )

        # Act
        self.strategy.submit_order(order)

        position_id = PositionId("B-USD/JPY-1")  # Generated by exchange

        self.strategy.submit_order(top_up_order, position_id)
        self.strategy.submit_order(reduce_order, position_id)

        account_event1 = self.strategy.object_storer.get_store()[2]
        account_event2 = self.strategy.object_storer.get_store()[6]
        account_event3 = self.strategy.object_storer.get_store()[10]

        account = self.exec_engine.cache.account_for_venue(Venue("SIM"))

        # Assert
        self.assertEqual(Money(180.01, JPY), account_event1.commission)
        self.assertEqual(Money(180.01, JPY), account_event2.commission)
        self.assertEqual(Money(90.00, JPY), account_event3.commission)
        self.assertTrue(Money(999995.00, USD), account.balance())

    def test_process_quote_tick_fills_buy_stop_order(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        order = self.strategy.order_factory.stop_market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
            Price("96.711"),
        )

        self.strategy.submit_order(order)

        # Act
        tick2 = QuoteTick(
            AUDUSD_SIM.symbol,  # Different market
            Price("80.010"),
            Price("80.011"),
            Quantity(200000),
            Quantity(200000),
            UNIX_EPOCH,
        )

        tick3 = QuoteTick(
            USDJPY_SIM.symbol,
            Price("96.710"),
            Price("96.712"),
            Quantity(100000),
            Quantity(100000),
            UNIX_EPOCH,
        )

        self.exchange.process_tick(tick2)
        self.exchange.process_tick(tick3)

        # Assert
        self.assertEqual(0, len(self.exchange.get_working_orders()))
        self.assertEqual(OrderState.FILLED, order.state)
        self.assertEqual(Price("96.711"), order.avg_price)

    def test_process_quote_tick_fills_buy_limit_order(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        order = self.strategy.order_factory.limit(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
            Price("90.001"),
        )

        self.strategy.submit_order(order)

        # Act
        tick2 = QuoteTick(
            AUDUSD_SIM.symbol,  # Different market
            Price("80.010"),
            Price("80.011"),
            Quantity(200000),
            Quantity(200000),
            UNIX_EPOCH,
        )

        tick3 = QuoteTick(
            USDJPY_SIM.symbol,
            Price("89.998"),
            Price("89.999"),
            Quantity(100000),
            Quantity(100000),
            UNIX_EPOCH,
        )

        self.exchange.process_tick(tick2)
        self.exchange.process_tick(tick3)

        # Assert
        self.assertEqual(0, len(self.exchange.get_working_orders()))
        self.assertEqual(OrderState.FILLED, order.state)
        self.assertEqual(Price("90.001"), order.avg_price)

    def test_process_quote_tick_fills_sell_stop_order(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        order = self.strategy.order_factory.stop_market(
            USDJPY_SIM.symbol,
            OrderSide.SELL,
            Quantity(100000),
            Price("90.000"),
        )

        self.strategy.submit_order(order)

        # Act
        tick2 = QuoteTick(
            USDJPY_SIM.symbol,
            Price("89.997"),
            Price("89.999"),
            Quantity(100000),
            Quantity(100000),
            UNIX_EPOCH,
        )

        self.exchange.process_tick(tick2)

        # Assert
        self.assertEqual(0, len(self.exchange.get_working_orders()))
        self.assertEqual(OrderState.FILLED, order.state)
        self.assertEqual(Price("90.000"), order.avg_price)

    def test_process_quote_tick_fills_sell_limit_order(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        order = self.strategy.order_factory.limit(
            USDJPY_SIM.symbol,
            OrderSide.SELL,
            Quantity(100000),
            Price("90.100"),
        )

        self.strategy.submit_order(order)

        # Act
        tick2 = QuoteTick(
            USDJPY_SIM.symbol,
            Price("90.101"),
            Price("90.102"),
            Quantity(100000),
            Quantity(100000),
            UNIX_EPOCH,
        )

        self.exchange.process_tick(tick2)

        # Assert
        self.assertEqual(0, len(self.exchange.get_working_orders()))
        self.assertEqual(OrderState.FILLED, order.state)
        self.assertEqual(Price("90.100"), order.avg_price)

    def test_process_quote_tick_fills_buy_limit_entry_with_bracket(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        entry = self.strategy.order_factory.limit(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
            Price("90.000"),
        )

        bracket = self.strategy.order_factory.bracket(
            entry_order=entry,
            stop_loss=Price("89.900"),
        )

        self.strategy.submit_bracket_order(bracket)

