def test_slippage_and_commission_dispatching(self):
blotter = SimulationBlotter(
equity_slippage=FixedSlippage(spread=0.0),
future_slippage=FixedSlippage(spread=2.0),
equity_commission=PerTrade(cost=1.0),
future_commission=PerTrade(cost=2.0),
)
blotter.order(self.asset_24, 1, MarketOrder())
blotter.order(self.future_cl, 1, MarketOrder())
bar_data = self.create_bardata(
simulation_dt_func=lambda: self.sim_params.sessions[-1],
)
txns, commissions, _ = blotter.get_transactions(bar_data)
# The equity transaction should have the same price as its current
# price because the slippage spread is zero. Its commission should be
# $1.00.
equity_txn = txns[0]
self.assertEqual(
equity_txn.price,
bar_data.current(equity_txn.asset, 'price'),
)
self.assertEqual(commissions[0]['cost'], 1.0)
# The future transaction price should be 1.0 more than its current
# price because half of the 'future_slippage' spread is added. Its
# commission should be $2.00.
future_txn = txns[1]
self.assertEqual(
future_txn.price,
bar_data.current(future_txn.asset, 'price') + 1.0,
)
self.assertEqual(commissions[1]['cost'], 2.0)
def test_cancel(self):
blotter = SimulationBlotter()
oid_1 = blotter.order(self.asset_24, 100, MarketOrder())
oid_2 = blotter.order(self.asset_24, 200, MarketOrder())
oid_3 = blotter.order(self.asset_24, 300, MarketOrder())
# Create an order for another asset to verify that we don't remove it
# when we do cancel_all on 24.
blotter.order(self.asset_25, 150, MarketOrder())
self.assertEqual(len(blotter.open_orders), 2)
self.assertEqual(len(blotter.open_orders[self.asset_24]), 3)
self.assertEqual(
[o.amount for o in blotter.open_orders[self.asset_24]],
[100, 200, 300],
)
blotter.cancel(oid_2)
self.assertEqual(len(blotter.open_orders), 2)
self.assertEqual(len(blotter.open_orders[self.asset_24]), 2)
self.assertEqual(
[o.amount for o in blotter.open_orders[self.asset_24]],
[100, 300],
)
self.assertEqual(
[o.id for o in blotter.open_orders[self.asset_24]],
[oid_1, oid_3],
)
blotter.cancel_all_orders_for_asset(self.asset_24)
self.assertEqual(len(blotter.open_orders), 1)
self.assertEqual(list(blotter.open_orders), [self.asset_25])
def test_cancel(self):
blotter = SimulationBlotter(self.sim_params)
oid_1 = blotter.order(self.asset_24, 100, MarketOrder())
oid_2 = blotter.order(self.asset_24, 200, MarketOrder())
oid_3 = blotter.order(self.asset_24, 300, MarketOrder())
# Create an order for another asset to verify that we don't remove it
# when we do cancel_all on 24.
blotter.order(self.asset_25, 150, MarketOrder())
self.assertEqual(len(blotter.open_orders), 2)
self.assertEqual(len(blotter.open_orders[self.asset_24]), 3)
self.assertEqual(
[o.amount for o in blotter.open_orders[self.asset_24]],
[100, 200, 300],
)
blotter.cancel(oid_2)
self.assertEqual(len(blotter.open_orders), 2)
self.assertEqual(len(blotter.open_orders[self.asset_24]), 2)
self.assertEqual(
[o.amount for o in blotter.open_orders[self.asset_24]],
[100, 300],
)
self.assertEqual(
[o.id for o in blotter.open_orders[self.asset_24]],
[oid_1, oid_3],
)
blotter.cancel_all_orders_for_asset(self.asset_24)
self.assertEqual(len(blotter.open_orders), 1)
self.assertEqual(list(blotter.open_orders), [self.asset_25])
def test_cancel(self):
blotter = SimulationBlotter()
oid_1 = blotter.order(self.asset_24, 100, MarketOrder())
oid_2 = blotter.order(self.asset_24, 200, MarketOrder())
oid_3 = blotter.order(self.asset_24, 300, MarketOrder())
