base_currency='BTC', compute_value='average',
available_balance_only=False, liquidity='medium',
only=None, repartition=None)
- m.report.log_balances.assert_called_once_with(tag="tag")
+ m.report.log_balances.assert_called_once_with(tag="tag", checkpoint=None)
compute_trades.reset_mock()
with self.subTest(available_balance_only=True),\
return { "average": D("0.000001") }
if c1 == "ETH" and c2 == "BTC":
return { "average": D("0.1") }
+ if c1 == "FOO" and c2 == "BTC":
+ return { "average": D("0.1") }
self.fail("Should not be called with {}, {}".format(c1, c2))
get_ticker.side_effect = _get_ticker
repartition.return_value = {
- "DOGE": (D("0.25"), "short"),
- "BTC": (D("0.25"), "long"),
- "ETH": (D("0.25"), "long"),
- "XMR": (D("0.25"), "long"),
+ "DOGE": (D("0.20"), "short"),
+ "BTC": (D("0.20"), "long"),
+ "ETH": (D("0.20"), "long"),
+ "XMR": (D("0.20"), "long"),
+ "FOO": (D("0.20"), "long"),
}
m = market.Market(self.ccxt, self.market_args())
self.ccxt.fetch_all_balances.return_value = {
"total": D("5.0")
},
"BTC": {
- "exchange_free": D("0.075"),
+ "exchange_free": D("0.065"),
"exchange_used": D("0.02"),
- "exchange_total": D("0.095"),
- "margin_available": D("0.025"),
+ "exchange_total": D("0.085"),
+ "margin_available": D("0.035"),
"margin_in_position": D("0.01"),
- "margin_total": D("0.035"),
+ "margin_total": D("0.045"),
"total": D("0.13")
},
"ETH": {
"exchange_total": D("1.0"),
"total": D("1.0")
},
+ "FOO": {
+ "exchange_free": D("0.1"),
+ "exchange_used": D("0.0"),
+ "exchange_total": D("0.1"),
+ "total": D("0.1"),
+ },
}
m.balances.fetch_balances(tag="tag")
self.assertEqual(portfolio.Amount("BTC", "-0.025"),
new_repartition["DOGE"] - values_in_base["DOGE"])
- self.assertEqual(portfolio.Amount("BTC", "0.025"),
- new_repartition["ETH"] - values_in_base["ETH"])
self.assertEqual(0,
- new_repartition["ZRC"] - values_in_base["ZRC"])
+ new_repartition["ETH"] - values_in_base["ETH"])
+ self.assertIsNone(new_repartition.get("ZRC"))
self.assertEqual(portfolio.Amount("BTC", "0.025"),
new_repartition["XMR"])
+ self.assertEqual(portfolio.Amount("BTC", "0.015"),
+ new_repartition["FOO"] - values_in_base["FOO"])
compute_trades.reset_mock()
with self.subTest(available_balance_only=True, balance=0),\
order_mock2.trade = trade_mock
trade_mock.tick_actions_recreate.return_value = "tick1"
+ new_order_mock = mock.Mock()
+ trade_mock.prepare_order.return_value = new_order_mock
+
+ m.follow_orders()
+
+ trade_mock.tick_actions_recreate.assert_called_once_with(2)
+ trade_mock.prepare_order.assert_called_once_with(compute_value="tick1")
+ m.report.log_error.assert_called_once_with("follow_orders", message=mock.ANY)
+ m.report.log_order.assert_called_with(order_mock2, 2, new_order=new_order_mock)
+ new_order_mock.run.assert_called_once_with()
+
+ with self.subTest("disappearing order no action to do"), \
+ mock.patch("market.ReportStore"):
+ all_orders.reset_mock()
+ m = market.Market(self.ccxt, self.market_args())
+
+ order_mock1 = mock.Mock()
+ order_mock2 = mock.Mock()
+ all_orders.side_effect = [
+ [order_mock1, order_mock2],
+ [order_mock1, order_mock2],
+
+ [order_mock1, order_mock2],
+ [order_mock1, order_mock2],
+
+ []
+ ]
+
+ order_mock1.get_status.side_effect = ["open", "closed"]
+ order_mock2.get_status.side_effect = ["open", "error_disappeared"]
+
+ order_mock1.trade = mock.Mock()
+ trade_mock = mock.Mock()
+ order_mock2.trade = trade_mock
+