        # Act
        tick2 = QuoteTick(
            USDJPY_SIM.symbol,
            Price("89.998"),
            Price("89.999"),
            Quantity(100000),
            Quantity(100000),
            UNIX_EPOCH,
        )

        self.exchange.process_tick(tick2)

        # Assert
        self.assertEqual(1, len(self.exchange.get_working_orders()))
        self.assertIn(bracket.stop_loss,
                      self.exchange.get_working_orders().values())

    def test_process_quote_tick_fills_sell_limit_entry_with_bracket(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        entry = self.strategy.order_factory.limit(
            USDJPY_SIM.symbol,
            OrderSide.SELL,
            Quantity(100000),
            Price("91.100"),
        )

        bracket = self.strategy.order_factory.bracket(
            entry_order=entry,
            stop_loss=Price("91.200"),
            take_profit=Price("90.000"),
        )

        self.strategy.submit_bracket_order(bracket)

        # Act
        tick2 = QuoteTick(
            USDJPY_SIM.symbol,
            Price("91.101"),
            Price("91.102"),
            Quantity(100000),
            Quantity(100000),
            UNIX_EPOCH,
        )

        self.exchange.process_tick(tick2)

        # Assert
        self.assertEqual(2,
                         len(self.exchange.get_working_orders()))  # SL and TP
        self.assertIn(bracket.stop_loss,
                      self.exchange.get_working_orders().values())
        self.assertIn(bracket.take_profit,
                      self.exchange.get_working_orders().values())

    def test_process_trade_tick_fills_buy_limit_entry_with_bracket(self):
        # Arrange
        # Prepare market
        tick1 = TradeTick(
            AUDUSD_SIM.symbol,
            Price("1.00000"),
            Quantity(100000),
            OrderSide.SELL,
            TradeMatchId("123456789"),
            UNIX_EPOCH,
        )

        tick2 = TradeTick(
            AUDUSD_SIM.symbol,
            Price("1.00001"),
            Quantity(100000),
            OrderSide.BUY,
            TradeMatchId("123456790"),
            UNIX_EPOCH,
        )

        self.data_engine.process(tick1)
        self.data_engine.process(tick2)
        self.exchange.process_tick(tick1)
        self.exchange.process_tick(tick2)

        entry = self.strategy.order_factory.limit(
            AUDUSD_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
            Price("0.99900"),
        )

        bracket = self.strategy.order_factory.bracket(
            entry_order=entry,
            stop_loss=Price("0.99800"),
            take_profit=Price("1.100"),
        )

        self.strategy.submit_bracket_order(bracket)

        # Act
        tick3 = TradeTick(
            AUDUSD_SIM.symbol,
            Price("0.99899"),
            Quantity(100000),
            OrderSide.BUY,  # Lowers ask price
            TradeMatchId("123456789"),
            UNIX_EPOCH,
        )

        self.exchange.process_tick(tick3)

        # Assert
        self.assertEqual(2, len(
            self.exchange.get_working_orders()))  # SL and TP only
        self.assertIn(bracket.stop_loss,
                      self.exchange.get_working_orders().values())
        self.assertIn(bracket.take_profit,
                      self.exchange.get_working_orders().values())

    def test_filling_oco_sell_cancels_other_order(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        entry = self.strategy.order_factory.limit(
            USDJPY_SIM.symbol,
            OrderSide.SELL,
            Quantity(100000),
            Price("91.100"),
        )

        bracket = self.strategy.order_factory.bracket(
            entry_order=entry,
            stop_loss=Price("91.200"),
            take_profit=Price("90.000"),
        )

        self.strategy.submit_bracket_order(bracket)

        # Act
        tick2 = QuoteTick(
            USDJPY_SIM.symbol,
            Price("91.101"),
            Price("91.102"),
            Quantity(100000),
            Quantity(100000),
            UNIX_EPOCH,
        )

        tick3 = QuoteTick(
            USDJPY_SIM.symbol,
            Price("91.201"),
            Price("91.203"),
            Quantity(100000),
            Quantity(100000),
            UNIX_EPOCH,
        )

        self.exchange.process_tick(tick2)
        self.exchange.process_tick(tick3)