# Create an order for another asset to verify that we don't remove it
# when we do cancel_all on 24.
blotter.order(self.asset_25, 150, MarketOrder())
assert len(blotter.open_orders) == 2
assert len(blotter.open_orders[self.asset_24]) == 3
assert [o.amount for o in blotter.open_orders[self.asset_24]
] == [100, 200, 300]
blotter.cancel(oid_2)
assert len(blotter.open_orders) == 2
assert len(blotter.open_orders[self.asset_24]) == 2
assert [o.amount
for o in blotter.open_orders[self.asset_24]] == [100, 300]
assert [o.id
for o in blotter.open_orders[self.asset_24]] == [oid_1, oid_3]
blotter.cancel_all_orders_for_asset(self.asset_24)
assert len(blotter.open_orders) == 1
assert list(blotter.open_orders) == [self.asset_25]
def test_slippage_and_commission_dispatching(self):
blotter = SimulationBlotter(
self.sim_params,
equity_slippage=FixedSlippage(spread=0.0),
future_slippage=FixedSlippage(spread=2.0),
equity_commission=PerTrade(cost=1.0),
future_commission=PerTrade(cost=2.0),
)
blotter.order(self.asset_24, 1, MarketOrder())
blotter.order(self.future_cl, 1, MarketOrder())
bar_data = self.create_bardata(
simulation_dt_func=lambda: self.sim_params.sessions[-1], )
txns, commissions, _ = blotter.get_transactions(bar_data)
# The equity transaction should have the same price as its current
# price because the slippage spread is zero. Its commission should be
# $1.00.
equity_txn = txns[0]
self.assertEqual(
equity_txn.price,
bar_data.current(equity_txn.asset, 'price'),
)
self.assertEqual(commissions[0]['cost'], 1.0)
# The future transaction price should be 1.0 more than its current
# price because half of the 'future_slippage' spread is added. Its
# commission should be $2.00.
future_txn = txns[1]
self.assertEqual(
future_txn.price,
bar_data.current(future_txn.asset, 'price') + 1.0,
)
self.assertEqual(commissions[1]['cost'], 2.0)
def test_blotter_order_types(self, style_obj, expected_lmt, expected_stp):
style_obj.asset = self.asset_24
blotter = SimulationBlotter()
blotter.order(self.asset_24, 100, style_obj)
result = blotter.open_orders[self.asset_24][0]
self.assertEqual(result.limit, expected_lmt)
self.assertEqual(result.stop, expected_stp)
def test_blotter_order_types(self, style_obj, expected_lmt, expected_stp):
style_obj.asset = self.asset_24
blotter = SimulationBlotter()
blotter.order(self.asset_24, 100, style_obj)
result = blotter.open_orders[self.asset_24][0]
assert result.limit == expected_lmt
assert result.stop == expected_stp
def test_blotter_order_types(self, style_obj, expected_lmt, expected_stp):
style_obj.asset = self.asset_24
blotter = SimulationBlotter(self.sim_params)
blotter.order(self.asset_24, 100, style_obj)
result = blotter.open_orders[self.asset_24][0]
self.assertEqual(result.limit, expected_lmt)
self.assertEqual(result.stop, expected_stp)
def test_blotter_never_cancel(self):
blotter = SimulationBlotter(cancel_policy=NeverCancel())
blotter.order(self.asset_24, 100, MarketOrder())
self.assertEqual(len(blotter.new_orders), 1)
self.assertEqual(blotter.new_orders[0].status, ORDER_STATUS.OPEN)
blotter.execute_cancel_policy(BAR)
self.assertEqual(blotter.new_orders[0].status, ORDER_STATUS.OPEN)
blotter.execute_cancel_policy(SESSION_END)
self.assertEqual(blotter.new_orders[0].status, ORDER_STATUS.OPEN)
def test_blotter_never_cancel(self):
blotter = SimulationBlotter(cancel_policy=NeverCancel())
blotter.order(self.asset_24, 100, MarketOrder())
self.assertEqual(len(blotter.new_orders), 1)
self.assertEqual(blotter.new_orders[0].status, ORDER_STATUS.OPEN)
blotter.execute_cancel_policy(BAR)
self.assertEqual(blotter.new_orders[0].status, ORDER_STATUS.OPEN)
blotter.execute_cancel_policy(SESSION_END)
self.assertEqual(blotter.new_orders[0].status, ORDER_STATUS.OPEN)
def test_batch_order_matches_multiple_orders(self):
"""
Ensure the effect of order_batch is the same as multiple calls to
order.
