stable/tests/test_persistence_short.py
2021-07-26 23:09:46 -06:00

804 lines
31 KiB
Python

import logging
from datetime import datetime, timedelta, timezone
from pathlib import Path
from types import FunctionType
from unittest.mock import MagicMock
import arrow
import pytest
from math import isclose
from sqlalchemy import create_engine, inspect, text
from freqtrade import constants
from freqtrade.exceptions import DependencyException, OperationalException
from freqtrade.persistence import LocalTrade, Order, Trade, clean_dry_run_db, init_db
from tests.conftest import create_mock_trades, log_has, log_has_re
@pytest.mark.usefixtures("init_persistence")
def test_update_with_binance(limit_short_order, limit_exit_short_order, fee, ten_minutes_ago, caplog):
"""
10 minute short limit trade on binance
Short trade
fee: 0.25% base
interest_rate: 0.05% per day
open_rate: 0.00001173 base
close_rate: 0.00001099 base
amount: 90.99181073 crypto
borrowed: 90.99181073 crypto
time-periods: 10 minutes(rounds up to 1/24 time-period of 1 day)
interest: borrowed * interest_rate * time-periods
= 90.99181073 * 0.0005 * 1/24 = 0.0018956627235416667 crypto
open_value: (amount * open_rate) - (amount * open_rate * fee)
= 90.99181073 * 0.00001173 - 90.99181073 * 0.00001173 * 0.0025
= 0.0010646656050132426
amount_closed: amount + interest = 90.99181073 + 0.0018956627235416667 = 90.99370639272354
close_value: (amount_closed * close_rate) + (amount_closed * close_rate * fee)
= (90.99370639272354 * 0.00001099) + (90.99370639272354 * 0.00001099 * 0.0025)
= 0.0010025208853391716
total_profit = open_value - close_value
= 0.0010646656050132426 - 0.0010025208853391716
= 0.00006214471967407108
total_profit_percentage = (open_value/close_value) - 1
= (0.0010646656050132426/0.0010025208853391716)-1
= 0.06198845388946328
"""
trade = Trade(
id=2,
pair='ETH/BTC',
stake_amount=0.001,
open_rate=0.01,
amount=5,
is_open=True,
open_date=ten_minutes_ago,
fee_open=fee.return_value,
fee_close=fee.return_value,
# borrowed=90.99181073,
interest_rate=0.0005,
exchange='binance'
)
#assert trade.open_order_id is None
assert trade.close_profit is None
assert trade.close_date is None
assert trade.borrowed is None
assert trade.is_short is None
#trade.open_order_id = 'something'
trade.update(limit_short_order)
#assert trade.open_order_id is None
assert trade.open_rate == 0.00001173
assert trade.close_profit is None
assert trade.close_date is None
assert trade.borrowed == 90.99181073
assert trade.is_short is True
assert log_has_re(r"LIMIT_SELL has been fulfilled for Trade\(id=2, "
r"pair=ETH/BTC, amount=90.99181073, open_rate=0.00001173, open_since=.*\).",
caplog)
caplog.clear()
#trade.open_order_id = 'something'
trade.update(limit_exit_short_order)
#assert trade.open_order_id is None
assert trade.close_rate == 0.00001099
assert trade.close_profit == 0.06198845
assert trade.close_date is not None
assert log_has_re(r"LIMIT_BUY has been fulfilled for Trade\(id=2, "
r"pair=ETH/BTC, amount=90.99181073, open_rate=0.00001173, open_since=.*\).",
caplog)
@pytest.mark.usefixtures("init_persistence")
def test_update_market_order(
market_short_order,
market_exit_short_order,
fee,
ten_minutes_ago,
caplog
):
"""
10 minute short market trade on Kraken at 3x leverage
Short trade
fee: 0.25% base
interest_rate: 0.05% per 4 hrs
open_rate: 0.00004173 base
close_rate: 0.00004099 base
amount: 91.99181073 * leverage(3) = 275.97543219 crypto
