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Put the first 2 margin tests back in

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Sam Germain 2021-06-27 05:05:24 -06:00
parent 26fb904512
commit 5d280b70cb
1 changed files with 142 additions and 141 deletions
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tests/test_persistence_margin.py
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@ -12,153 +12,154 @@ from freqtrade.persistence import LocalTrade, Order, Trade, clean_dry_run_db, in
from tests.conftest import create_mock_trades, log_has, log_has_re from tests.conftest import create_mock_trades, log_has, log_has_re
# @pytest.mark.usefixtures("init_persistence") @pytest.mark.usefixtures("init_persistence")
# def test_update_with_binance(limit_short_order, limit_exit_short_order, fee, ten_minutes_ago, caplog): def test_update_with_binance(limit_short_order, limit_exit_short_order, fee, ten_minutes_ago, caplog):
# """ """
# On this test we will short and buy back(exit short) a crypto currency at 1x leverage On this test we will short and buy back(exit short) a crypto currency at 1x leverage
# Short trade Short trade
# fee: 0.25% base fee: 0.25% base
# interest_rate: 0.05% per day interest_rate: 0.05% per day
# open_rate: 0.00001173 base open_rate: 0.00001173 base
# close_rate: 0.00001099 base close_rate: 0.00001099 base
# amount: 90.99181073 crypto amount: 90.99181073 crypto
# borrowed: 90.99181073 crypto borrowed: 90.99181073 crypto
# time-periods: 10 minutes(rounds up to 1/24 time-period of 1 day) time-periods: 10 minutes(rounds up to 1/24 time-period of 1 day)
# interest: borrowed * interest_rate * time-periods interest: borrowed * interest_rate * time-periods
# = 90.99181073 * 0.0005 * 1/24 = 0.0018956627235416667 crypto = 90.99181073 * 0.0005 * 1/24 = 0.0018956627235416667 crypto
# open_value: (amount * open_rate) - (amount * open_rate * fee) open_value: (amount * open_rate) - (amount * open_rate * fee)
# = 90.99181073 * 0.00001173 - 90.99181073 * 0.00001173 * 0.0025 = 90.99181073 * 0.00001173 - 90.99181073 * 0.00001173 * 0.0025
# = 0.0010646656050132426 = 0.0010646656050132426
# amount_closed: amount + interest = 90.99181073 + 0.0018956627235416667 = 90.99370639272354 amount_closed: amount + interest = 90.99181073 + 0.0018956627235416667 = 90.99370639272354
# close_value: (amount_closed * close_rate) + (amount_closed * close_rate * fee) close_value: (amount_closed * close_rate) + (amount_closed * close_rate * fee)
# = (90.99370639272354 * 0.00001099) + (90.99370639272354 * 0.00001099 * 0.0025) = (90.99370639272354 * 0.00001099) + (90.99370639272354 * 0.00001099 * 0.0025)
# = 0.0010025208853391716 = 0.0010025208853391716
# total_profit = open_value - close_value total_profit = open_value - close_value
# = 0.0010646656050132426 - 0.0010025208853391716 = 0.0010646656050132426 - 0.0010025208853391716
# = 0.00006214471967407108 = 0.00006214471967407108
# total_profit_percentage = (open_value/close_value) - 1 total_profit_percentage = (open_value/close_value) - 1
# = (0.0010646656050132426/0.0010025208853391716)-1 = (0.0010646656050132426/0.0010025208853391716)-1
# = 0.06198845388946328 = 0.06198845388946328
# """ """
# trade = Trade( trade = Trade(
# id=2, id=2,
# pair='ETH/BTC', pair='ETH/BTC',
# stake_amount=0.001, stake_amount=0.001,
# open_rate=0.01, open_rate=0.01,
# amount=5, amount=5,
# is_open=True, is_open=True,
# open_date=ten_minutes_ago, open_date=ten_minutes_ago,
# fee_open=fee.return_value, fee_open=fee.return_value,
# fee_close=fee.return_value, fee_close=fee.return_value,
# # borrowed=90.99181073, # borrowed=90.99181073,
# exchange='binance' exchange='binance'
# ) )
# #assert trade.open_order_id is None #assert trade.open_order_id is None
# assert trade.close_profit is None assert trade.close_profit is None
# assert