balance_store.fetch_balances(tag="foo")
self.assertEqual(0, balance_store.all["ETC"].total)
self.assertListEqual(["USDT", "XVG", "XMR", "ETC"], list(balance_store.currencies()))
- self.m.report.log_balances.assert_called_with(tag="foo")
+ self.m.report.log_balances.assert_called_with(tag="foo", checkpoint=None)
with self.subTest(log_tickers=True),\
mock.patch.object(balance_store, "in_currency") as in_currency:
balance_store.fetch_balances(log_tickers=True, ticker_currency="FOO",
ticker_compute_value="compute", ticker_type="type")
self.m.report.log_balances.assert_called_with(compute_value='compute',
- tag=None, ticker_currency='FOO', tickers='tickers',
+ tag=None, checkpoint=None, ticker_currency='FOO', tickers='tickers',
type='type')
+ balance_store = market.BalanceStore(self.m)
+ with self.subTest(add_portfolio=True),\
+ mock.patch.object(market.Portfolio, "repartition") as repartition:
+ repartition.return_value = {
+ "DOGE": D("0.5"),
+ "USDT": D("0.5"),
+ }
+ balance_store.fetch_balances(add_portfolio=True)
+ self.assertListEqual(["USDT", "XVG", "XMR", "DOGE"], list(balance_store.currencies()))
+
+ self.m.ccxt.fetch_all_balances.return_value = {
+ "ETC": {
+ "exchange_free": 0,
+ "exchange_used": 0,
+ "exchange_total": 0,
+ "margin_total": 0,
+ },
+ "XVG": {
+ "exchange_free": 16,
+ "exchange_used": 0,
+ "exchange_total": 16,
+ "margin_total": 0,
+ },
+ "XMR": {
+ "exchange_free": 0,
+ "exchange_used": 0,
+ "exchange_total": 0,
+ "margin_total": D("-1.0"),
+ "margin_free": 0,
+ },
+ }
+
+ balance_store = market.BalanceStore(self.m)
+ with self.subTest(add_usdt=True),\
+ mock.patch.object(market.Portfolio, "repartition") as repartition:
+ repartition.return_value = {
+ "DOGE": D("0.5"),
+ "ETH": D("0.5"),
+ }
+ balance_store.fetch_balances(add_usdt=True)
+ self.assertListEqual(["XVG", "XMR", "USDT"], list(balance_store.currencies()))
+
+ @mock.patch.object(market.Portfolio, "repartition")
+ def test_available_balances_for_repartition(self, repartition):
+ with self.subTest(available_balance_only=True):
+ def _get_ticker(c1, c2):
+ if c1 == "ZRC" and c2 == "BTC":
+ return { "average": D("0.0001") }
+ if c1 == "DOGE" and c2 == "BTC":
+ 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))
+ self.m.get_ticker.side_effect = _get_ticker
+
+ repartition.return_value = {
+ "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"),
+ }
+ self.m.ccxt.fetch_all_balances.return_value = {
+ "ZRC": {
+ "exchange_free": D("2.0"),
+ "exchange_used": D("0.0"),
+ "exchange_total": D("2.0"),
+ "total": D("2.0")
+ },
+ "DOGE": {
+ "exchange_free": D("5.0"),
+ "exchange_used": D("0.0"),
+ "exchange_total": D("5.0"),
+ "total": D("5.0")
+ },
+ "BTC": {
+ "exchange_free": D("0.065"),
+ "exchange_used": D("0.02"),
+ "exchange_total": D("0.085"),
+ "margin_available": D("0.035"),
+ "margin_in_position": D("0.01"),
+ "margin_total": D("0.045"),
+ "total": D("0.13")
+ },
+ "ETH": {
+ "exchange_free": D("1.0"),
+ "exchange_used": D("0.0"),
+ "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"),
+ },
+ }
+
+ balance_store = market.BalanceStore(self.m)
+ balance_store.fetch_balances()
+ _repartition, total_base_value, amount_in_position = balance_store.available_balances_for_repartition()
+ repartition.assert_called_with(liquidity="medium")
+ self.assertEqual((D("0.20"), "short"), _repartition["DOGE"])
+ self.assertEqual((D("0.20"), "long"), _repartition["BTC"])
+ self.assertEqual((D("0.20"), "long"), _repartition["XMR"])
+ self.assertEqual((D("0.20"), "long"), _repartition["FOO"])
+ self.assertIsNone(_repartition.get("ETH"))
+ self.assertEqual(portfolio.Amount("BTC", "0.1"), total_base_value)
+ self.assertEqual(0, amount_in_position["DOGE"])
+ self.assertEqual(0, amount_in_position["BTC"])
+ self.assertEqual(0, amount_in_position["XMR"])
