# pragma pylint: disable=missing-docstring, W0212, line-too-long, C0103, C0330, unused-argument import logging from unittest.mock import MagicMock import pytest from freqtrade.data.history import get_timerange from freqtrade.enums import ExitType from freqtrade.optimize.backtesting import Backtesting from tests.conftest import patch_exchange from tests.optimize import (BTContainer, BTrade, _build_backtest_dataframe, _get_frame_time_from_offset, tests_timeframe) # Test 0: Sell with signal sell in candle 3 # Test with Stop-loss at 1% tc0 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], # enter trade (signal on last candle) [2, 4987, 5012, 4986, 4986, 6172, 0, 0], # exit with stoploss hit [3, 5010, 5010, 4980, 5010, 6172, 0, 1], [4, 5010, 5011, 4977, 4995, 6172, 0, 0], [5, 4995, 4995, 4950, 4950, 6172, 0, 0]], stop_loss=-0.01, roi={"0": 1}, profit_perc=0.002, use_exit_signal=True, trades=[BTrade(exit_reason=ExitType.EXIT_SIGNAL, open_tick=1, close_tick=4)] ) # Test 1: Stop-Loss Triggered 1% loss # Test with Stop-loss at 1% tc1 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], # enter trade (signal on last candle) [2, 4987, 5012, 4600, 4600, 6172, 0, 0], # exit with stoploss hit [3, 4975, 5000, 4975, 4977, 6172, 0, 0], [4, 4977, 4995, 4977, 4995, 6172, 0, 0], [5, 4995, 4995, 4950, 4950, 6172, 0, 0]], stop_loss=-0.01, roi={"0": 1}, profit_perc=-0.01, trades=[BTrade(exit_reason=ExitType.STOP_LOSS, open_tick=1, close_tick=2)] ) # Test 2: Minus 4% Low, minus 1% close # Test with Stop-Loss at 3% tc2 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], # enter trade (signal on last candle) [2, 4987, 5012, 4962, 4975, 6172, 0, 0], [3, 4975, 5000, 4800, 4962, 6172, 0, 0], # exit with stoploss hit [4, 4962, 4987, 4937, 4950, 6172, 0, 0], [5, 4950, 4975, 4925, 4950, 6172, 0, 0]], stop_loss=-0.03, roi={"0": 1}, profit_perc=-0.03, trades=[BTrade(exit_reason=ExitType.STOP_LOSS, open_tick=1, close_tick=3)] ) # Test 3: Multiple trades. # Candle drops 4%, Recovers 1%. # Entry Criteria Met # Candle drops 20% # Trade-A: Stop-Loss Triggered 2% Loss # Trade-B: Stop-Loss Triggered 2% Loss tc3 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], # enter trade (signal on last candle) [2, 4987, 5012, 4800, 4975, 6172, 0, 0], # exit with stoploss hit [3, 4975, 5000, 4950, 4962, 6172, 1, 0], [4, 4975, 5000, 4950, 4962, 6172, 0, 0], # enter trade 2 (signal on last candle) [5, 4962, 4987, 4000, 4000, 6172, 0, 0], # exit with stoploss hit [6, 4950, 4975, 4950, 4950, 6172, 0, 0]], stop_loss=-0.02, roi={"0": 1}, profit_perc=-0.04, trades=[BTrade(exit_reason=ExitType.STOP_LOSS, open_tick=1, close_tick=2), BTrade(exit_reason=ExitType.STOP_LOSS, open_tick=4, close_tick=5)] ) # Test 4: Minus 3% / recovery +15% # Candle Data for test 3 – Candle drops 3% Closed 15% up # Test with Stop-loss at 2% ROI 6% # Stop-Loss Triggered 2% Loss tc4 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], # enter trade (signal on last candle) [2, 4987, 5750, 4850, 5750, 6172, 0, 0], # Exit with stoploss hit [3, 4975, 5000, 4950, 4962, 6172, 0, 0], [4, 4962, 4987, 4937, 4950, 6172, 0, 0], [5, 4950, 4975, 4925, 4950, 6172, 0, 0]], stop_loss=-0.02, roi={"0": 0.06}, profit_perc=-0.02, trades=[BTrade(exit_reason=ExitType.STOP_LOSS, open_tick=1, close_tick=2)] ) # Test 5: Drops 0.5% Closes +20%, ROI triggers 3% Gain # stop-loss: 1%, ROI: 3% tc5 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4980, 4987, 6172, 1, 0], [1, 5000, 5025, 4980, 4987, 6172, 0, 0], # enter trade (signal on last candle) [2, 4987, 5025, 4975, 4987, 6172, 0, 0], [3, 4975, 6000, 4975, 6000, 6172, 0, 0], # ROI [4, 4962, 4987, 4962, 4972, 6172, 0, 0], [5, 4950, 4975, 4925, 4950, 6172, 0, 0]], stop_loss=-0.01, roi={"0": 0.03}, profit_perc=0.03, trades=[BTrade(exit_reason=ExitType.ROI, open_tick=1, close_tick=3)] ) # Test 6: Drops 3% / Recovers 6% Positive / Closes 1% positve, Stop-Loss triggers 2% Loss # stop-loss: 2% ROI: 5% tc6 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], # enter trade (signal on last candle) [2, 4987, 5300, 4850, 5050, 