        # Assert
        self.assertEqual(0, len(self.exchange.get_working_orders()))

    def test_realized_pnl_contains_commission(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        order = self.strategy.order_factory.market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
        )

        # Act
        self.strategy.submit_order(order)
        position = self.exec_engine.cache.positions_open()[0]

        # Assert
        self.assertEqual(Money(-180.01, JPY), position.realized_pnl)
        self.assertEqual(Money(180.01, JPY), position.commission)
        self.assertEqual([Money(180.01, JPY)], position.commissions())

    def test_unrealized_pnl(self):
        # Arrange
        # Prepare market
        tick = TestStubs.quote_tick_3decimal(USDJPY_SIM.symbol)
        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        order_open = self.strategy.order_factory.market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
        )

        # Act 1
        self.strategy.submit_order(order_open)

        reduce_quote = QuoteTick(
            USDJPY_SIM.symbol,
            Price("100.003"),
            Price("100.003"),
            Quantity(100000),
            Quantity(100000),
            UNIX_EPOCH,
        )

        self.exchange.process_tick(reduce_quote)
        self.portfolio.update_tick(reduce_quote)

        order_reduce = self.strategy.order_factory.market(
            USDJPY_SIM.symbol,
            OrderSide.SELL,
            Quantity(50000),
        )

        position_id = PositionId("B-USD/JPY-1")  # Generated by exchange

        # Act 2
        self.strategy.submit_order(order_reduce, position_id)

        # Assert
        position = self.exec_engine.cache.positions_open()[0]
        self.assertEqual(Money(500000.00, JPY),
                         position.unrealized_pnl(Price("100.003")))

    def test_position_flipped_when_reduce_order_exceeds_original_quantity(
            self):
        # Arrange
        # Prepare market
        open_quote = QuoteTick(
            USDJPY_SIM.symbol,
            Price("90.002"),
            Price("90.003"),
            Quantity(1),
            Quantity(1),
            UNIX_EPOCH,
        )

        self.data_engine.process(open_quote)
        self.exchange.process_tick(open_quote)

        order_open = self.strategy.order_factory.market(
            USDJPY_SIM.symbol,
            OrderSide.BUY,
            Quantity(100000),
        )

        # Act 1
        self.strategy.submit_order(order_open)

        reduce_quote = QuoteTick(
            USDJPY_SIM.symbol,
            Price("100.003"),
            Price("100.003"),
            Quantity(1),
            Quantity(1),
            UNIX_EPOCH,
        )

        self.exchange.process_tick(reduce_quote)
        self.portfolio.update_tick(reduce_quote)

        order_reduce = self.strategy.order_factory.market(
            USDJPY_SIM.symbol,
            OrderSide.SELL,
            Quantity(150000),
        )

        # Act 2
        self.strategy.submit_order(order_reduce, PositionId("B-USD/JPY-1"))

        # Assert
        print(self.exec_engine.cache.positions())
        position_open = self.exec_engine.cache.positions_open()[0]
        position_closed = self.exec_engine.cache.positions_closed()[0]
        self.assertEqual(PositionSide.SHORT, position_open.side)
        self.assertEqual(Quantity(50000), position_open.quantity)
        self.assertEqual(Money(999619.98, JPY), position_closed.realized_pnl)
        self.assertEqual([Money(380.02, JPY)], position_closed.commissions())
Beispiel #2
0
class TestSimulatedExchangeContingencyAdvancedOrders:
    def setup(self):
        # Fixture Setup
        self.clock = TestClock()
        self.uuid_factory = UUIDFactory()
        self.logger = Logger(
            clock=self.clock,
            level_stdout=LogLevel.INFO,
        )

        self.trader_id = TestStubs.trader_id()
        self.account_id = TestStubs.account_id()