+ self.assertEqual(portfolio.Amount("BTC", "0.1"), amount_in_position["ETH"])
+ self.assertEqual(portfolio.Amount("BTC", "0.01"), amount_in_position["FOO"])
+
+ with self.subTest(available_balance_only=True, balance=0):
+ def _get_ticker(c1, c2):
+ if c1 == "ETH" and c2 == "BTC":
+ return { "average": D("0.1") }
+ self.fail("Should not be called with {}, {}".format(c1, c2))
+ self.m.get_ticker.side_effect = _get_ticker
+
+ repartition.return_value = {
+ "BTC": (D("0.5"), "long"),
+ "ETH": (D("0.5"), "long"),
+ }
+ self.m.ccxt.fetch_all_balances.return_value = {
+ "ETH": {
+ "exchange_free": D("1.0"),
+ "exchange_used": D("0.0"),
+ "exchange_total": D("1.0"),
+ "total": D("1.0")
+ },
+ }
+
+ balance_store = market.BalanceStore(self.m)
+ balance_store.fetch_balances()
+ _repartition, total_base_value, amount_in_position = balance_store.available_balances_for_repartition(liquidity="high")
+
+ repartition.assert_called_with(liquidity="high")
+ self.assertEqual((D("0.5"), "long"), _repartition["BTC"])
+ self.assertIsNone(_repartition.get("ETH"))
+ self.assertEqual(0, total_base_value)
+ self.assertEqual(0, amount_in_position["BTC"])
+ self.assertEqual(0, amount_in_position["BTC"])
+
+ repartition.reset_mock()
+ with self.subTest(available_balance_only=True, balance=0,
+ repartition="present"):
+ def _get_ticker(c1, c2):
+ if c1 == "ETH" and c2 == "BTC":
+ return { "average": D("0.1") }
+ self.fail("Should not be called with {}, {}".format(c1, c2))
+ self.m.get_ticker.side_effect = _get_ticker
+
+ _repartition = {
+ "BTC": (D("0.5"), "long"),
+ "ETH": (D("0.5"), "long"),
+ }
+ self.m.ccxt.fetch_all_balances.return_value = {
+ "ETH": {
+ "exchange_free": D("1.0"),
+ "exchange_used": D("0.0"),
+ "exchange_total": D("1.0"),
+ "total": D("1.0")
+ },
+ }
+
+ balance_store = market.BalanceStore(self.m)
+ balance_store.fetch_balances()
+ _repartition, total_base_value, amount_in_position = balance_store.available_balances_for_repartition(repartition=_repartition)
+ repartition.assert_not_called()
+
+ self.assertEqual((D("0.5"), "long"), _repartition["BTC"])
+ self.assertIsNone(_repartition.get("ETH"))
+ self.assertEqual(0, total_base_value)
+ self.assertEqual(0, amount_in_position["BTC"])
+ self.assertEqual(portfolio.Amount("BTC", "0.1"), amount_in_position["ETH"])
+
+ repartition.reset_mock()
+ with self.subTest(available_balance_only=True, balance=0,
+ repartition="present", base_currency="ETH"):
+ def _get_ticker(c1, c2):
+ if c1 == "ETH" and c2 == "BTC":
+ return { "average": D("0.1") }
+ self.fail("Should not be called with {}, {}".format(c1, c2))
+ self.m.get_ticker.side_effect = _get_ticker
+
+ _repartition = {
+ "BTC": (D("0.5"), "long"),
+ "ETH": (D("0.5"), "long"),
+ }
+ self.m.ccxt.fetch_all_balances.return_value = {
+ "ETH": {
+ "exchange_free": D("1.0"),
+ "exchange_used": D("0.0"),
+ "exchange_total": D("1.0"),
+ "total": D("1.0")
+ },
+ }
+
+ balance_store = market.BalanceStore(self.m)
+ balance_store.fetch_balances()
+ _repartition, total_base_value, amount_in_position = balance_store.available_balances_for_repartition(repartition=_repartition, base_currency="ETH")
+
+ self.assertEqual((D("0.5"), "long"), _repartition["BTC"])
+ self.assertEqual((D("0.5"), "long"), _repartition["ETH"])
+ self.assertEqual(portfolio.Amount("ETH", 1), total_base_value)
+ self.assertEqual(0, amount_in_position["BTC"])
+ self.assertEqual(0, amount_in_position["ETH"])
+
@mock.patch.object(market.Portfolio, "repartition")
def test_dispatch_assets(self, repartition):
self.m.ccxt.fetch_all_balances.return_value = self.fetch_balance
self.assertEqual(D("2.6"), amounts["BTC"].value)
self.assertEqual(D("7.5"), amounts["XEM"].value)
self.assertEqual(D("-1.0"), amounts["DASH"].value)
- self.m.report.log_balances.assert_called_with(tag=None)
+ self.m.report.log_balances.assert_called_with(tag=None, checkpoint=None)