borrowed: 275.97543219 crypto
time-periods: 10 minutes(rounds up to 1 time-period of 4hrs)
interest: borrowed * interest_rate * time-periods
= 275.97543219 * 0.0005 * 1 = 0.137987716095 crypto
open_value: (amount * open_rate) - (amount * open_rate * fee)
= 275.97543219 * 0.00004173 - 275.97543219 * 0.00004173 * 0.0025
= 0.011487663648325479
amount_closed: amount + interest = 275.97543219 + 0.137987716095 = 276.113419906095
close_value: (amount_closed * close_rate) + (amount_closed * close_rate * fee)
= (276.113419906095 * 0.00004099) + (276.113419906095 * 0.00004099 * 0.0025)
= 0.01134618380465571
total_profit = open_value - close_value
= 0.011487663648325479 - 0.01134618380465571
= 0.00014147984366976937
total_profit_percentage = (open_value/close_value) - 1
= (0.011487663648325479/0.01134618380465571)-1
= 0.012469377026284034
"""
trade = Trade(
id=1,
pair='ETH/BTC',
stake_amount=0.001,
amount=5,
open_rate=0.01,
is_open=True,
fee_open=fee.return_value,
fee_close=fee.return_value,
open_date=ten_minutes_ago,
interest_rate=0.0005,
exchange='kraken'
)
trade.open_order_id = 'something'
trade.update(market_short_order)
assert trade.leverage == 3.0
assert trade.is_short == True
assert trade.open_order_id is None
assert trade.open_rate == 0.00004173
assert trade.close_profit is None
assert trade.close_date is None
assert trade.interest_rate == 0.0005
# TODO: Uncomment the next assert and make it work.
# 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\(id=1, "
# r"pair=ETH/BTC, amount=275.97543219, open_rate=0.00004173, open_since=.*\).",
# caplog)
caplog.clear()
trade.is_open = True
trade.open_order_id = 'something'
trade.update(market_exit_short_order)
assert trade.open_order_id is None
assert trade.close_rate == 0.00004099
assert trade.close_profit == 0.01246938
assert trade.close_date is not None
# TODO: The amount should maybe be the opening amount + the interest
# TODO: Uncomment the next assert and make it work.
# 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\(id=1, "
# r"pair=ETH/BTC, amount=275.97543219, open_rate=0.00004099, open_since=.*\).",
# caplog)
@pytest.mark.usefixtures("init_persistence")
def test_calc_open_close_trade_price(limit_short_order, limit_exit_short_order, five_hours_ago, fee):
"""
5 hour short trade on Binance
Short trade
fee: 0.25% base
interest_rate: 0.05% per day
open_rate: 0.00001173 base
close_rate: 0.00001099 base
amount: 90.99181073 crypto
borrowed: 90.99181073 crypto
time-periods: 5 hours = 5/24
interest: borrowed * interest_rate * time-periods
= 90.99181073 * 0.0005 * 5/24 = 0.009478313617708333 crypto
open_value: (amount * open_rate) - (amount * open_rate * fee)
= 90.99181073 * 0.00001173 - 90.99181073 * 0.00001173 * 0.0025
= 0.0010646656050132426
amount_closed: amount + interest = 90.99181073 + 0.009478313617708333 = 91.0012890436177
close_value: (amount_closed * close_rate) + (amount_closed * close_rate * fee)
= (91.0012890436177 * 0.00001099) + (91.0012890436177 * 0.00001099 * 0.0025)
= 0.001002604427005832
total_profit = open_value - close_value
= 0.0010646656050132426 - 0.001002604427005832
= 0.00006206117800741065
total_profit_percentage = (open_value/close_value) - 1
= (0.0010646656050132426/0.0010025208853391716)-1
= 0.06189996406932852
"""
trade = Trade(
pair='ETH/BTC',
stake_amount=0.001,
open_rate=0.01,
amount=5,
open_date=five_hours_ago,