+ trade_mock.tick_actions_recreate.return_value = "tick1"
+ trade_mock.prepare_order.return_value = None
m.follow_orders()
trade_mock.tick_actions_recreate.assert_called_once_with(2)
trade_mock.prepare_order.assert_called_once_with(compute_value="tick1")
m.report.log_error.assert_called_once_with("follow_orders", message=mock.ANY)
+ m.report.log_order.assert_called_with(order_mock2, 2, finished=True)
@mock.patch.object(market.BalanceStore, "fetch_balances")
def test_move_balance(self, fetch_balances):
@mock.patch("market.ReportStore.log_error")
@mock.patch("market.Market.store_report")
def test_process(self, store_report, log_error, process):
- m = market.Market(self.ccxt, self.market_args())
+ m = market.Market(self.ccxt, self.market_args(), options={"foo": "bar"})
with self.subTest(actions=[], before=False, after=False):
m.process([])
with self.subTest(before=True, after=False):
m.process(["foo"], before=True)
- process.assert_called_once_with("foo", steps="before")
+ process.assert_called_once_with("foo", options={"foo": "bar"}, steps="before")
store_report.assert_called_once()
log_error.assert_not_called()
with self.subTest(before=False, after=True):
m.process(["sell_all"], after=True)
- process.assert_called_once_with("sell_all", steps="after")
+ process.assert_called_once_with("sell_all", options={"foo": "bar"}, steps="after")
store_report.assert_called_once()
log_error.assert_not_called()
with self.subTest(before=False, after=False):
m.process(["foo"])
- process.assert_called_once_with("foo", steps="all")
+ process.assert_called_once_with("foo", options={"foo": "bar"}, steps="all")
store_report.assert_called_once()
log_error.assert_not_called()
with self.subTest(before=True, after=True):
m.process(["sell_all"], before=True, after=True)
- process.assert_called_once_with("sell_all", steps="all")
+ process.assert_called_once_with("sell_all", options={"foo": "bar"}, steps="all")
store_report.assert_called_once()
log_error.assert_not_called()
+ process.reset_mock()
+ log_error.reset_mock()
+ store_report.reset_mock()
+ with self.subTest(authentication_error=True):
+ m.ccxt.check_required_credentials.side_effect = market.ccxt.AuthenticationError
+
+ m.process(["some_action"], before=True)
+ log_error.assert_called_with("market_authentication", message="Impossible to authenticate to market")
+ store_report.assert_called_once()
+
+ m.ccxt.check_required_credentials.side_effect = True
process.reset_mock()
log_error.reset_mock()
store_report.reset_mock()
process.side_effect = Exception("bouh")
m.process(["some_action"], before=True)
- log_error.assert_called_with("market_process", exception=mock.ANY)
+ log_error.assert_called_with("market_process", exception=mock.ANY, message=mock.ANY)
store_report.assert_called_once()
with self.subTest("nominal case"):
processor = market.Processor(self.m)
- processor.process("sell_all", foo="bar")
+ processor.process("sell_all", options="bar")
self.assertEqual(3, process_step.call_count)
steps = list(map(lambda x: x[1][1]["name"], process_step.mock_calls))
kwargs = list(map(lambda x: x[1][2], process_step.mock_calls))
self.assertEqual(["all_sell", "wait", "all_buy"], steps)
self.assertEqual(["sell_all", "sell_all", "sell_all"], scenario_names)
- self.assertEqual([{"foo":"bar"}, {"foo":"bar"}, {"foo":"bar"}], kwargs)
+ self.assertEqual(["bar", "bar", "bar"], kwargs)
process_step.reset_mock()
processor.process("sell_needed", steps=["before", "after"])