        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 = DataEngine(
            msgbus=self.msgbus,
            clock=self.clock,
            cache=self.cache,
            logger=self.logger,
        )

        self.exec_engine = ExecutionEngine(
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.risk_engine = RiskEngine(
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        self.exchange = SimulatedExchange(
            venue=FTX,
            venue_type=VenueType.EXCHANGE,
            oms_type=OMSType.NETTING,
            account_type=AccountType.MARGIN,
            base_currency=None,  # Multi-asset wallet
            starting_balances=[Money(200, ETH),
                               Money(1_000_000, USD)],
            default_leverage=Decimal(100),
            leverages={},
            is_frozen_account=False,
            instruments=[ETHUSD_FTX],
            modules=[],
            fill_model=FillModel(),
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
            latency_model=LatencyModel(0),
        )

        self.exec_client = BacktestExecClient(
            exchange=self.exchange,
            account_id=AccountId("FTX", "001"),
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        # Wire up components
        self.exec_engine.register_client(self.exec_client)
        self.exchange.register_client(self.exec_client)

        self.cache.add_instrument(ETHUSD_FTX)

        # Create mock strategy
        self.strategy = MockStrategy(
            bar_type=TestStubs.bartype_usdjpy_1min_bid())
        self.strategy.register(
            trader_id=self.trader_id,
            portfolio=self.portfolio,
            msgbus=self.msgbus,
            cache=self.cache,
            clock=self.clock,
            logger=self.logger,
        )

        # Start components
        self.exchange.reset()
        self.data_engine.start()
        self.exec_engine.start()
        self.strategy.start()

    def test_submit_bracket_market_buy_accepts_sl_and_tp(self):
        # Arrange: Prepare market
        tick = QuoteTick(
            instrument_id=ETHUSD_FTX.id,
            bid=ETHUSD_FTX.make_price(3090.2),
            ask=ETHUSD_FTX.make_price(3090.5),
            bid_size=ETHUSD_FTX.make_qty(15.100),
            ask_size=ETHUSD_FTX.make_qty(15.100),
            ts_event=0,
            ts_init=0,
        )

        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        bracket = self.strategy.order_factory.bracket_market(
            instrument_id=ETHUSD_FTX.id,
            order_side=OrderSide.BUY,
            quantity=ETHUSD_FTX.make_qty(10.000),
            stop_loss=ETHUSD_FTX.make_price(3050.0),
            take_profit=ETHUSD_FTX.make_price(3150.0),
        )

        # Act
        self.strategy.submit_order_list(bracket)
        self.exchange.process(0)

        # Assert
        assert bracket.orders[0].status == OrderStatus.FILLED
        assert bracket.orders[1].status == OrderStatus.ACCEPTED
        assert bracket.orders[2].status == OrderStatus.ACCEPTED

    def test_submit_bracket_market_sell_accepts_sl_and_tp(self):
        # Arrange: Prepare market
        tick = QuoteTick(
            instrument_id=ETHUSD_FTX.id,
            bid=ETHUSD_FTX.make_price(3090.2),
            ask=ETHUSD_FTX.make_price(3090.5),
            bid_size=ETHUSD_FTX.make_qty(15.100),
            ask_size=ETHUSD_FTX.make_qty(15.100),
            ts_event=0,
            ts_init=0,
        )

        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        bracket = self.strategy.order_factory.bracket_market(
            instrument_id=ETHUSD_FTX.id,
            order_side=OrderSide.SELL,
            quantity=ETHUSD_FTX.make_qty(10.000),
            stop_loss=ETHUSD_FTX.make_price(3150.0),
            take_profit=ETHUSD_FTX.make_price(3050.0),
        )

        # Act
        self.strategy.submit_order_list(bracket)
        self.exchange.process(0)

        # Assert
        assert bracket.orders[0].status == OrderStatus.FILLED
        assert bracket.orders[1].status == OrderStatus.ACCEPTED
        assert bracket.orders[2].status == OrderStatus.ACCEPTED

    def test_submit_bracket_limit_buy_has_sl_tp_pending(self):
        # Arrange: Prepare market
        tick = QuoteTick(
            instrument_id=ETHUSD_FTX.id,
            bid=ETHUSD_FTX.make_price(3090.2),
            ask=ETHUSD_FTX.make_price(3090.5),
            bid_size=ETHUSD_FTX.make_qty(15.100),
            ask_size=ETHUSD_FTX.make_qty(15.100),
            ts_event=0,
            ts_init=0,
        )

        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        bracket = self.strategy.order_factory.bracket_limit(
            instrument_id=ETHUSD_FTX.id,
            order_side=OrderSide.BUY,
            quantity=ETHUSD_FTX.make_qty(10.000),
            entry=ETHUSD_FTX.make_price(3090.0),
            stop_loss=ETHUSD_FTX.make_price(3050.0),
            take_profit=ETHUSD_FTX.make_price(3150.0),
        )