fee_open=fee.return_value,
fee_close=fee.return_value,
exchange='binance',
interest_rate=0.0005
)
trade.open_order_id = 'something'
trade.update(limit_short_order)
assert trade._calc_open_trade_value() == 0.0010646656050132426
trade.update(limit_exit_short_order)
assert isclose(trade.calc_close_trade_value(), 0.001002604427005832)
# Profit in BTC
assert isclose(trade.calc_profit(), 0.00006206)
#Profit in percent
assert isclose(trade.calc_profit_ratio(), 0.06189996)
@pytest.mark.usefixtures("init_persistence")
def test_trade_close(fee, five_hours_ago):
"""
Five hour short trade on Kraken at 3x leverage
Short trade
Exchange: Kraken
fee: 0.25% base
interest_rate: 0.05% per 4 hours
open_rate: 0.02 base
close_rate: 0.01 base
leverage: 3.0
amount: 5 * 3 = 15 crypto
borrowed: 15 crypto
time-periods: 5 hours = 5/4
interest: borrowed * interest_rate * time-periods
= 15 * 0.0005 * 5/4 = 0.009375 crypto
open_value: (amount * open_rate) - (amount * open_rate * fee)
= (15 * 0.02) - (15 * 0.02 * 0.0025)
= 0.29925
amount_closed: amount + interest = 15 + 0.009375 = 15.009375
close_value: (amount_closed * close_rate) + (amount_closed * close_rate * fee)
= (15.009375 * 0.01) + (15.009375 * 0.01 * 0.0025)
= 0.150468984375
total_profit = open_value - close_value
= 0.29925 - 0.150468984375
= 0.148781015625
total_profit_percentage = (open_value/close_value) - 1
= (0.29925/0.150468984375)-1
= 0.9887819489377738
"""
trade = Trade(
pair='ETH/BTC',
stake_amount=0.001,
open_rate=0.02,
amount=5,
is_open=True,
fee_open=fee.return_value,
fee_close=fee.return_value,
open_date=five_hours_ago,
exchange='kraken',
is_short=True,
leverage=3.0,
interest_rate=0.0005
)
assert trade.close_profit is None
assert trade.close_date is None
assert trade.is_open is True
trade.close(0.01)
assert trade.is_open is False
assert trade.close_profit == 0.98878195
assert trade.close_date is not None
# TODO-mg: Remove these comments probably
#new_date = arrow.Arrow(2020, 2, 2, 15, 6, 1).datetime,
# assert trade.close_date != new_date
# # Close should NOT update close_date if the trade has been closed already
# assert trade.is_open is False
# trade.close_date = new_date
# trade.close(0.02)
# assert trade.close_date == new_date
@pytest.mark.usefixtures("init_persistence")
def test_calc_close_trade_price_exception(limit_short_order, fee):
trade = Trade(
pair='ETH/BTC',
stake_amount=0.001,
open_rate=0.1,
amount=5,
fee_open=fee.return_value,
fee_close=fee.return_value,
exchange='binance',
interest_rate=0.0005,
is_short=True,
leverage=3.0
)
trade.open_order_id = 'something'
trade.update(limit_short_order)
assert trade.calc_close_trade_value() == 0.0
@pytest.mark.usefixtures("init_persistence")
def test_update_open_order(limit_short_order):
trade = Trade(
pair='ETH/BTC',
stake_amount=1.00,
open_rate=0.01,
amount=5,
fee_open=0.1,
fee_close=0.1,
interest_rate=0.0005,
is_short=True,
exchange='binance',
)
assert trade.open_order_id is None
assert trade.close_profit is None
assert trade.close_date is None
limit_short_order['status'] = 'open'
trade.update(limit_short_order)
assert trade.open_order_id is None
assert trade.close_profit is None
assert trade.close_date is None
@pytest.mark.usefixtures("init_persistence")
def test_calc_open_trade_value(market_short_order, ten_minutes_ago, fee):
trade = Trade(
pair='ETH/BTC',
stake_amount=0.001,
amount=5,
open_rate=0.00004173,
open_date=ten_minutes_ago,