self.m.report.log_dispatch.assert_called_once_with(portfolio.Amount("BTC",
"11.1"), amounts, "medium", repartition_hash)
])
add_log.assert_called_once_with({
'type': 'balance',
+ 'checkpoint': None,
'balances': 'json',
'tag': 'tag'
})
add_redis_status.assert_called_once_with({
'type': 'balance',
'balances': 'json',
+ 'checkpoint': None,
'tag': 'tag'
})
add_log.reset_mock()
type="total")
add_log.assert_called_once_with({
'type': 'balance',
+ 'checkpoint': None,
'balances': 'json',
'tag': 'tag',
'tickers': {
})
add_redis_status.assert_called_once_with({
'type': 'balance',
+ 'checkpoint': None,
'balances': 'json',
'tag': 'tag',
'tickers': {
self.wm.get(market.Portfolio.URL, text=self.json_response)
@mock.patch.object(market.Portfolio, "parse_cryptoportfolio")
- def test_get_cryptoportfolio(self, parse_cryptoportfolio):
+ @mock.patch.object(market.Portfolio, "store_cryptoportfolio")
+ def test_get_cryptoportfolio(self, store_cryptoportfolio, parse_cryptoportfolio):
with self.subTest(parallel=False):
self.wm.get(market.Portfolio.URL, [
{"text":'{ "foo": "bar" }', "status_code": 200},
market.Portfolio.report.log_error.assert_not_called()
market.Portfolio.report.log_http_request.assert_called_once()
parse_cryptoportfolio.assert_called_once_with()
+ store_cryptoportfolio.assert_called_once_with()
market.Portfolio.report.log_http_request.reset_mock()
parse_cryptoportfolio.reset_mock()
+ store_cryptoportfolio.reset_mock()
market.Portfolio.data = store.LockedVar(None)
market.Portfolio.get_cryptoportfolio()
self.assertIsNone(market.Portfolio.data.get())
self.assertEqual(2, self.wm.call_count)
parse_cryptoportfolio.assert_not_called()
+ store_cryptoportfolio.assert_not_called()
market.Portfolio.report.log_error.assert_not_called()
market.Portfolio.report.log_http_request.assert_called_once()
market.Portfolio.report.log_http_request.reset_mock()
parse_cryptoportfolio.reset_mock()
+ store_cryptoportfolio.reset_mock()
market.Portfolio.data = store.LockedVar("Foo")
market.Portfolio.get_cryptoportfolio()
self.assertEqual(2, self.wm.call_count)
parse_cryptoportfolio.assert_not_called()
+ store_cryptoportfolio.assert_not_called()
market.Portfolio.get_cryptoportfolio(refetch=True)
self.assertEqual("Foo", market.Portfolio.data.get())
market.Portfolio.get_cryptoportfolio()
self.assertIn("foo", market.Portfolio.data.get())
parse_cryptoportfolio.reset_mock()
+ store_cryptoportfolio.reset_mock()
with self.subTest(worker=False):
market.Portfolio.data = store.LockedVar(None)
market.Portfolio.worker = mock.Mock()
market.Portfolio.get_cryptoportfolio()
notify.assert_called_once_with()
parse_cryptoportfolio.assert_not_called()
+ store_cryptoportfolio.assert_not_called()
def test_parse_cryptoportfolio(self):
with self.subTest(description="Normal case"):
self.assertEqual({}, market.Portfolio.liquidities.get("high"))
self.assertEqual(datetime.datetime(1,1,1), market.Portfolio.last_date.get())
-
- @mock.patch.object(market.Portfolio, "get_cryptoportfolio")
- def test_repartition(self, get_cryptoportfolio):
- market.Portfolio.liquidities = store.LockedVar({
+ @mock.patch.object(store.dbs, "redis_connected")
+ @mock.patch.object(store.dbs, "redis")
+ def test_store_cryptoportfolio(self, redis, redis_connected):
+ store.Portfolio.liquidities = store.LockedVar({
"medium": {
- "2018-03-01": "medium_2018-03-01",
- "2018-03-08": "medium_2018-03-08",
+ datetime.datetime(2018,3,1): "medium_2018-03-01",
+ datetime.datetime(2018,3,8): "medium_2018-03-08",
},
"high": {
- "2018-03-01": "high_2018-03-01",
- "2018-03-08": "high_2018-03-08",
+ datetime.datetime(2018,3,1): "high_2018-03-01",
+ datetime.datetime(2018,3,8): "high_2018-03-08",
}
})
- market.Portfolio.last_date = store.LockedVar("2018-03-08")
+ store.Portfolio.last_date = store.LockedVar(datetime.datetime(2018,3,8))
+