trade.close_date is None assert trade.close_date is None
# assert trade.borrowed is None assert trade.borrowed is None
# assert trade.is_short is None assert trade.is_short is None
# #trade.open_order_id = 'something' #trade.open_order_id = 'something'
# trade.update(limit_short_order) trade.update(limit_short_order)
# #assert trade.open_order_id is None #assert trade.open_order_id is None
# assert trade.open_rate == 0.00001173 assert trade.open_rate == 0.00001173
# assert trade.close_profit is None assert trade.close_profit is None
# assert trade.close_date is None assert trade.close_date is None
# assert trade.borrowed == 90.99181073 assert trade.borrowed == 90.99181073
# assert trade.is_short is True assert trade.is_short is True
# assert log_has_re(r"LIMIT_SELL has been fulfilled for Trade\(id=2, " assert log_has_re(r"LIMIT_SELL has been fulfilled for Trade\(id=2, "
# r"pair=ETH/BTC, amount=90.99181073, open_rate=0.00001173, open_since=.*\).", r"pair=ETH/BTC, amount=90.99181073, open_rate=0.00001173, open_since=.*\).",
# caplog) caplog)
# caplog.clear() caplog.clear()
# #trade.open_order_id = 'something' #trade.open_order_id = 'something'
# trade.update(limit_exit_short_order) trade.update(limit_exit_short_order)
# #assert trade.open_order_id is None #assert trade.open_order_id is None
# assert trade.close_rate == 0.00001099 assert trade.close_rate == 0.00001099
# assert trade.close_profit == 0.06198845 assert trade.close_profit == 0.06198845
# assert trade.close_date is not None assert trade.close_date is not None
# assert log_has_re(r"LIMIT_BUY has been fulfilled for Trade\(id=2, " assert log_has_re(r"LIMIT_BUY has been fulfilled for Trade\(id=2, "
# r"pair=ETH/BTC, amount=90.99181073, open_rate=0.00001173, open_since=.*\).", r"pair=ETH/BTC, amount=90.99181073, open_rate=0.00001173, open_since=.*\).",
# caplog) caplog)
# @pytest.mark.usefixtures("init_persistence") @pytest.mark.usefixtures("init_persistence")
# def test_update_market_order( def test_update_market_order(
# market_short_order, market_short_order,
# market_exit_short_order, market_exit_short_order,
# fee, fee,
# ten_minutes_ago, ten_minutes_ago,
# caplog caplog
# ): ):
# """ """
# Test Kraken and leverage arguments as well as update market order Test Kraken and leverage arguments as well as update market order
# Short trade Short trade
# fee: 0.25% base fee: 0.25% base
# interest_rate: 0.05% per 4 hrs interest_rate: 0.05% per 4 hrs
# open_rate: 0.00004173 base open_rate: 0.00004173 base
# close_rate: 0.00004099 base close_rate: 0.00004099 base
# amount: 91.99181073 * leverage(3) = 275.97543219 crypto amount: 91.99181073 * leverage(3) = 275.97543219 crypto
# borrowed: 275.97543219 crypto borrowed: 275.97543219 crypto
# time-periods: 10 minutes(rounds up to 1 time-period of 4hrs) time-periods: 10 minutes(rounds up to 1 time-period of 4hrs)
# interest: borrowed * interest_rate * time-periods interest: borrowed * interest_rate * time-periods
# = 275.97543219 * 0.0005 * 1 = 0.137987716095 crypto = 275.97543219 * 0.0005 * 1 = 0.137987716095 crypto
# open_value: (amount * open_rate) - (amount * open_rate * fee) open_value: (amount * open_rate) - (amount * open_rate * fee)
# = 275.97543219 * 0.00004173 - 275.97543219 * 0.00004173 * 0.0025 = 275.97543219 * 0.00004173 - 275.97543219 * 0.00004173 * 0.0025
# = 0.011487663648325479 = 0.011487663648325479
# amount_closed: amount + interest = 275.97543219 + 0.137987716095 = 276.113419906095 amount_closed: amount + interest = 275.97543219 + 0.137987716095 = 276.113419906095
# close_value: (amount_closed * close_rate) + (amount_closed * close_rate * fee) close_value: (amount_closed * close_rate) + (amount_closed * close_rate * fee)
# = (276.113419906095 * 0.00004099) + (276.113419906095 * 0.00004099 * 0.0025) = (276.113419906095 * 0.00004099) + (276.113419906095 * 0.00004099 * 0.0025)
# = 0.01134618380465571 = 0.01134618380465571
# total_profit = open_value - close_value total_profit = open_value - close_value
# = 0.011487663648325479 - 0.01134618380465571 = 0.011487663648325479 - 0.01134618380465571
# = 0.00014147984366976937 = 0.00014147984366976937
# total_profit_percentage = (open_value/close_value) - 1 total_profit_percentage = (open_value/close_value) - 1
# = (0.011487663648325479/0.01134618380465571)-1 = (0.011487663648325479/0.01134618380465571)-1
# = 0.012469377026284034 = 0.012469377026284034
# """ """
# trade = Trade( trade = Trade(
# id=1, id=1,
# pair='ETH/BTC', pair='ETH/BTC',
# stake_amount=0.001, stake_amount=0.001,
# amount=5, amount=5,
# open_rate=0.01, open_rate=0.01,
# is_open=True, is_open=True,
# fee_open=fee.return_value, fee_open=fee.return_value,
# fee_close=fee.return_value, fee_close=fee.return_value,
# open_date=ten_minutes_ago, open_date=ten_minutes_ago,
# exchange='kraken' exchange='kraken'
# ) )
# trade.open_order_id = 'something' trade.open_order_id = 'something'
# trade.update(market_short_order) trade.update(market_short_order)
# assert trade.leverage == 3.0 assert trade.leverage == 3.0
# assert trade.is_short == True assert trade.is_short == True
# assert trade.open_order_id is None assert trade.open_order_id is None
# assert trade.open_rate == 0.00004173 assert trade.open_rate == 0.00004173
# assert trade.close_profit is None assert trade.close_profit is None
# assert trade.close_date is None assert trade.close_date is None
# assert trade.interest_rate == 0.0005 assert trade.interest_rate == 0.0005
# # TODO: Uncomment the next assert and make it work. # TODO: Uncomment the next assert and make it work.
# # The logger also has the exact same but there's some spacing in there # The logger also has the exact same but there's some spacing in there
# # assert log_has_re(r"MARKET_SELL has been fulfilled for Trade\(id=1, " # assert log_has_re(r"MARKET_SELL has been fulfilled for Trade\(id=1, "
# # r"pair=ETH/BTC, amount=275.97543219, open_rate=0.00004173, open_since=.*\).", # r"pair=ETH/BTC, amount=275.97543219, open_rate=0.00004173, open_since=.*\).",
# # caplog) # caplog)
# caplog.clear() caplog.clear()
# trade.is_open = True trade.is_open = True
# trade.open_order_id = 'something' trade.open_order_id = 'something'
# trade.update(market_exit_short_order) trade.update(market_exit_short_order)
# assert trade.open_order_id is None assert trade.open_order_id is None
# assert trade.close_rate == 0.00004099 assert trade.close_rate == 0.00004099
# assert trade.close_profit == 0.01246938 assert trade.close_profit == 0.01246938
# assert trade.close_date is not None assert trade.close_date is not None
# # TODO: The amount should maybe be the opening amount + the interest # TODO: The amount should maybe be the opening amount + the interest
# # TODO: Uncomment the next assert and make it work. # TODO: Uncomment the next assert and make it work.
# # The logger also has the exact same but there's some spacing in there # The logger also has the exact same but there's some spacing in there
# # assert log_has_re(r"MARKET_SELL has been fulfilled for Trade\(id=1, " # assert log_has_re(r"MARKET_SELL has been fulfilled for Trade\(id=1, "
# # r"pair=ETH/BTC, amount=275.97543219, open_rate=0.00004099, open_since=.*\).", # r"pair=ETH/BTC, amount=275.97543219, open_rate=0.00004099, open_since=.*\).",
# # caplog) # caplog)
# TODO-mg: create a leveraged long order # TODO-mg: create a leveraged long order
@pytest.mark.usefixtures("init_persistence") @pytest.mark.usefixtures("init_persistence")
def test_calc_open_close_trade_price(limit_short_order, limit_exit_short_order, five_hours_ago, fee): def test_calc_open_close_trade_price(limit_short_order, limit_exit_short_order, five_hours_ago, fee):
""" """