- self.assertEqual(3, process_step.call_count)
+ self.assertEqual(4, process_step.call_count)
def test_method_arguments(self):
ccxt = mock.Mock(spec=market.ccxt.poloniexE)
method, arguments = processor.method_arguments("wait_for_recent")
self.assertEqual(market.Portfolio.wait_for_recent, method)
- self.assertEqual(["delta", "poll"], arguments)
+ self.assertEqual(["delta"], arguments)
method, arguments = processor.method_arguments("prepare_trades")
self.assertEqual(m.prepare_trades, method)
method, arguments = processor.method_arguments("print_tickers")
self.assertEqual(m.print_tickers, method)
+ method, arguments = processor.method_arguments("fetch_balances")
+ self.assertEqual(m.balances.fetch_balances, method)
+
def test_process_step(self):
processor = market.Processor(self.m)
with mock.patch.object(processor, "run_action") as run_action:
- step = processor.scenarios["sell_needed"][1]
+ step = processor.scenarios["sell_needed"][2]
processor.process_step("foo", step, {"foo":"bar"})
self.m.report.log_stage.assert_has_calls([
- mock.call("process_foo__1_sell_begin"),
- mock.call("process_foo__1_sell_end"),
- ])
- self.m.balances.fetch_balances.assert_has_calls([
- mock.call(tag="process_foo__1_sell_begin", log_tickers=True),
- mock.call(tag="process_foo__1_sell_end", log_tickers=True),
+ mock.call("process_foo__2_sell_begin"),
+ mock.call("process_foo__2_sell_end"),
])
- self.assertEqual(5, run_action.call_count)
+ self.assertEqual(7, run_action.call_count)
run_action.assert_has_calls([
+ mock.call('fetch_balances', {}, {'foo': 'bar', 'tag': 'process_foo__2_sell_begin'}),
mock.call('prepare_trades', {}, {'foo': 'bar'}),
mock.call('prepare_orders', {'only': 'dispose', 'compute_value': 'average'}, {'foo': 'bar'}),
mock.call('run_orders', {}, {'foo': 'bar'}),
mock.call('follow_orders', {}, {'foo': 'bar'}),
mock.call('close_trades', {}, {'foo': 'bar'}),
+ mock.call('fetch_balances', {}, {'foo': 'bar', 'tag': 'process_foo__2_sell_end'}),
])
self.m.reset_mock()
step = processor.scenarios["sell_needed"][0]
processor.process_step("foo", step, {"foo":"bar"})
- self.m.balances.fetch_balances.assert_not_called()
+
+ self.m.report.log_stage.assert_has_calls([
+ mock.call("process_foo__0_print_balances_begin"),
+ mock.call("process_foo__0_print_balances_end"),
+ ])
+
+ self.assertEqual(1, run_action.call_count)
+ run_action.assert_has_calls([
+ mock.call('fetch_balances',
+ {'checkpoint': 'end', 'log_tickers': True, 'add_usdt': True, 'add_portfolio': True},
+ {'foo': 'bar', 'tag': 'process_foo__0_print_balances_begin'}),
+ ])
+
+ self.m.reset_mock()
+ with mock.patch.object(processor, "run_action") as run_action:
+ step = processor.scenarios["sell_needed"][1]
+
+ processor.process_step("foo", step, {"foo":"bar"})
+ self.assertEqual(1, run_action.call_count)
self.m.reset_mock()
with mock.patch.object(processor, "run_action") as run_action:
step = processor.scenarios["print_balances"][0]
processor.process_step("foo", step, {"foo":"bar"})
- self.m.balances.fetch_balances.assert_called_once_with(
- add_portfolio=True, log_tickers=True,
- tag='process_foo__1_print_balances_begin')
+ run_action.assert_has_calls([
+ mock.call('fetch_balances',
+ {'log_tickers': True, 'add_usdt': True, 'add_portfolio': True},
+ {'foo': 'bar', 'tag': 'process_foo__1_print_balances_begin'}),
+ ])
def test_parse_args(self):
processor = market.Processor(self.m)