+ with self.subTest(redis_connected=False):
+ redis_connected.return_value = False
+ store.Portfolio.store_cryptoportfolio()
+ redis.set.assert_not_called()
+
+ with self.subTest(redis_connected=True):
+ redis_connected.return_value = True
+ store.Portfolio.store_cryptoportfolio()
+ redis.set.assert_has_calls([
+ mock.call("/cryptoportfolio/repartition/latest", '{"medium": "medium_2018-03-08", "high": "high_2018-03-08"}'),
+ mock.call("/cryptoportfolio/repartition/date", "2018-03-08"),
+ ])
+
+ @mock.patch.object(store.dbs, "redis_connected")
+ @mock.patch.object(store.dbs, "redis")
+ def test_retrieve_cryptoportfolio(self, redis, redis_connected):
+ with self.subTest(redis_connected=False):
+ redis_connected.return_value = False
+ store.Portfolio.retrieve_cryptoportfolio()
+ redis.get.assert_not_called()
+ self.assertIsNone(store.Portfolio.data.get())
+
+ with self.subTest(redis_connected=True, value=None):
+ redis_connected.return_value = True
+ redis.get.return_value = None
+ store.Portfolio.retrieve_cryptoportfolio()
+ self.assertEqual(2, redis.get.call_count)
+
+ redis.reset_mock()
+ with self.subTest(redis_connected=True, value="present"):
+ redis_connected.return_value = True
+ redis.get.side_effect = [
+ b'{ "medium": "medium_repartition", "high": "high_repartition" }',
+ b"2018-03-08"
+ ]
+ store.Portfolio.retrieve_cryptoportfolio()
+ self.assertEqual(2, redis.get.call_count)
+ self.assertEqual(datetime.datetime(2018,3,8), store.Portfolio.last_date.get())
+ self.assertEqual("", store.Portfolio.data.get())
+ expected_liquidities = {
+ 'high': { datetime.datetime(2018, 3, 8): 'high_repartition' },
+ 'medium': { datetime.datetime(2018, 3, 8): 'medium_repartition' },
+ }
+ self.assertEqual(expected_liquidities, store.Portfolio.liquidities.get())
+
+ @mock.patch.object(market.Portfolio, "get_cryptoportfolio")
+ @mock.patch.object(market.Portfolio, "retrieve_cryptoportfolio")
+ def test_repartition(self, retrieve_cryptoportfolio, get_cryptoportfolio):
+ with self.subTest(from_cache=False):
+ market.Portfolio.liquidities = store.LockedVar({
+ "medium": {
+ "2018-03-01": ["medium_2018-03-01"],
+ "2018-03-08": ["medium_2018-03-08"],
+ },
+ "high": {
+ "2018-03-01": ["high_2018-03-01"],
+ "2018-03-08": ["high_2018-03-08"],
+ }
+ })
+ market.Portfolio.last_date = store.LockedVar("2018-03-08")
+
+ self.assertEqual(["medium_2018-03-08"], market.Portfolio.repartition())
+ get_cryptoportfolio.assert_called_once_with()
+ retrieve_cryptoportfolio.assert_not_called()
+ self.assertEqual(["medium_2018-03-08"], market.Portfolio.repartition(liquidity="medium"))
+ self.assertEqual(["high_2018-03-08"], market.Portfolio.repartition(liquidity="high"))
+
+ retrieve_cryptoportfolio.reset_mock()
+ get_cryptoportfolio.reset_mock()
+
+ with self.subTest(from_cache=True):
+ self.assertEqual(["medium_2018-03-08"], market.Portfolio.repartition(from_cache=True))
+ get_cryptoportfolio.assert_called_once_with()
+ retrieve_cryptoportfolio.assert_called_once_with()
+
+ retrieve_cryptoportfolio.reset_mock()
+ get_cryptoportfolio.reset_mock()
+
+ with self.subTest("absent liquidities"):
+ market.Portfolio.last_date = store.LockedVar("2018-03-15")
+ self.assertIsNone(market.Portfolio.repartition())
- self.assertEqual("medium_2018-03-08", market.Portfolio.repartition())
- get_cryptoportfolio.assert_called_once_with()
- self.assertEqual("medium_2018-03-08", market.Portfolio.repartition(liquidity="medium"))
- self.assertEqual("high_2018-03-08", market.Portfolio.repartition(liquidity="high"))
+ with self.subTest("no liquidities"):
+ market.Portfolio.liquidities = store.LockedVar({})
+ market.Portfolio.last_date = store.LockedVar("2018-03-08")
+ self.assertIsNone(market.Portfolio.repartition())
@mock.patch.object(market.time, "sleep")
@mock.patch.object(market.Portfolio, "get_cryptoportfolio")