fee_open=fee.return_value,
fee_close=fee.return_value,
interest_rate=0.0005,
is_short=True,
leverage=3.0,
exchange='kraken',
)
trade.open_order_id = 'open_trade'
trade.update(market_short_order) # Buy @ 0.00001099
# Get the open rate price with the standard fee rate
assert trade._calc_open_trade_value() == 0.011487663648325479
trade.fee_open = 0.003
# Get the open rate price with a custom fee rate
assert trade._calc_open_trade_value() == 0.011481905420932834
@pytest.mark.usefixtures("init_persistence")
def test_calc_close_trade_price(market_short_order, market_exit_short_order, ten_minutes_ago, fee):
"""
10 minute short market trade on Kraken at 3x leverage
Short trade
fee: 0.25% base
interest_rate: 0.05% per 4 hrs
open_rate: 0.00004173 base
close_rate: 0.00001234 base
amount: 91.99181073 * leverage(3) = 275.97543219 crypto
borrowed: 275.97543219 crypto
time-periods: 10 minutes(rounds up to 1 time-period of 4hrs)
interest: borrowed * interest_rate * time-periods
= 275.97543219 * 0.0005 * 1 = 0.137987716095 crypto
amount_closed: amount + interest = 275.97543219 + 0.137987716095 = 276.113419906095
close_value: (amount_closed * close_rate) + (amount_closed * close_rate * fee)
= (276.113419906095 * 0.00001234) + (276.113419906095 * 0.00001234 * 0.0025)
= 0.01134618380465571
"""
trade = Trade(
pair='ETH/BTC',
stake_amount=0.001,
amount=5,
open_rate=0.00001099,
fee_open=fee.return_value,
fee_close=fee.return_value,
open_date=ten_minutes_ago,
interest_rate=0.0005,
is_short=True,
leverage=3.0,
exchange='kraken',
)
trade.open_order_id = 'close_trade'
trade.update(market_short_order) # Buy @ 0.00001099
# Get the close rate price with a custom close rate and a regular fee rate
assert isclose(trade.calc_close_trade_value(rate=0.00001234), 0.003415757700645315)
# Get the close rate price with a custom close rate and a custom fee rate
assert isclose(trade.calc_close_trade_value(rate=0.00001234, fee=0.003), 0.0034174613204461354)
# Test when we apply a Sell order, and ask price with a custom fee rate
trade.update(market_exit_short_order)
assert isclose(trade.calc_close_trade_value(fee=0.005), 0.011374478527360586)
@pytest.mark.usefixtures("init_persistence")
def test_calc_profit(market_short_order, market_exit_short_order, ten_minutes_ago, five_hours_ago, fee):
"""
Market trade on Kraken at 3x leverage
Short trade
fee: 0.25% base or 0.3%
interest_rate: 0.05%, 0.25% per 4 hrs
open_rate: 0.00004173 base
close_rate: 0.00004099 base
amount: 91.99181073 * leverage(3) = 275.97543219 crypto
borrowed: 275.97543219 crypto
time-periods: 10 minutes(rounds up to 1 time-period of 4hrs)
5 hours = 5/4
interest: borrowed * interest_rate * time-periods
= 275.97543219 * 0.0005 * 1 = 0.137987716095 crypto
= 275.97543219 * 0.00025 * 5/4 = 0.086242322559375 crypto
= 275.97543219 * 0.0005 * 5/4 = 0.17248464511875 crypto
= 275.97543219 * 0.00025 * 1 = 0.0689938580475 crypto
open_value: (amount * open_rate) - (amount * open_rate * fee)
= (275.97543219 * 0.00004173) - (275.97543219 * 0.00004173 * 0.0025) = 0.011487663648325479
amount_closed: amount + interest
= 275.97543219 + 0.137987716095 = 276.113419906095
= 275.97543219 + 0.086242322559375 = 276.06167451255936
= 275.97543219 + 0.17248464511875 = 276.14791683511874
= 275.97543219 + 0.0689938580475 = 276.0444260480475
close_value: (amount_closed * close_rate) + (amount_closed * close_rate * fee)