6172, 0, 0], # Exit with stoploss [3, 4975, 5000, 4950, 4962, 6172, 0, 0], [4, 4962, 4987, 4950, 4950, 6172, 0, 0], [5, 4950, 4975, 4925, 4950, 6172, 0, 0]], stop_loss=-0.02, roi={"0": 0.05}, profit_perc=-0.02, trades=[BTrade(exit_reason=ExitType.STOP_LOSS, open_tick=1, close_tick=2)] ) # Test 7: 6% Positive / 1% Negative / Close 1% Positve, ROI Triggers 3% Gain # stop-loss: 2% ROI: 3% tc7 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], [2, 4987, 5300, 4950, 5050, 6172, 0, 0], [3, 4975, 5000, 4950, 4962, 6172, 0, 0], [4, 4962, 4987, 4950, 4950, 6172, 0, 0], [5, 4950, 4975, 4925, 4950, 6172, 0, 0]], stop_loss=-0.02, roi={"0": 0.03}, profit_perc=0.03, trades=[BTrade(exit_reason=ExitType.ROI, open_tick=1, close_tick=2)] ) # Test 8: trailing_stop should raise so candle 3 causes a stoploss. # stop-loss: 10%, ROI: 10% (should not apply), stoploss adjusted in candle 2 tc8 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5050, 4950, 5000, 6172, 0, 0], [2, 5000, 5250, 4750, 4850, 6172, 0, 0], [3, 4850, 5050, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.10}, profit_perc=-0.055, trailing_stop=True, trades=[BTrade(exit_reason=ExitType.TRAILING_STOP_LOSS, open_tick=1, close_tick=3)] ) # Test 9: trailing_stop should raise - high and low in same candle. # stop-loss: 10%, ROI: 10% (should not apply), stoploss adjusted in candle 3 tc9 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5050, 4950, 5000, 6172, 0, 0], [2, 5000, 5050, 4950, 5000, 6172, 0, 0], [3, 5000, 5200, 4550, 4850, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.10}, profit_perc=-0.064, trailing_stop=True, trades=[BTrade(exit_reason=ExitType.TRAILING_STOP_LOSS, open_tick=1, close_tick=3)] ) # Test 10: trailing_stop should raise so candle 3 causes a stoploss # without applying trailing_stop_positive since stoploss_offset is at 10%. # stop-loss: 10%, ROI: 10% (should not apply), stoploss adjusted candle 2 tc10 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5100, 4950, 5100, 6172, 0, 0], [2, 5100, 5251, 5100, 5100, 6172, 0, 0], [3, 4850, 5050, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.10}, profit_perc=-0.1, trailing_stop=True, trailing_only_offset_is_reached=True, trailing_stop_positive_offset=0.10, trailing_stop_positive=0.03, trades=[BTrade(exit_reason=ExitType.STOP_LOSS, open_tick=1, close_tick=4)] ) # Test 11: trailing_stop should raise so candle 3 causes a stoploss # applying a positive trailing stop of 3% since stop_positive_offset is reached. # stop-loss: 10%, ROI: 10% (should not apply), stoploss adjusted candle 2 tc11 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5100, 4950, 5100, 6172, 0, 0], [2, 5100, 5251, 5100, 5100, 6172, 0, 0], [3, 5000, 5150, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.10}, profit_perc=0.019, trailing_stop=True, trailing_only_offset_is_reached=True, trailing_stop_positive_offset=0.05, trailing_stop_positive=0.03, trades=[BTrade(exit_reason=ExitType.TRAILING_STOP_LOSS, open_tick=1, close_tick=3)] ) # Test 12: trailing_stop should raise in candle 2 and cause a stoploss in the same candle # applying a positive trailing stop of 3% since stop_positive_offset is reached. # stop-loss: 10%, ROI: 10% (should not apply), stoploss adjusted candle 2 tc12 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5100, 4950, 5100, 6172, 0, 0], [2, 5100, 5251, 4650, 5100, 6172, 0, 0], [3, 4850, 5050, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.10}, profit_perc=0.019, trailing_stop=True, trailing_only_offset_is_reached=True, trailing_stop_positive_offset=0.05, trailing_stop_positive=0.03, trades=[BTrade(exit_reason=ExitType.TRAILING_STOP_LOSS, open_tick=1, close_tick=2)] ) # Test 13: Buy and sell ROI on same candle # stop-loss: 10% (should not apply), ROI: 1% tc13 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5100, 4950, 5100, 6172, 0, 0], [2, 5100, 5251, 4850, 5100, 6172, 0, 0], [3, 4850, 5050, 4750, 4750, 6172, 0, 0], [4, 4750, 4950, 4750, 4750, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.01}, profit_perc=0.01, trades=[BTrade(exit_reason=ExitType.ROI, open_tick=1, close_tick=1)] ) # Test 