        # Act
        self.strategy.submit_order_list(bracket)
        self.exchange.process(0)
        #
        # # Assert
        assert bracket.orders[0].status == OrderStatus.ACCEPTED
        assert bracket.orders[1].status == OrderStatus.SUBMITTED
        assert bracket.orders[2].status == OrderStatus.SUBMITTED

    def test_submit_bracket_limit_sell_has_sl_tp_pending(self):
        # Arrange: Prepare market
        tick = QuoteTick(
            instrument_id=ETHUSD_FTX.id,
            bid=ETHUSD_FTX.make_price(3090.2),
            ask=ETHUSD_FTX.make_price(3090.5),
            bid_size=ETHUSD_FTX.make_qty(15.100),
            ask_size=ETHUSD_FTX.make_qty(15.100),
            ts_event=0,
            ts_init=0,
        )

        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        bracket = self.strategy.order_factory.bracket_limit(
            instrument_id=ETHUSD_FTX.id,
            order_side=OrderSide.SELL,
            quantity=ETHUSD_FTX.make_qty(10.000),
            entry=ETHUSD_FTX.make_price(3100.0),
            stop_loss=ETHUSD_FTX.make_price(3150.0),
            take_profit=ETHUSD_FTX.make_price(3050.0),
        )

        # Act
        self.strategy.submit_order_list(bracket)
        self.exchange.process(0)
        #
        # # Assert
        assert bracket.orders[0].status == OrderStatus.ACCEPTED
        assert bracket.orders[1].status == OrderStatus.SUBMITTED
        assert bracket.orders[2].status == OrderStatus.SUBMITTED

    def test_submit_bracket_limit_buy_fills_then_triggers_sl_and_tp(self):
        # Arrange: Prepare market
        tick = QuoteTick(
            instrument_id=ETHUSD_FTX.id,
            bid=ETHUSD_FTX.make_price(3090.2),
            ask=ETHUSD_FTX.make_price(3090.5),
            bid_size=ETHUSD_FTX.make_qty(15.100),
            ask_size=ETHUSD_FTX.make_qty(15.100),
            ts_event=0,
            ts_init=0,
        )

        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        bracket = self.strategy.order_factory.bracket_limit(
            instrument_id=ETHUSD_FTX.id,
            order_side=OrderSide.BUY,
            quantity=ETHUSD_FTX.make_qty(10.000),
            entry=ETHUSD_FTX.make_price(3100.0),
            stop_loss=ETHUSD_FTX.make_price(3050.0),
            take_profit=ETHUSD_FTX.make_price(3150.0),
        )

        # Act
        self.strategy.submit_order_list(bracket)
        self.exchange.process(0)

        # Assert
        assert bracket.orders[0].status == OrderStatus.FILLED
        assert bracket.orders[1].status == OrderStatus.ACCEPTED
        assert bracket.orders[2].status == OrderStatus.ACCEPTED
        assert len(self.exchange.get_working_orders()) == 2
        assert bracket.orders[1] in self.exchange.get_working_orders()
        assert bracket.orders[2] in self.exchange.get_working_orders()

    def test_submit_bracket_limit_sell_fills_then_triggers_sl_and_tp(self):
        # Arrange: Prepare market
        tick = QuoteTick(
            instrument_id=ETHUSD_FTX.id,
            bid=ETHUSD_FTX.make_price(3090.2),
            ask=ETHUSD_FTX.make_price(3090.5),
            bid_size=ETHUSD_FTX.make_qty(15.100),
            ask_size=ETHUSD_FTX.make_qty(15.100),
            ts_event=0,
            ts_init=0,
        )

        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        bracket = self.strategy.order_factory.bracket_limit(
            instrument_id=ETHUSD_FTX.id,
            order_side=OrderSide.SELL,
            quantity=ETHUSD_FTX.make_qty(10.000),
            entry=ETHUSD_FTX.make_price(3050.0),
            stop_loss=ETHUSD_FTX.make_price(3150.0),
            take_profit=ETHUSD_FTX.make_price(3000.0),
        )