"""
blotter1 = SimulationBlotter()
blotter2 = SimulationBlotter()
for i in range(1, 4):
order_arg_lists = [
(self.asset_24, i * 100, MarketOrder()),
(self.asset_25, i * 100, LimitOrder(i * 100 + 1)),
]
order_batch_ids = blotter1.batch_order(order_arg_lists)
order_ids = []
for order_args in order_arg_lists:
order_ids.append(blotter2.order(*order_args))
self.assertEqual(len(order_batch_ids), len(order_ids))
self.assertEqual(len(blotter1.open_orders),
len(blotter2.open_orders))
for (asset, _, _), order_batch_id, order_id in zip(
order_arg_lists, order_batch_ids, order_ids
):
self.assertEqual(len(blotter1.open_orders[asset]),
len(blotter2.open_orders[asset]))
self.assertEqual(order_batch_id,
blotter1.open_orders[asset][i-1].id)
self.assertEqual(order_id,
blotter2.open_orders[asset][i-1].id)
def test_batch_order_matches_multiple_orders(self):
"""
Ensure the effect of order_batch is the same as multiple calls to
order.
"""
blotter1 = SimulationBlotter(self.sim_params)
blotter2 = SimulationBlotter(self.sim_params)
for i in range(1, 4):
order_arg_lists = [
(self.asset_24, i * 100, MarketOrder()),
(self.asset_25, i * 100, LimitOrder(i * 100 + 1)),
]
order_batch_ids = blotter1.batch_order(order_arg_lists)
order_ids = []
for order_args in order_arg_lists:
order_ids.append(blotter2.order(*order_args))
self.assertEqual(len(order_batch_ids), len(order_ids))
self.assertEqual(len(blotter1.open_orders),
len(blotter2.open_orders))
for (asset, _,
_), order_batch_id, order_id in zip(order_arg_lists,
order_batch_ids,
order_ids):
self.assertEqual(len(blotter1.open_orders[asset]),
len(blotter2.open_orders[asset]))
self.assertEqual(order_batch_id,
blotter1.open_orders[asset][i - 1].id)
self.assertEqual(order_id,
blotter2.open_orders[asset][i - 1].id)
def test_prune_orders(self):
blotter = SimulationBlotter(self.sim_params)
blotter.order(self.asset_24, 100, MarketOrder())
open_order = blotter.open_orders[self.asset_24][0]
blotter.prune_orders([])
self.assertEqual(1, len(blotter.open_orders[self.asset_24]))
blotter.prune_orders([open_order])
self.assertEqual(0, len(blotter.open_orders[self.asset_24]))
# prune an order that isn't in our our open orders list, make sure
# nothing blows up
other_order = Order(dt=blotter.current_dt,
asset=self.asset_25,
amount=1)
blotter.prune_orders([other_order])
def test_blotter_eod_cancellation(self):
blotter = SimulationBlotter(self.sim_params, cancel_policy=EODCancel())
# Make two orders for the same asset, so we can test that we are not
# mutating the orders list as we are cancelling orders
blotter.order(self.asset_24, 100, MarketOrder())
blotter.order(self.asset_24, -100, MarketOrder())
self.assertEqual(len(blotter.new_orders), 2)
order_ids = [order.id for order in blotter.open_orders[self.asset_24]]
self.assertEqual(blotter.new_orders[0].status, ORDER_STATUS.OPEN)
self.assertEqual(blotter.new_orders[1].status, ORDER_STATUS.OPEN)
blotter.execute_cancel_policy(BAR)