14 - Buy and Stoploss on same candle # stop-loss: 5%, ROI: 10% (should not apply) tc14 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5100, 4600, 5100, 6172, 0, 0], [2, 5100, 5251, 4850, 5100, 6172, 0, 0], [3, 4850, 5050, 4750, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.05, roi={"0": 0.10}, profit_perc=-0.05, trades=[BTrade(exit_reason=ExitType.STOP_LOSS, open_tick=1, close_tick=1)] ) # Test 15 - Buy and ROI on same candle, followed by buy and Stoploss on next candle # stop-loss: 5%, ROI: 10% (should not apply) tc15 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5100, 4900, 5100, 6172, 1, 0], [2, 5100, 5251, 4650, 5100, 6172, 0, 0], [3, 4850, 5050, 4750, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.05, roi={"0": 0.01}, profit_perc=-0.04, trades=[BTrade(exit_reason=ExitType.ROI, open_tick=1, close_tick=1), BTrade(exit_reason=ExitType.STOP_LOSS, open_tick=2, close_tick=2)] ) # Test 16: Buy, hold for 65 min, then forceexit using roi=-1 # Causes negative profit even though sell-reason is ROI. # stop-loss: 10%, ROI: 10% (should not apply), -100% after 65 minutes (limits trade duration) tc16 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], [2, 4987, 5300, 4950, 5050, 6172, 0, 0], [3, 4975, 5000, 4940, 4962, 6172, 0, 0], # Forceexit on ROI (roi=-1) [4, 4962, 4987, 4950, 4950, 6172, 0, 0], [5, 4950, 4975, 4925, 4950, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.10, "65": -1}, profit_perc=-0.012, trades=[BTrade(exit_reason=ExitType.ROI, open_tick=1, close_tick=3)] ) # Test 17: Buy, hold for 120 mins, then forceexit using roi=-1 # Causes negative profit even though sell-reason is ROI. # stop-loss: 10%, ROI: 10% (should not apply), -100% after 100 minutes (limits trade duration) # Uses open as sell-rate (special case) - since the roi-time is a multiple of the timeframe. tc17 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], [2, 4987, 5300, 4950, 5050, 6172, 0, 0], [3, 4980, 5000, 4940, 4962, 6172, 0, 0], # Forceexit on ROI (roi=-1) [4, 4962, 4987, 4950, 4950, 6172, 0, 0], [5, 4950, 4975, 4925, 4950, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.10, "120": -1}, profit_perc=-0.004, trades=[BTrade(exit_reason=ExitType.ROI, open_tick=1, close_tick=3)] ) # Test 18: Buy, hold for 120 mins, then drop ROI to 1%, causing a sell in candle 3. # stop-loss: 10%, ROI: 10% (should not apply), -100% after 100 minutes (limits trade duration) # uses open_rate as sell-price tc18 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], [2, 4987, 5300, 4950, 5200, 6172, 0, 0], [3, 5200, 5220, 4940, 4962, 6172, 0, 0], # Sell on ROI (sells on open) [4, 4962, 4987, 4950, 4950, 6172, 0, 0], [5, 4950, 4975, 4925, 4950, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.10, "120": 0.01}, profit_perc=0.04, trades=[BTrade(exit_reason=ExitType.ROI, open_tick=1, close_tick=3)] ) # Test 19: Buy, hold for 119 mins, then drop ROI to 1%, causing a sell in candle 3. # stop-loss: 10%, ROI: 10% (should not apply), -100% after 100 minutes (limits trade duration) # uses calculated ROI (1%) as sell rate, otherwise identical to tc18 tc19 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], [2, 4987, 5300, 4950, 5200, 6172, 0, 0], [3, 5000, 5300, 4940, 4962, 6172, 0, 0], # Sell on ROI [4, 4962, 4987, 4950, 4950, 6172, 0, 0], [5, 4550, 4975, 4550, 4950, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.10, "120": 0.01}, profit_perc=0.01, trades=[BTrade(exit_reason=ExitType.ROI, open_tick=1, close_tick=3)] ) # Test 20: Buy, hold for 119 mins, then drop ROI to 1%, causing a sell in candle 3. # stop-loss: 10%, ROI: 10% (should not apply), -100% after 100 minutes (limits trade duration) # uses calculated ROI (1%) as sell rate, otherwise identical to tc18 tc20 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], [2, 4987, 5300, 4950, 5200, 6172, 0, 0], [3, 5200, 5300, 4940, 4962, 6172, 0, 0], # Sell on ROI [4, 4962, 4987, 4950, 4950, 6172, 0, 0], [5, 4925, 4975, 4925, 4950, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.10, "119": 