        # Act
        self.strategy.submit_order_list(bracket)
        self.exchange.process(0)

        # Assert
        assert bracket.orders[0].status == OrderStatus.FILLED
        assert bracket.orders[1].status == OrderStatus.ACCEPTED
        assert bracket.orders[2].status == OrderStatus.ACCEPTED
        assert len(self.exchange.get_working_orders()) == 2
        assert bracket.orders[1] in self.exchange.get_working_orders()
        assert bracket.orders[2] in self.exchange.get_working_orders()

    def test_reject_bracket_entry_then_rejects_sl_and_tp(self):
        # Arrange: Prepare market
        tick = QuoteTick(
            instrument_id=ETHUSD_FTX.id,
            bid=ETHUSD_FTX.make_price(3090.2),
            ask=ETHUSD_FTX.make_price(3090.5),
            bid_size=ETHUSD_FTX.make_qty(15.100),
            ask_size=ETHUSD_FTX.make_qty(15.100),
            ts_event=0,
            ts_init=0,
        )

        self.data_engine.process(tick)
        self.exchange.process_tick(tick)

        bracket = self.strategy.order_factory.bracket_limit(
            instrument_id=ETHUSD_FTX.id,
            order_side=OrderSide.SELL,
            quantity=ETHUSD_FTX.make_qty(10.000),
            entry=ETHUSD_FTX.make_price(3050.0),  # <-- in the market
            stop_loss=ETHUSD_FTX.make_price(3150.0),
            take_profit=ETHUSD_FTX.make_price(3000.0),
            post_only=True,  # <-- will reject placed into the market
        )

        # Act
        self.strategy.submit_order_list(bracket)
        self.exchange.process(0)

        # Assert
        assert bracket.orders[0].status == OrderStatus.REJECTED
        assert bracket.orders[1].status == OrderStatus.REJECTED
        assert bracket.orders[2].status == OrderStatus.REJECTED
        assert len(self.exchange.get_working_orders()) == 0
        assert bracket.orders[1] not in self.exchange.get_working_orders()
        assert bracket.orders[2] not in self.exchange.get_working_orders()

    def test_filling_bracket_sl_cancels_tp_order(self):
        # Arrange: Prepare market
        tick1 = QuoteTick(
            instrument_id=ETHUSD_FTX.id,
            bid=ETHUSD_FTX.make_price(3090.2),
            ask=ETHUSD_FTX.make_price(3090.5),
            bid_size=ETHUSD_FTX.make_qty(15.100),
            ask_size=ETHUSD_FTX.make_qty(15.100),
            ts_event=0,
            ts_init=0,
        )

        self.data_engine.process(tick1)
        self.exchange.process_tick(tick1)

        bracket = self.strategy.order_factory.bracket_limit(
            instrument_id=ETHUSD_FTX.id,
            order_side=OrderSide.BUY,
            quantity=ETHUSD_FTX.make_qty(10.000),
            entry=ETHUSD_FTX.make_price(3100.0),
            stop_loss=ETHUSD_FTX.make_price(3050.0),
            take_profit=ETHUSD_FTX.make_price(3150.0),
        )

        self.strategy.submit_order_list(bracket)
        self.exchange.process(0)

        tick2 = QuoteTick(
            instrument_id=ETHUSD_FTX.id,
            bid=ETHUSD_FTX.make_price(3150.0),
            ask=ETHUSD_FTX.make_price(3151.0),
            bid_size=ETHUSD_FTX.make_qty(10.000),
            ask_size=ETHUSD_FTX.make_qty(10.000),
            ts_event=0,
            ts_init=0,
        )

        # Act
        self.exchange.process_tick(tick2)

        # Assert
        assert bracket.orders[0].status == OrderStatus.FILLED
        assert bracket.orders[1].status == OrderStatus.CANCELED
        assert bracket.orders[2].status == OrderStatus.FILLED
        assert len(self.exchange.get_working_orders()) == 0
        assert len(self.exchange.cache.positions_open()) == 0

    def test_filling_bracket_tp_cancels_sl_order(self):
        # Arrange: Prepare market
        tick1 = QuoteTick(
            instrument_id=ETHUSD_FTX.id,
            bid=ETHUSD_FTX.make_price(3090.2),
            ask=ETHUSD_FTX.make_price(3090.5),
            bid_size=ETHUSD_FTX.make_qty(15.100),
            ask_size=ETHUSD_FTX.make_qty(15.100),
            ts_event=0,
            ts_init=0,
        )

        self.data_engine.process(tick1)
        self.exchange.process_tick(tick1)

        bracket = self.strategy.order_factory.bracket_limit(
            instrument_id=ETHUSD_FTX.id,
            order_side=OrderSide.BUY,
            quantity=ETHUSD_FTX.make_qty(10.000),
            entry=ETHUSD_FTX.make_price(3100.0),
            stop_loss=ETHUSD_FTX.make_price(3050.0),
            take_profit=ETHUSD_FTX.make_price(3150.0),
        )

        self.strategy.submit_order_list(bracket)
        self.exchange.process(0)