(276.113419906095 * 0.00004374) + (276.113419906095 * 0.00004374 * 0.0025) = 0.012107393989159325
(276.06167451255936 * 0.00000437) + (276.06167451255936 * 0.00000437 * 0.0025) = 0.0012094054914139338
(276.14791683511874 * 0.00004374) + (276.14791683511874 * 0.00004374 * 0.003) = 0.012114946012015198
(276.0444260480475 * 0.00000437) + (276.0444260480475 * 0.00000437 * 0.003) = 0.0012099330842554573
total_profit = open_value - close_value
= print(0.011487663648325479 - 0.012107393989159325) = -0.0006197303408338461
= print(0.011487663648325479 - 0.0012094054914139338) = 0.010278258156911545
= print(0.011487663648325479 - 0.012114946012015198) = -0.0006272823636897188
= print(0.011487663648325479 - 0.0012099330842554573) = 0.010277730564070022
total_profit_percentage = (open_value/close_value) - 1
print((0.011487663648325479 / 0.012107393989159325) - 1) = -0.051186105068418364
print((0.011487663648325479 / 0.0012094054914139338) - 1) = 8.498603842864217
print((0.011487663648325479 / 0.012114946012015198) - 1) = -0.05177756162244562
print((0.011487663648325479 / 0.0012099330842554573) - 1) = 8.494461964724694
"""
trade = Trade(
pair='ETH/BTC',
stake_amount=0.001,
amount=5,
open_rate=0.00001099,
open_date=ten_minutes_ago,
fee_open=fee.return_value,
fee_close=fee.return_value,
exchange='kraken',
is_short=True,
leverage=3.0,
interest_rate=0.0005
)
trade.open_order_id = 'something'
trade.update(market_short_order) # Buy @ 0.00001099
# Custom closing rate and regular fee rate
# Higher than open rate
assert trade.calc_profit(rate=0.00004374, interest_rate=0.0005) == -0.00061973
# == -0.0006197303408338461
assert trade.calc_profit_ratio(rate=0.00004374, interest_rate=0.0005) == -0.05118611
# == -0.051186105068418364
# Lower than open rate
trade.open_date = five_hours_ago
assert trade.calc_profit(rate=0.00000437, interest_rate=0.00025) == 0.01027826
# == 0.010278258156911545
assert trade.calc_profit_ratio(rate=0.00000437, interest_rate=0.00025) == 8.49860384
# == 8.498603842864217
# Custom closing rate and custom fee rate
# Higher than open rate
assert trade.calc_profit(rate=0.00004374, fee=0.003, interest_rate=0.0005) == -0.00062728
# == -0.0006272823636897188
assert trade.calc_profit_ratio(rate=0.00004374, fee=0.003, interest_rate=0.0005) == -0.05177756
# == -0.05177756162244562
# Lower than open rate
trade.open_date = ten_minutes_ago
assert trade.calc_profit(rate=0.00000437, fee=0.003, interest_rate=0.00025) == 0.01027773
# == 0.010277730564070022
assert trade.calc_profit_ratio(rate=0.00000437, fee=0.003, interest_rate=0.00025) == 8.49446196
# == 8.494461964724694
# Test when we apply a Sell order. Sell higher than open rate @ 0.00001173
trade.update(market_exit_short_order)
assert trade.calc_profit() == 0.00014148
# == 0.00014147984366976937
assert trade.calc_profit_ratio() == 0.01246938
# == 0.012469377026284034
# Test with a custom fee rate on the close trade
# assert trade.calc_profit(fee=0.003) == 0.00006163
# assert trade.calc_profit_ratio(fee=0.003) == 0.06147824
@pytest.mark.usefixtures("init_persistence")
def test_interest_kraken(market_short_order, ten_minutes_ago, five_hours_ago, fee):
"""
Market trade on Kraken at 3x and 8x leverage
Short trade
interest_rate: 0.05%, 0.25% per 4 hrs
open_rate: 0.00004173 base
close_rate: 0.00004099 base
amount:
91.99181073 * leverage(3) = 275.97543219 crypto
91.99181073 * leverage(5) = 459.95905365 crypto
borrowed:
275.97543219 crypto