self.assertEqual(blotter.new_orders[0].status, ORDER_STATUS.OPEN)
self.assertEqual(blotter.new_orders[1].status, ORDER_STATUS.OPEN)
blotter.execute_cancel_policy(SESSION_END)
for order_id in order_ids:
order = blotter.orders[order_id]
self.assertEqual(order.status, ORDER_STATUS.CANCELLED)
def test_blotter_eod_cancellation(self):
blotter = SimulationBlotter(cancel_policy=EODCancel())
# Make two orders for the same asset, so we can test that we are not
# mutating the orders list as we are cancelling orders
blotter.order(self.asset_24, 100, MarketOrder())
blotter.order(self.asset_24, -100, MarketOrder())
self.assertEqual(len(blotter.new_orders), 2)
order_ids = [order.id for order in blotter.open_orders[self.asset_24]]
self.assertEqual(blotter.new_orders[0].status, ORDER_STATUS.OPEN)
self.assertEqual(blotter.new_orders[1].status, ORDER_STATUS.OPEN)
blotter.execute_cancel_policy(BAR)
self.assertEqual(blotter.new_orders[0].status, ORDER_STATUS.OPEN)
self.assertEqual(blotter.new_orders[1].status, ORDER_STATUS.OPEN)
blotter.execute_cancel_policy(SESSION_END)
for order_id in order_ids:
order = blotter.orders[order_id]
self.assertEqual(order.status, ORDER_STATUS.CANCELLED)
def test_prune_orders(self):
blotter = SimulationBlotter()
blotter.order(self.asset_24, 100, MarketOrder())
open_order = blotter.open_orders[self.asset_24][0]
blotter.prune_orders([])
self.assertEqual(1, len(blotter.open_orders[self.asset_24]))
blotter.prune_orders([open_order])
self.assertEqual(0, len(blotter.open_orders[self.asset_24]))
# prune an order that isn't in our our open orders list, make sure
# nothing blows up
other_order = Order(
dt=blotter.current_dt,
asset=self.asset_25,
amount=1
)
blotter.prune_orders([other_order])
def test_order_hold(self):
"""
Held orders act almost identically to open orders, except for the
status indication. When a fill happens, the order should switch
status to OPEN/FILLED as necessary
"""
blotter = SimulationBlotter(self.sim_params,
equity_slippage=VolumeShareSlippage())
# Nothing happens on held of a non-existent order
blotter.hold(56)
self.assertEqual(blotter.new_orders, [])
open_id = blotter.order(self.asset_24, 100, MarketOrder())
open_order = blotter.open_orders[self.asset_24][0]
self.assertEqual(open_order.id, open_id)
blotter.hold(open_id)
self.assertEqual(len(blotter.new_orders), 1)
self.assertEqual(len(blotter.open_orders[self.asset_24]), 1)
held_order = blotter.new_orders[0]
self.assertEqual(held_order.status, ORDER_STATUS.HELD)
self.assertEqual(held_order.reason, '')
blotter.cancel(held_order.id)
self.assertEqual(len(blotter.new_orders), 1)
self.assertEqual(len(blotter.open_orders[self.asset_24]), 0)
cancelled_order = blotter.new_orders[0]
self.assertEqual(cancelled_order.id, held_order.id)
self.assertEqual(cancelled_order.status, ORDER_STATUS.CANCELLED)
for data in ([100, self.sim_params.sessions[0]],
[400, self.sim_params.sessions[1]]):