        # Act
        tick2 = QuoteTick(
            instrument_id=ETHUSD_FTX.id,
            bid=ETHUSD_FTX.make_price(3150.0),
            ask=ETHUSD_FTX.make_price(3151.0),
            bid_size=ETHUSD_FTX.make_qty(10.000),
            ask_size=ETHUSD_FTX.make_qty(10.000),
            ts_event=0,
            ts_init=0,
        )

        self.exchange.process_tick(tick2)

        # Assert
        assert bracket.orders[0].status == OrderStatus.FILLED
        assert bracket.orders[1].status == OrderStatus.CANCELED
        assert bracket.orders[2].status == OrderStatus.FILLED
        assert len(self.exchange.get_working_orders()) == 0
        assert len(self.exchange.cache.positions_open()) == 0

    def test_partial_fill_bracket_tp_updates_sl_order(self):
        # Arrange: Prepare market
        tick1 = QuoteTick(
            instrument_id=ETHUSD_FTX.id,
            bid=ETHUSD_FTX.make_price(3090.2),
            ask=ETHUSD_FTX.make_price(3090.5),
            bid_size=ETHUSD_FTX.make_qty(15.100),
            ask_size=ETHUSD_FTX.make_qty(15.100),
            ts_event=0,
            ts_init=0,
        )

        self.data_engine.process(tick1)
        self.exchange.process_tick(tick1)

        bracket = self.strategy.order_factory.bracket_limit(
            instrument_id=ETHUSD_FTX.id,
            order_side=OrderSide.BUY,
            quantity=ETHUSD_FTX.make_qty(10.000),
            entry=ETHUSD_FTX.make_price(3100.0),
            stop_loss=ETHUSD_FTX.make_price(3050.0),
            take_profit=ETHUSD_FTX.make_price(3150.0),
        )

        en = bracket.orders[0]
        sl = bracket.orders[1]
        tp = bracket.orders[2]

        self.strategy.submit_order_list(bracket)
        self.exchange.process(0)

        # Act
        tick2 = QuoteTick(
            instrument_id=ETHUSD_FTX.id,
            bid=ETHUSD_FTX.make_price(3150.0),
            ask=ETHUSD_FTX.make_price(3151.0),
            bid_size=ETHUSD_FTX.make_qty(5.000),
            ask_size=ETHUSD_FTX.make_qty(5.1000),
            ts_event=0,
            ts_init=0,
        )

        self.exchange.process_tick(tick2)

        # Assert
        assert en.status == OrderStatus.FILLED
        assert sl.status == OrderStatus.ACCEPTED
        assert tp.status == OrderStatus.PARTIALLY_FILLED
        assert sl.quantity == Quantity.from_int(5)
        assert tp.leaves_qty == Quantity.from_int(5)
        assert tp.quantity == Quantity.from_int(10)
        assert len(self.exchange.get_working_orders()) == 2
        assert len(self.exchange.cache.positions_open()) == 1

    def test_modifying_bracket_tp_updates_sl_order(self):
        # Arrange: Prepare market
        tick1 = QuoteTick(
            instrument_id=ETHUSD_FTX.id,
            bid=ETHUSD_FTX.make_price(3090.2),
            ask=ETHUSD_FTX.make_price(3090.5),
            bid_size=ETHUSD_FTX.make_qty(15.100),
            ask_size=ETHUSD_FTX.make_qty(15.100),
            ts_event=0,
            ts_init=0,
        )

        self.data_engine.process(tick1)
        self.exchange.process_tick(tick1)

        bracket = self.strategy.order_factory.bracket_limit(
            instrument_id=ETHUSD_FTX.id,
            order_side=OrderSide.BUY,
            quantity=ETHUSD_FTX.make_qty(10.000),
            entry=ETHUSD_FTX.make_price(3100.0),
            stop_loss=ETHUSD_FTX.make_price(3050.0),
            take_profit=ETHUSD_FTX.make_price(3150.0),
        )

        en = bracket.orders[0]
        sl = bracket.orders[1]
        tp = bracket.orders[2]

        self.strategy.submit_order_list(bracket)
        self.exchange.process(0)