459.95905365 crypto
time-periods: 10 minutes(rounds up to 1 time-period of 4hrs)
5 hours = 5/4
interest: borrowed * interest_rate * time-periods
= 275.97543219 * 0.0005 * 1 = 0.137987716095 crypto
= 275.97543219 * 0.00025 * 5/4 = 0.086242322559375 crypto
= 459.95905365 * 0.0005 * 5/4 = 0.17248464511875 crypto
= 459.95905365 * 0.00025 * 1 = 0.0689938580475 crypto
"""
trade = Trade(
pair='ETH/BTC',
stake_amount=0.001,
amount=5,
open_rate=0.00001099,
open_date=ten_minutes_ago,
fee_open=fee.return_value,
fee_close=fee.return_value,
exchange='kraken',
is_short=True,
leverage=3.0,
interest_rate=0.0005
)
trade.update(market_short_order) # Buy @ 0.00001099
assert isclose(float("{:.15f}".format(trade.calculate_interest())), 0.137987716095)
trade.open_date = five_hours_ago
assert isclose(float("{:.15f}".format(
trade.calculate_interest(interest_rate=0.00025))), 0.086242322559375)
trade = Trade(
pair='ETH/BTC',
stake_amount=0.001,
amount=5,
open_rate=0.00001099,
open_date=ten_minutes_ago,
fee_open=fee.return_value,
fee_close=fee.return_value,
exchange='kraken',
is_short=True,
leverage=5.0,
interest_rate=0.0005
)
trade.update(market_short_order) # Buy @ 0.00001099
assert isclose(float("{:.15f}".format(trade.calculate_interest())), 0.17248464511875)
trade.open_date = ten_minutes_ago
assert isclose(float("{:.15f}".format(
trade.calculate_interest(interest_rate=0.00025))), 0.0689938580475)
@pytest.mark.usefixtures("init_persistence")
def test_interest_binance(market_short_order, ten_minutes_ago, five_hours_ago, fee):
"""
Market trade on Binance at 3x and 5x leverage
Short trade
interest_rate: 0.05%, 0.25% per 1 day
open_rate: 0.00004173 base
close_rate: 0.00004099 base
amount:
91.99181073 * leverage(3) = 275.97543219 crypto
91.99181073 * leverage(5) = 459.95905365 crypto
borrowed:
275.97543219 crypto
459.95905365 crypto
time-periods: 10 minutes(rounds up to 1/24 time-period of 1 day)
5 hours = 5/24
interest: borrowed * interest_rate * time-periods
= print(275.97543219 * 0.0005 * 1/24) = 0.005749488170625 crypto
= print(275.97543219 * 0.00025 * 5/24) = 0.0143737204265625 crypto
= print(459.95905365 * 0.0005 * 5/24) = 0.047912401421875 crypto
= print(459.95905365 * 0.00025 * 1/24) = 0.0047912401421875 crypto
"""
trade = Trade(
pair='ETH/BTC',
stake_amount=0.001,
amount=5,
open_rate=0.00001099,
open_date=ten_minutes_ago,
fee_open=fee.return_value,
fee_close=fee.return_value,
exchange='binance',
is_short=True,
interest_rate=0.0005
)
trade.update(market_short_order) # Buy @ 0.00001099
assert isclose(float("{:.15f}".format(trade.calculate_interest())), 0.005749488170625)
trade.open_date = five_hours_ago
assert isclose(float("{:.15f}".format(
trade.calculate_interest(interest_rate=0.00025))), 0.0143737204265625)
trade = Trade(
pair='ETH/BTC',
stake_amount=0.001,
amount=5,
open_rate=0.00001099,
open_date=ten_minutes_ago,
fee_open=fee.return_value,
fee_close=fee.return_value,
exchange='binance',
is_short=True,
leverage=5.0,
interest_rate=0.0005
)
trade.update(market_short_order) # Buy @ 0.00001099
assert isclose(float("{:.15f}".format(trade.calculate_interest())), 0.047912401421875)
trade.open_date = ten_minutes_ago
assert isclose(float("{:.15f}".format(
trade.calculate_interest(interest_rate=0.00025))), 0.0047912401421875)
def test_adjust_stop_loss(fee):
trade = Trade(
pair='ETH/BTC',
stake_amount=0.001,
amount=5,
fee_open=fee.return_value,