0.01}, profit_perc=0.01, trades=[BTrade(exit_reason=ExitType.ROI, open_tick=1, close_tick=3)] ) # Test 21: trailing_stop ROI collision. # Roi should trigger before Trailing stop - otherwise Trailing stop profits can be > ROI # which cannot happen in reality # stop-loss: 10%, ROI: 4%, Trailing stop adjusted at the sell candle tc21 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5100, 4950, 5100, 6172, 0, 0], [2, 5100, 5251, 4650, 5100, 6172, 0, 0], [3, 4850, 5050, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.04}, profit_perc=0.04, trailing_stop=True, trailing_only_offset_is_reached=True, trailing_stop_positive_offset=0.05, trailing_stop_positive=0.03, trades=[BTrade(exit_reason=ExitType.ROI, open_tick=1, close_tick=2)] ) # Test 22: trailing_stop Raises in candle 2 - but ROI applies at the same time. # applying a positive trailing stop of 3% - ROI should apply before trailing stop. # stop-loss: 10%, ROI: 4%, stoploss adjusted candle 2 tc22 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5100, 4950, 5100, 6172, 0, 0], [2, 5100, 5251, 5100, 5100, 6172, 0, 0], [3, 4850, 5050, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.04}, profit_perc=0.04, trailing_stop=True, trailing_only_offset_is_reached=True, trailing_stop_positive_offset=0.05, trailing_stop_positive=0.03, trades=[BTrade(exit_reason=ExitType.ROI, open_tick=1, close_tick=2)] ) # Test 23: trailing_stop Raises in candle 2 - but ROI applies at the same time. # applying a positive trailing stop of 3% - ROI should apply before trailing stop. # stop-loss: 10%, ROI: 4%, stoploss adjusted candle 2 tc23 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 0, 0, 1, 0], [1, 5000, 5050, 4900, 4900, 6172, 0, 0, 0, 0], [2, 4900, 4900, 4749, 4900, 6172, 0, 0, 0, 0], [3, 4850, 5050, 4650, 4750, 6172, 0, 0, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0, 0, 0]], stop_loss=-0.10, roi={"0": 0.04}, profit_perc=0.04, trailing_stop=True, trailing_only_offset_is_reached=True, trailing_stop_positive_offset=0.05, trailing_stop_positive=0.03, trades=[BTrade(exit_reason=ExitType.ROI, open_tick=1, close_tick=2, is_short=True)] ) # Test 24: trailing_stop Raises in candle 2 (does not trigger) # applying a positive trailing stop of 3% since stop_positive_offset is reached. # ROI is changed after this to 4%, dropping ROI below trailing_stop_positive, causing a sell # in the candle after the raised stoploss candle with ROI reason. # Stoploss would trigger in this candle too, but it's no longer relevant. # stop-loss: 10%, ROI: 4%, stoploss adjusted candle 2, ROI adjusted in candle 3 (causing the sell) tc24 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5100, 4950, 5100, 6172, 0, 0], [2, 5100, 5251, 5100, 5100, 6172, 0, 0], [3, 4850, 5251, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.1, "119": 0.03}, profit_perc=0.03, trailing_stop=True, trailing_only_offset_is_reached=True, trailing_stop_positive_offset=0.05, trailing_stop_positive=0.03, trades=[BTrade(exit_reason=ExitType.ROI, open_tick=1, close_tick=3)] ) # Test 25: Sell with signal sell in candle 3 (stoploss also triggers on this candle) # Stoploss at 1%. # Stoploss wins over Sell-signal (because sell-signal is acted on in the next candle) tc25 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], # enter trade (signal on last candle) [2, 4987, 5012, 4986, 4986, 6172, 0, 0], [3, 5010, 5010, 4855, 5010, 6172, 0, 1], # Triggers stoploss + sellsignal [4, 5010, 5010, 4977, 4995, 6172, 0, 0], [5, 4995, 4995, 4950, 4950, 6172, 0, 0]], stop_loss=-0.01, roi={"0": 1}, profit_perc=-0.01, use_exit_signal=True, trades=[BTrade(exit_reason=ExitType.STOP_LOSS, open_tick=1, close_tick=3)] ) # Test 26: Sell with signal sell in candle 3 (stoploss also triggers on this candle) # Stoploss at 1%. # Sell-signal wins over stoploss tc26 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], # enter trade (signal on last candle) [2, 4987, 5012, 4986, 4986, 6172, 0, 0], [3, 5010, 5010, 4986, 5010, 6172, 0, 1], [4, 5010, 5010, 4855, 4995, 6172, 0, 0], # Triggers stoploss + sellsignal acted on [5, 4995, 4995, 4950, 4950, 6172, 0, 0]], stop_loss=-0.01, roi={"0": 1}, profit_perc=0.002, use_exit_signal=True, trades=[BTrade(exit_reason=ExitType.EXIT_SIGNAL, open_tick=1, close_tick=4)] ) # Test 27: (copy of test26 with leverage) # Sell with signal sell in candle 3 (stoploss also triggers on this candle) # Stoploss at 1%. # Sell-signal wins over stoploss tc27 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], # enter trade (signal on last candle) [2, 4987, 5012, 4986, 4986, 6172, 0, 0], [3, 5010, 5010, 4986, 5010, 6172, 0, 1], [4, 5010, 5010, 4855, 4995, 6172, 0, 0], # Triggers stoploss + sellsignal acted on [5, 4995, 4995, 4950, 4950, 6172, 0, 0]], stop_loss=-0.05, roi={"0": 1}, profit_perc=0.002 * 5.0, use_exit_signal=True, leverage=5.0, trades=[BTrade(exit_reason=ExitType.EXIT_SIGNAL, open_tick=1, close_tick=4)] ) # Test 28: (copy of test26 with leverage and as short) # Sell with signal sell in candle 3 (stoploss also triggers on this candle) # Stoploss at 1%. # Sell-signal wins over stoploss tc28 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 0, 0, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0, 0, 0], # enter trade (signal on last candle) [2, 4987, 5012, 4986, 4986, 6172, 0, 0, 0, 0], [3, 5010, 5010, 4986, 5010, 6172, 0, 0, 0, 1], [4, 4990, 5010, 4855, 4995, 6172, 0, 0, 0, 0], # Triggers stoploss + sellsignal acted on [5, 4995, 4995, 4950, 4950, 6172, 0, 0, 0, 0]], stop_loss=-0.05, roi={"0": 1}, profit_perc=0.002 * 5.0, use_exit_signal=True, leverage=5.0, trades=[BTrade(exit_reason=ExitType.EXIT_SIGNAL, open_tick=1, close_tick=4, is_short=True)] ) # Test 29: Sell with signal sell in candle 3 (ROI at signal candle) # Stoploss at 10% (irrelevant), ROI at 5% (will trigger) # Sell-signal wins over stoploss tc29 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], # enter trade (signal on last candle) [2, 4987, 5012, 4986, 4986, 6172, 0, 0], [3, 5010, 5251, 4986, 5010, 6172, 0, 1], # Triggers ROI, sell-signal [4, 5010, 5010, 4855, 4995, 6172, 0, 0], [5, 4995, 4995, 4950, 4950, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.05}, profit_perc=0.05, use_exit_signal=True, trades=[BTrade(exit_reason=ExitType.ROI, open_tick=1, close_tick=3)] ) # Test 30: Sell with signal sell in candle 3 (ROI at signal candle) # Stoploss at 10% (irrelevant), ROI at 5% (will trigger) - Wins over Sell-signal tc30 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5025, 4975, 4987, 6172, 1, 0], [1, 5000, 5025, 4975, 4987, 6172, 0, 0], # enter trade (signal on last candle) [2, 4987, 5012, 4986, 4986, 6172, 0, 0], [3, 5010, 5012, 4986, 5010, 6172, 0, 1], # sell-signal [4, 5010, 5251, 4855, 4995, 6172, 0, 0], # Triggers ROI, sell-signal acted on [5, 4995, 4995, 4950, 4950, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.05}, profit_perc=0.002, use_exit_signal=True, trades=[BTrade(exit_reason=ExitType.EXIT_SIGNAL, open_tick=1, close_tick=4)] ) # Test 31: trailing_stop should raise so candle 3 causes a stoploss # Same case than tc11 - but candle 3 "gaps down" - the stoploss will be above the candle, # therefore "open" will be used # stop-loss: 10%, ROI: 10% (should not apply), stoploss adjusted candle 2 tc31 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5100, 4950, 5100, 6172, 0, 0], [2, 5100, 5251, 5100, 5100, 6172, 0, 0], [3, 4850, 5050, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.10}, profit_perc=-0.03, trailing_stop=True, trailing_only_offset_is_reached=True, trailing_stop_positive_offset=0.05, trailing_stop_positive=0.03, trades=[BTrade(exit_reason=ExitType.TRAILING_STOP_LOSS, open_tick=1, close_tick=3)] ) # Test 32: (Short of test 31) trailing_stop should raise so candle 3 causes a stoploss # Same case than tc11 - but candle 3 "gaps down" - the stoploss will be above the candle, # therefore "open" will be used # stop-loss: 10%, ROI: 10% (should not apply), stoploss adjusted candle 2 tc32 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 0, 0, 1, 0], [1, 5000, 5050, 4890, 4890, 6172, 0, 0, 0, 0], [2, 4890, 4890, 4749, 4890, 6172, 0, 