        # Act
        self.strategy.modify_order(
            order=sl,
            quantity=Quantity.from_int(5),
            price=sl.price,
        )
        self.exchange.process(0)

        # Assert
        assert en.status == OrderStatus.FILLED
        assert sl.status == OrderStatus.ACCEPTED
        assert tp.status == OrderStatus.ACCEPTED
        assert sl.quantity == Quantity.from_int(5)
        assert tp.quantity == Quantity.from_int(5)
        assert len(self.exchange.get_working_orders()) == 2
        assert len(self.exchange.cache.positions_open()) == 1

    def test_closing_position_cancels_bracket_ocos(self):
        # Arrange: Prepare market
        tick1 = QuoteTick(
            instrument_id=ETHUSD_FTX.id,
            bid=ETHUSD_FTX.make_price(3090.2),
            ask=ETHUSD_FTX.make_price(3090.5),
            bid_size=ETHUSD_FTX.make_qty(15.100),
            ask_size=ETHUSD_FTX.make_qty(15.100),
            ts_event=0,
            ts_init=0,
        )

        self.data_engine.process(tick1)
        self.exchange.process_tick(tick1)

        bracket = self.strategy.order_factory.bracket_market(
            instrument_id=ETHUSD_FTX.id,
            order_side=OrderSide.BUY,
            quantity=ETHUSD_FTX.make_qty(10.000),
            stop_loss=ETHUSD_FTX.make_price(3050.0),
            take_profit=ETHUSD_FTX.make_price(3150.0),
        )

        en = bracket.orders[0]
        sl = bracket.orders[1]
        tp = bracket.orders[2]

        self.strategy.submit_order_list(bracket)
        self.exchange.process(0)

        # Act
        self.strategy.flatten_position(
            self.strategy.cache.position(en.position_id))
        self.exchange.process(0)

        # Assert
        assert en.status == OrderStatus.FILLED
        assert sl.status == OrderStatus.CANCELED
        assert tp.status == OrderStatus.CANCELED
        assert len(self.exchange.get_working_orders()) == 0
        assert len(self.exchange.cache.positions_open()) == 0

    def test_partially_filling_position_updates_bracket_ocos(self):
        # Arrange: Prepare market
        tick1 = QuoteTick(
            instrument_id=ETHUSD_FTX.id,
            bid=ETHUSD_FTX.make_price(3090.2),
            ask=ETHUSD_FTX.make_price(3090.5),
            bid_size=ETHUSD_FTX.make_qty(15.100),
            ask_size=ETHUSD_FTX.make_qty(15.100),
            ts_event=0,
            ts_init=0,
        )

        self.data_engine.process(tick1)
        self.exchange.process_tick(tick1)

        bracket = self.strategy.order_factory.bracket_market(
            instrument_id=ETHUSD_FTX.id,
            order_side=OrderSide.BUY,
            quantity=ETHUSD_FTX.make_qty(10.000),
            stop_loss=ETHUSD_FTX.make_price(3050.0),
            take_profit=ETHUSD_FTX.make_price(3150.0),
        )

        en = bracket.orders[0]
        sl = bracket.orders[1]
        tp = bracket.orders[2]

        self.strategy.submit_order_list(bracket)
        self.exchange.process(0)

        # Act
        reduce_order = self.strategy.order_factory.market(
            instrument_id=ETHUSD_FTX.id,
            order_side=OrderSide.SELL,
            quantity=ETHUSD_FTX.make_qty(5.000),
        )
        self.strategy.submit_order(
            reduce_order,
            position_id=self.cache.position_for_order(en.client_order_id).id,
        )
        self.exchange.process(0)

        # Assert
        assert en.status == OrderStatus.FILLED
        assert sl.status == OrderStatus.ACCEPTED
        assert tp.status == OrderStatus.ACCEPTED
        assert sl.quantity == ETHUSD_FTX.make_qty(5.000)
        assert tp.quantity == ETHUSD_FTX.make_qty(5.000)
        assert len(self.exchange.get_working_orders()) == 2
        assert len(self.exchange.cache.positions_open()) == 1