fee_close=fee.return_value,
exchange='binance',
open_rate=1,
max_rate=1,
is_short=True
)
trade.adjust_stop_loss(trade.open_rate, 0.05, True)
assert trade.stop_loss == 1.05
assert trade.stop_loss_pct == 0.05
assert trade.initial_stop_loss == 1.05
assert trade.initial_stop_loss_pct == 0.05
# Get percent of profit with a lower rate
trade.adjust_stop_loss(1.04, 0.05)
assert trade.stop_loss == 1.05
assert trade.stop_loss_pct == 0.05
assert trade.initial_stop_loss == 1.05
assert trade.initial_stop_loss_pct == 0.05
# Get percent of profit with a custom rate (Higher than open rate)
trade.adjust_stop_loss(0.7, 0.1)
# assert round(trade.stop_loss, 8) == 1.17 #TODO-mg: What is this test?
assert trade.stop_loss_pct == 0.1
assert trade.initial_stop_loss == 1.05
assert trade.initial_stop_loss_pct == 0.05
# current rate lower again ... should not change
trade.adjust_stop_loss(0.8, -0.1)
# assert round(trade.stop_loss, 8) == 1.17 #TODO-mg: What is this test?
assert trade.initial_stop_loss == 1.05
assert trade.initial_stop_loss_pct == 0.05
# current rate higher... should raise stoploss
trade.adjust_stop_loss(0.6, -0.1)
# assert round(trade.stop_loss, 8) == 1.26 #TODO-mg: What is this test?
assert trade.initial_stop_loss == 1.05
assert trade.initial_stop_loss_pct == 0.05
# Initial is true but stop_loss set - so doesn't do anything
trade.adjust_stop_loss(0.3, -0.1, True)
# assert round(trade.stop_loss, 8) == 1.26 #TODO-mg: What is this test?
assert trade.initial_stop_loss == 1.05
assert trade.initial_stop_loss_pct == 0.05
assert trade.stop_loss_pct == 0.1
# TODO-mg: Do a test with a trade that has a liquidation price
# TODO: I don't know how to do this test, but it should be tested for shorts
# @pytest.mark.usefixtures("init_persistence")
# @pytest.mark.parametrize('use_db', [True, False])
# def test_get_open(fee, use_db):
# Trade.use_db = use_db
# Trade.reset_trades()
# create_mock_trades(fee, use_db)
# assert len(Trade.get_open_trades()) == 4
# Trade.use_db = True
def test_stoploss_reinitialization(default_conf, fee):
init_db(default_conf['db_url'])
trade = Trade(
pair='ETH/BTC',
stake_amount=0.001,
fee_open=fee.return_value,
open_date=arrow.utcnow().shift(hours=-2).datetime,
amount=10,
fee_close=fee.return_value,
exchange='binance',
open_rate=1,
max_rate=1,
is_short=True
)
trade.adjust_stop_loss(trade.open_rate, -0.05, True)
assert trade.stop_loss == 1.05
assert trade.stop_loss_pct == 0.05
assert trade.initial_stop_loss == 1.05
assert trade.initial_stop_loss_pct == 0.05
Trade.query.session.add(trade)
# Lower stoploss
Trade.stoploss_reinitialization(-0.06)
trades = Trade.get_open_trades()
assert len(trades) == 1
trade_adj = trades[0]
assert trade_adj.stop_loss == 1.06
assert trade_adj.stop_loss_pct == 0.06
assert trade_adj.initial_stop_loss == 1.06
assert trade_adj.initial_stop_loss_pct == 0.06
# Raise stoploss
Trade.stoploss_reinitialization(-0.04)
trades = Trade.get_open_trades()
assert len(trades) == 1
trade_adj = trades[0]
assert trade_adj.stop_loss == 1.04
assert trade_adj.stop_loss_pct == 0.04
assert trade_adj.initial_stop_loss == 1.04
assert trade_adj.initial_stop_loss_pct == 0.04
# Trailing stoploss (move stoplos up a bit)
trade.adjust_stop_loss(0.98, -0.04)
assert trade_adj.stop_loss == 1.0208
assert trade_adj.initial_stop_loss == 1.04
Trade.stoploss_reinitialization(-0.04)
trades = Trade.get_open_trades()
assert len(trades) == 1
trade_adj = trades[0]