# Verify that incoming fills will change the order status.
trade_amt = data[0]
dt = data[1]
order_size = 100
expected_filled = int(trade_amt *
DEFAULT_EQUITY_VOLUME_SLIPPAGE_BAR_LIMIT)
expected_open = order_size - expected_filled
expected_status = ORDER_STATUS.OPEN if expected_open else \
ORDER_STATUS.FILLED
blotter = SimulationBlotter(self.sim_params,
equity_slippage=VolumeShareSlippage())
open_id = blotter.order(self.asset_24, order_size, MarketOrder())
open_order = blotter.open_orders[self.asset_24][0]
self.assertEqual(open_id, open_order.id)
blotter.hold(open_id)
held_order = blotter.new_orders[0]
filled_order = None
blotter.current_dt = dt
bar_data = self.create_bardata(simulation_dt_func=lambda: dt, )
txns, _, _ = blotter.get_transactions(bar_data)
for txn in txns:
filled_order = blotter.orders[txn.order_id]
self.assertEqual(filled_order.id, held_order.id)
self.assertEqual(filled_order.status, expected_status)
self.assertEqual(filled_order.filled, expected_filled)
self.assertEqual(filled_order.open_amount, expected_open)
def test_order_rejection(self):
blotter = SimulationBlotter(self.sim_params)
# Reject a nonexistent order -> no order appears in new_order,
# no exceptions raised out
blotter.reject(56)
self.assertEqual(blotter.new_orders, [])
# Basic tests of open order behavior
open_order_id = blotter.order(self.asset_24, 100, MarketOrder())
second_order_id = blotter.order(self.asset_24, 50, MarketOrder())
self.assertEqual(len(blotter.open_orders[self.asset_24]), 2)
open_order = blotter.open_orders[self.asset_24][0]
self.assertEqual(open_order.status, ORDER_STATUS.OPEN)
self.assertEqual(open_order.id, open_order_id)
self.assertIn(open_order, blotter.new_orders)
# Reject that order immediately (same bar, i.e. still in new_orders)
blotter.reject(open_order_id)
self.assertEqual(len(blotter.new_orders), 2)
self.assertEqual(len(blotter.open_orders[self.asset_24]), 1)
still_open_order = blotter.new_orders[0]
self.assertEqual(still_open_order.id, second_order_id)
self.assertEqual(still_open_order.status, ORDER_STATUS.OPEN)
rejected_order = blotter.new_orders[1]
self.assertEqual(rejected_order.status, ORDER_STATUS.REJECTED)
self.assertEqual(rejected_order.reason, '')
# Do it again, but reject it at a later time (after tradesimulation
# pulls it from new_orders)
blotter = SimulationBlotter(self.sim_params)
new_open_id = blotter.order(self.asset_24, 10, MarketOrder())
new_open_order = blotter.open_orders[self.asset_24][0]
self.assertEqual(new_open_id, new_open_order.id)
# Pretend that the trade simulation did this.
blotter.new_orders = []
rejection_reason = "Not enough cash on hand."
blotter.reject(new_open_id, reason=rejection_reason)
rejected_order = blotter.new_orders[0]
self.assertEqual(rejected_order.id, new_open_id)
self.assertEqual(rejected_order.status, ORDER_STATUS.REJECTED)
self.assertEqual(rejected_order.reason, rejection_reason)
# You can't reject a filled order.
# Reset for paranoia
blotter = SimulationBlotter(self.sim_params)
blotter.slippage_models[Equity] = FixedSlippage()
filled_id = blotter.order(self.asset_24, 100, MarketOrder())
filled_order = None
blotter.current_dt = self.sim_params.sessions[-1]
bar_data = self.create_bardata(
simulation_dt_func=lambda: self.sim_params.sessions[-1], )
txns, _, closed_orders = blotter.get_transactions(bar_data)
for txn in txns:
filled_order = blotter.orders[txn.order_id]
blotter.prune_orders(closed_orders)
self.assertEqual(filled_order.id, filled_id)
self.assertIn(filled_order, blotter.new_orders)
self.assertEqual(filled_order.status, ORDER_STATUS.FILLED)
self.assertNotIn(filled_order, blotter.open_orders[self.asset_24])
blotter.reject(filled_id)
updated_order = blotter.orders[filled_id]
self.assertEqual(updated_order.status, ORDER_STATUS.FILLED)
def test_order_rejection(self):
blotter = SimulationBlotter()
# Reject a nonexistent order -> no order appears in new_order,
# no exceptions raised out
blotter.reject(56)
assert blotter.new_orders == []
# Basic tests of open order behavior
open_order_id = blotter.order(self.asset_24, 100, MarketOrder())
second_order_id = blotter.order(self.asset_24, 50, MarketOrder())
assert len(blotter.open_orders[self.asset_24]) == 2
open_order = blotter.open_orders[self.asset_24][0]
assert open_order.status == ORDER_STATUS.OPEN
assert open_order.id == open_order_id
assert open_order in blotter.new_orders
# Reject that order immediately (same bar, i.e. still in new_orders)
blotter.reject(open_order_id)
assert len(blotter.new_orders) == 2
assert len(blotter.open_orders[self.asset_24]) == 1
still_open_order = blotter.new_orders[0]
assert still_open_order.id == second_order_id
assert still_open_order.status == ORDER_STATUS.OPEN
rejected_order = blotter.new_orders[1]
assert rejected_order.status == ORDER_STATUS.REJECTED
assert rejected_order.reason == ""
# Do it again, but reject it at a later time (after tradesimulation
# pulls it from new_orders)
blotter = SimulationBlotter()
new_open_id = blotter.order(self.asset_24, 10, MarketOrder())
new_open_order = blotter.open_orders[self.asset_24][0]