0, 0, 0], [3, 5150, 5350, 4950, 4950, 6172, 0, 0, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0, 0, 0]], stop_loss=-0.10, roi={"0": 0.10}, profit_perc=-0.03, trailing_stop=True, trailing_only_offset_is_reached=True, trailing_stop_positive_offset=0.05, trailing_stop_positive=0.03, trades=[ BTrade(exit_reason=ExitType.TRAILING_STOP_LOSS, open_tick=1, close_tick=3, is_short=True) ] ) # Test 33: trailing_stop should be triggered by low of next candle, without adjusting stoploss using # high of stoploss candle. # stop-loss: 10%, ROI: 10% (should not apply) tc33 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5050, 5000, 5000, 6172, 0, 0], # enter trade (signal on last candle) [2, 4900, 5250, 4500, 5100, 6172, 0, 0], # Triggers trailing-stoploss [3, 5100, 5100, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.10}, profit_perc=-0.02, trailing_stop=True, trailing_stop_positive=0.03, trades=[BTrade(exit_reason=ExitType.TRAILING_STOP_LOSS, open_tick=1, close_tick=2)] ) # Test 34: trailing_stop should be triggered immediately on trade open candle. # stop-loss: 10%, ROI: 10% (should not apply) tc34 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5500, 4900, 4900, 6172, 0, 0], # enter trade (signal on last candle) and stop [2, 4900, 5250, 4500, 5100, 6172, 0, 0], [3, 5100, 5100, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.10}, profit_perc=-0.01, trailing_stop=True, trailing_stop_positive=0.01, trades=[BTrade(exit_reason=ExitType.TRAILING_STOP_LOSS, open_tick=1, close_tick=1)] ) # Test 35: trailing_stop should be triggered immediately on trade open candle. # stop-loss: 10%, ROI: 10% (should not apply) tc35 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5500, 4900, 4900, 6172, 0, 0], # enter trade (signal on last candle) and stop [2, 4900, 5250, 4500, 5100, 6172, 0, 0], [3, 5100, 5100, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.10}, profit_perc=0.01, trailing_stop=True, trailing_only_offset_is_reached=True, trailing_stop_positive_offset=0.02, trailing_stop_positive=0.01, trades=[BTrade(exit_reason=ExitType.TRAILING_STOP_LOSS, open_tick=1, close_tick=1)] ) # Test 36: trailing_stop should be triggered immediately on trade open candle. # stop-loss: 1%, ROI: 10% (should not apply) tc36 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5500, 4951, 5000, 6172, 0, 0], # enter trade and stop [2, 4900, 5250, 4500, 5100, 6172, 0, 0], [3, 5100, 5100, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.01, roi={"0": 0.10}, profit_perc=-0.01, trailing_stop=True, trailing_only_offset_is_reached=True, trailing_stop_positive_offset=0.02, trailing_stop_positive=0.01, use_custom_stoploss=True, trades=[BTrade(exit_reason=ExitType.TRAILING_STOP_LOSS, open_tick=1, close_tick=1)] ) # Test 37: trailing_stop should be triggered immediately on trade open candle. # stop-loss: 1%, ROI: 10% (should not apply) tc37 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0, 0, 0, 'buy_signal_01'], [1, 5000, 5500, 4951, 5000, 6172, 0, 0, 0, 0, None], # enter trade and stop [2, 4900, 5250, 4500, 5100, 6172, 0, 0, 0, 0, None], [3, 5100, 5100, 4650, 4750, 6172, 0, 0, 0, 0, None], [4, 4750, 4950, 4350, 4750, 6172, 0, 0, 0, 0, None]], stop_loss=-0.01, roi={"0": 0.10}, profit_perc=-0.01, trailing_stop=True, trailing_only_offset_is_reached=True, trailing_stop_positive_offset=0.02, trailing_stop_positive=0.01, use_custom_stoploss=True, trades=[BTrade( exit_reason=ExitType.TRAILING_STOP_LOSS, open_tick=1, close_tick=1, enter_tag='buy_signal_01' )] ) # Test 38: trailing_stop should be triggered immediately on trade open candle. # copy of Test37 using shorts. # stop-loss: 1%, ROI: 10% (should not apply) tc38 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 0, 0, 1, 0, 'short_signal_01'], [1, 5000, 5049, 4500, 5000, 6172, 0, 0, 0, 0, None], # enter trade and stop [2, 4900, 5250, 4500, 5100, 6172, 0, 0, 0, 0, None], [3, 5100, 5100, 4650, 4750, 6172, 0, 0, 0, 0, None], [4, 4750, 4950, 4350, 4750, 6172, 0, 0, 0, 0, None]], stop_loss=-0.01, roi={"0": 