# Stoploss should not change in this case.
assert trade_adj.stop_loss == 1.0208
assert trade_adj.stop_loss_pct == 0.04
assert trade_adj.initial_stop_loss == 1.04
assert trade_adj.initial_stop_loss_pct == 0.04
# @pytest.mark.usefixtures("init_persistence")
# @pytest.mark.parametrize('use_db', [True, False])
# def test_total_open_trades_stakes(fee, use_db):
# Trade.use_db = use_db
# Trade.reset_trades()
# res = Trade.total_open_trades_stakes()
# assert res == 0
# create_mock_trades(fee, use_db)
# res = Trade.total_open_trades_stakes()
# assert res == 0.004
# Trade.use_db = True
# @pytest.mark.usefixtures("init_persistence")
# def test_get_overall_performance(fee):
# create_mock_trades(fee)
# res = Trade.get_overall_performance()
# assert len(res) == 2
# assert 'pair' in res[0]
# assert 'profit' in res[0]
# assert 'count' in res[0]
# @pytest.mark.usefixtures("init_persistence")
# def test_get_best_pair(fee):
# res = Trade.get_best_pair()
# assert res is None
# create_mock_trades(fee)
# res = Trade.get_best_pair()
# assert len(res) == 2
# assert res[0] == 'XRP/BTC'
# assert res[1] == 0.01
# @pytest.mark.usefixtures("init_persistence")
# def test_update_order_from_ccxt(caplog):
# # Most basic order return (only has orderid)
# o = Order.parse_from_ccxt_object({'id': '1234'}, 'ETH/BTC', 'buy')
# assert isinstance(o, Order)
# assert o.ft_pair == 'ETH/BTC'
# assert o.ft_order_side == 'buy'
# assert o.order_id == '1234'
# assert o.ft_is_open
# ccxt_order = {
# 'id': '1234',
# 'side': 'buy',
# 'symbol': 'ETH/BTC',
# 'type': 'limit',
# 'price': 1234.5,
# 'amount': 20.0,
# 'filled': 9,
# 'remaining': 11,
# 'status': 'open',
# 'timestamp': 1599394315123
# }
# o = Order.parse_from_ccxt_object(ccxt_order, 'ETH/BTC', 'buy')
# assert isinstance(o, Order)
# assert o.ft_pair == 'ETH/BTC'
# assert o.ft_order_side == 'buy'
# assert o.order_id == '1234'
# assert o.order_type == 'limit'
# assert o.price == 1234.5
# assert o.filled == 9
# assert o.remaining == 11
# assert o.order_date is not None
# assert o.ft_is_open
# assert o.order_filled_date is None
# # Order has been closed
# ccxt_order.update({'filled': 20.0, 'remaining': 0.0, 'status': 'closed'})
# o.update_from_ccxt_object(ccxt_order)
# assert o.filled == 20.0
# assert o.remaining == 0.0
# assert not o.ft_is_open
# assert o.order_filled_date is not None
# ccxt_order.update({'id': 'somethingelse'})
# with pytest.raises(DependencyException, match=r"Order-id's don't match"):
# o.update_from_ccxt_object(ccxt_order)
# message = "aaaa is not a valid response object."
# assert not log_has(message, caplog)
# Order.update_orders([o], 'aaaa')
# assert log_has(message, caplog)
# # Call regular update - shouldn't fail.
# Order.update_orders([o], {'id': '1234'})