assert new_open_id == new_open_order.id
# Pretend that the trade simulation did this.
blotter.new_orders = []
rejection_reason = "Not enough cash on hand."
blotter.reject(new_open_id, reason=rejection_reason)
rejected_order = blotter.new_orders[0]
assert rejected_order.id == new_open_id
assert rejected_order.status == ORDER_STATUS.REJECTED
assert rejected_order.reason == rejection_reason
# You can't reject a filled order.
# Reset for paranoia
blotter = SimulationBlotter()
blotter.slippage_models[Equity] = FixedSlippage()
filled_id = blotter.order(self.asset_24, 100, MarketOrder())
filled_order = None
blotter.current_dt = self.sim_params.sessions[-1]
bar_data = self.create_bardata(
simulation_dt_func=lambda: self.sim_params.sessions[-1], )
txns, _, closed_orders = blotter.get_transactions(bar_data)
for txn in txns:
filled_order = blotter.orders[txn.order_id]
blotter.prune_orders(closed_orders)
assert filled_order.id == filled_id
assert filled_order in blotter.new_orders
assert filled_order.status == ORDER_STATUS.FILLED
assert filled_order not in blotter.open_orders[self.asset_24]
blotter.reject(filled_id)
updated_order = blotter.orders[filled_id]
assert updated_order.status == ORDER_STATUS.FILLED
def test_order_hold(self):
"""
Held orders act almost identically to open orders, except for the
status indication. When a fill happens, the order should switch
status to OPEN/FILLED as necessary
"""
blotter = SimulationBlotter(equity_slippage=VolumeShareSlippage())
# Nothing happens on held of a non-existent order
blotter.hold(56)
self.assertEqual(blotter.new_orders, [])
open_id = blotter.order(self.asset_24, 100, MarketOrder())
open_order = blotter.open_orders[self.asset_24][0]
self.assertEqual(open_order.id, open_id)
blotter.hold(open_id)
self.assertEqual(len(blotter.new_orders), 1)
self.assertEqual(len(blotter.open_orders[self.asset_24]), 1)
held_order = blotter.new_orders[0]
self.assertEqual(held_order.status, ORDER_STATUS.HELD)
self.assertEqual(held_order.reason, '')
blotter.cancel(held_order.id)
self.assertEqual(len(blotter.new_orders), 1)
self.assertEqual(len(blotter.open_orders[self.asset_24]), 0)
cancelled_order = blotter.new_orders[0]
self.assertEqual(cancelled_order.id, held_order.id)
self.assertEqual(cancelled_order.status, ORDER_STATUS.CANCELLED)
for data in ([100, self.sim_params.sessions[0]],
[400, self.sim_params.sessions[1]]):