0.10}, profit_perc=-0.01, trailing_stop=True, trailing_only_offset_is_reached=True, trailing_stop_positive_offset=0.02, trailing_stop_positive=0.01, use_custom_stoploss=True, trades=[BTrade( exit_reason=ExitType.TRAILING_STOP_LOSS, open_tick=1, close_tick=1, enter_tag='short_signal_01', is_short=True, )] ) # Test 39: Custom-entry-price below all candles should timeout - so no trade happens. tc39 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5500, 4951, 5000, 6172, 0, 0], # timeout [2, 4900, 5250, 4500, 5100, 6172, 0, 0], [3, 5100, 5100, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.01, roi={"0": 0.10}, profit_perc=0.0, custom_entry_price=4200, trades=[] ) # Test 40: Custom-entry-price above all candles should have rate adjusted to "entry candle high" tc40 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5500, 4951, 5000, 6172, 0, 0], # Timeout [2, 4900, 5250, 4500, 5100, 6172, 0, 0], [3, 5100, 5100, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.01, roi={"0": 0.10}, profit_perc=-0.01, custom_entry_price=7200, trades=[ BTrade(exit_reason=ExitType.STOP_LOSS, open_tick=1, close_tick=1) ]) # Test 41: Custom-entry-price above all candles should have rate adjusted to "entry candle high" tc41 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 0, 0, 1, 0], [1, 5000, 5500, 4951, 5000, 6172, 0, 0, 0, 0], # Timeout [2, 4900, 5250, 4500, 5100, 6172, 0, 0, 0, 0], [3, 5100, 5100, 4650, 4750, 6172, 0, 0, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0, 0, 0]], stop_loss=-0.01, roi={"0": 0.10}, profit_perc=-0.01, custom_entry_price=4000, trades=[ BTrade(exit_reason=ExitType.STOP_LOSS, open_tick=1, close_tick=1, is_short=True) ] ) # Test 42: Custom-entry-price around candle low # Would cause immediate ROI exit, but since the trade was entered # below open, we treat this as cheating, and delay the sell by 1 candle. # details: https://github.com/freqtrade/freqtrade/issues/6261 tc42 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5500, 4951, 4999, 6172, 0, 0], # Enter and immediate ROI [2, 4900, 5250, 4500, 5100, 6172, 0, 0], [3, 5100, 5100, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.01}, profit_perc=0.01, custom_entry_price=4952, trades=[BTrade(exit_reason=ExitType.ROI, open_tick=1, close_tick=2)] ) # Test 43: Custom-entry-price around candle low # Would cause immediate ROI exit below close # details: https://github.com/freqtrade/freqtrade/issues/6261 tc43 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5400, 5500, 4951, 5100, 6172, 0, 0], # Enter and immediate ROI [2, 4900, 5250, 4500, 5100, 6172, 0, 0], [3, 5100, 5100, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.01}, profit_perc=0.01, custom_entry_price=4952, trades=[BTrade(exit_reason=ExitType.ROI, open_tick=1, close_tick=1)] ) # Test 44: Custom exit price below all candles # Price adjusted to candle Low. tc44 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5500, 4951, 5000, 6172, 0, 0], [2, 4900, 5250, 4900, 5100, 6172, 0, 1], # exit - but timeout [3, 5100, 5100, 4950, 4950, 6172, 0, 0], [4, 5000, 5100, 4950, 4950, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.10}, profit_perc=-0.01, use_exit_signal=True, custom_exit_price=4552, trades=[BTrade(exit_reason=ExitType.EXIT_SIGNAL, open_tick=1, close_tick=3)] ) # Test 45: Custom exit price above all candles # causes sell signal timeout tc45 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5500, 4951, 5000, 6172, 0, 0], [2, 4950, 5250, 4900, 5100, 6172, 0, 1], # exit - entry timeout [3, 5100, 5100, 4950, 4950, 6172, 0, 0], [4, 5000, 5100, 4950, 4950, 6172, 0, 0]], stop_loss=-0.10, roi={"0": 0.10}, profit_perc=0.0, use_exit_signal=True, custom_exit_price=6052, trades=[BTrade(exit_reason=ExitType.FORCE_EXIT, open_tick=1, close_tick=4)] ) # Test 46: (Short of tc45) Custom short exit price above below candles # causes sell signal timeout tc46 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 0, 0, 1, 0], [1, 5000, 5000, 4951, 5000, 6172, 0, 0, 0, 0], [2, 4910, 5150, 4910, 5100, 6172, 0, 0, 0, 1], # exit - entry timeout [3, 5100, 5100, 4950, 4950, 6172, 0, 0, 0, 0], [4, 