# Verify that incoming fills will change the order status.
trade_amt = data[0]
dt = data[1]
order_size = 100
expected_filled = int(trade_amt *
DEFAULT_EQUITY_VOLUME_SLIPPAGE_BAR_LIMIT)
expected_open = order_size - expected_filled
expected_status = ORDER_STATUS.OPEN if expected_open else \
ORDER_STATUS.FILLED
blotter = SimulationBlotter(equity_slippage=VolumeShareSlippage())
open_id = blotter.order(self.asset_24, order_size, MarketOrder())
open_order = blotter.open_orders[self.asset_24][0]
self.assertEqual(open_id, open_order.id)
blotter.hold(open_id)
held_order = blotter.new_orders[0]
filled_order = None
blotter.current_dt = dt
bar_data = self.create_bardata(
simulation_dt_func=lambda: dt,
)
txns, _, _ = blotter.get_transactions(bar_data)
for txn in txns:
filled_order = blotter.orders[txn.order_id]
self.assertEqual(filled_order.id, held_order.id)
self.assertEqual(filled_order.status, expected_status)
self.assertEqual(filled_order.filled, expected_filled)
self.assertEqual(filled_order.open_amount, expected_open)
def test_order_rejection(self):
blotter = SimulationBlotter()
# Reject a nonexistent order -> no order appears in new_order,
# no exceptions raised out
blotter.reject(56)
self.assertEqual(blotter.new_orders, [])
# Basic tests of open order behavior
open_order_id = blotter.order(self.asset_24, 100, MarketOrder())
second_order_id = blotter.order(self.asset_24, 50, MarketOrder())
self.assertEqual(len(blotter.open_orders[self.asset_24]), 2)
open_order = blotter.open_orders[self.asset_24][0]
self.assertEqual(open_order.status, ORDER_STATUS.OPEN)
self.assertEqual(open_order.id, open_order_id)
self.assertIn(open_order, blotter.new_orders)
# Reject that order immediately (same bar, i.e. still in new_orders)
blotter.reject(open_order_id)
self.assertEqual(len(blotter.new_orders), 2)
self.assertEqual(len(blotter.open_orders[self.asset_24]), 1)
still_open_order = blotter.new_orders[0]
self.assertEqual(still_open_order.id, second_order_id)
self.assertEqual(still_open_order.status, ORDER_STATUS.OPEN)
rejected_order = blotter.new_orders[1]
self.assertEqual(rejected_order.status, ORDER_STATUS.REJECTED)
self.assertEqual(rejected_order.reason, '')
# Do it again, but reject it at a later time (after tradesimulation
# pulls it from new_orders)
blotter = SimulationBlotter()
new_open_id = blotter.order(self.asset_24, 10, MarketOrder())
new_open_order = blotter.open_orders[self.asset_24][0]
self.assertEqual(new_open_id, new_open_order.id)
# Pretend that the trade simulation did this.
blotter.new_orders = []
rejection_reason = "Not enough cash on hand."
blotter.reject(new_open_id, reason=rejection_reason)
rejected_order = blotter.new_orders[0]
self.assertEqual(rejected_order.id, new_open_id)
self.assertEqual(rejected_order.status, ORDER_STATUS.REJECTED)
self.assertEqual(rejected_order.reason, rejection_reason)
# You can't reject a filled order.
# Reset for paranoia
blotter = SimulationBlotter()
blotter.slippage_models[Equity] = FixedSlippage()
filled_id = blotter.order(self.asset_24, 100, MarketOrder())
filled_order = None
blotter.current_dt = self.sim_params.sessions[-1]
bar_data = self.create_bardata(
simulation_dt_func=lambda: self.sim_params.sessions[-1],
)
txns, _, closed_orders = blotter.get_transactions(bar_data)
for txn in txns:
filled_order = blotter.orders[txn.order_id]
blotter.prune_orders(closed_orders)
self.assertEqual(filled_order.id, filled_id)
self.assertIn(filled_order, blotter.new_orders)
self.assertEqual(filled_order.status, ORDER_STATUS.FILLED)
self.assertNotIn(filled_order, blotter.open_orders[self.asset_24])
blotter.reject(filled_id)
updated_order = blotter.orders[filled_id]
self.assertEqual(updated_order.status, ORDER_STATUS.FILLED)