5000, 5100, 4950, 4950, 6172, 0, 0, 0, 0]], stop_loss=-0.10, roi={"0": 0.10}, profit_perc=0.0, use_exit_signal=True, custom_exit_price=4700, trades=[BTrade(exit_reason=ExitType.FORCE_EXIT, open_tick=1, close_tick=4, is_short=True)] ) # Test 47: Colliding long and short signal tc47 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0, 1, 0], [1, 5000, 5500, 4951, 5000, 6172, 0, 0, 0, 0], [2, 4900, 5250, 4900, 5100, 6172, 0, 0, 0, 0], [3, 5100, 5100, 4950, 4950, 6172, 0, 0, 0, 0], [4, 5000, 5100, 4950, 4950, 6172, 0, 0, 0, 0]], stop_loss=-0.10, roi={"0": 0.10}, profit_perc=0.0, use_exit_signal=True, trades=[] ) # Test 48: Custom-entry-price below all candles - readjust order tc48 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], [1, 5000, 5500, 4951, 5000, 6172, 0, 0], # timeout [2, 4900, 5250, 4500, 5100, 6172, 0, 0], # Order readjust [3, 5100, 5100, 4650, 4750, 6172, 0, 1], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.01, roi={"0": 0.10}, profit_perc=-0.087, use_exit_signal=True, timeout=1000, custom_entry_price=4200, adjust_entry_price=5200, trades=[BTrade(exit_reason=ExitType.EXIT_SIGNAL, open_tick=1, close_tick=4, is_short=False)] ) # Test 49: Custom-entry-price short above all candles - readjust order tc49 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 0, 0, 1, 0], [1, 5000, 5200, 4951, 5000, 6172, 0, 0, 0, 0], # timeout [2, 4900, 5250, 4900, 5100, 6172, 0, 0, 0, 0], # Order readjust [3, 5100, 5100, 4650, 4750, 6172, 0, 0, 0, 1], [4, 4750, 4950, 4350, 4750, 6172, 0, 0, 0, 0]], stop_loss=-0.01, roi={"0": 0.10}, profit_perc=0.05, use_exit_signal=True, timeout=1000, custom_entry_price=5300, adjust_entry_price=5000, trades=[BTrade(exit_reason=ExitType.EXIT_SIGNAL, open_tick=1, close_tick=4, is_short=True)] ) # Test 50: Custom-entry-price below all candles - readjust order cancels order tc50 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], # Enter long - place order [1, 5000, 5500, 4951, 5000, 6172, 0, 0], # Order readjust - cancel order [2, 4900, 5250, 4500, 5100, 6172, 0, 0], [3, 5100, 5100, 4650, 4750, 6172, 0, 0], [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.01, roi={"0": 0.10}, profit_perc=0.0, use_exit_signal=True, timeout=1000, custom_entry_price=4200, adjust_entry_price=None, trades=[] ) # Test 51: Custom-entry-price below all candles - readjust order leaves order in place and timeout. tc51 = BTContainer(data=[ # D O H L C V EL XL ES Xs BT [0, 5000, 5050, 4950, 5000, 6172, 1, 0], # Enter long - place order [1, 5000, 5500, 4951, 5000, 6172, 0, 0], # Order readjust - replace order [2, 4900, 5250, 4500, 5100, 6172, 0, 0], # Order readjust - maintain order [3, 5100, 5100, 4650, 4750, 6172, 0, 0], # Timeout [4, 4750, 4950, 4350, 4750, 6172, 0, 0]], stop_loss=-0.01, roi={"0": 0.10}, profit_perc=0.0, use_exit_signal=True, timeout=60, custom_entry_price=4200, adjust_entry_price=4100, trades=[] ) TESTS = [ tc0, tc1, tc2, tc3, tc4, tc5, tc6, tc7, tc8, tc9, tc10, tc11, tc12, tc13, tc14, tc15, tc16, tc17, tc18, tc19, tc20, tc21, tc22, tc23, tc24, tc25, tc26, tc27, tc28, tc29, tc30, tc31, tc32, tc33, tc34, tc35, tc36, tc37, tc38, tc39, tc40, tc41, tc42, tc43, tc44, tc45, tc46, tc47, tc48, tc49, tc50, tc51, ] @pytest.mark.parametrize("data", TESTS) def test_backtest_results(default_conf, fee, mocker, caplog, data: BTContainer) -> None: """ run functional tests """ default_conf["stoploss"] = data.stop_loss default_conf["minimal_roi"] = data.roi default_conf["timeframe"] = tests_timeframe default_conf["trailing_stop"] = data.trailing_stop default_conf["trailing_only_offset_is_reached"] = data.trailing_only_offset_is_reached if data.timeout: default_conf['unfilledtimeout'].update({ 'entry': data.timeout, 'exit': data.timeout, }) # Only add this to configuration If it's necessary if data.trailing_stop_positive is not None: default_conf["trailing_stop_positive"] = data.trailing_stop_positive default_conf["trailing_stop_positive_offset"] = data.trailing_stop_positive_offset default_conf["use_exit_signal"] = data.use_exit_signal mocker.patch("freqtrade.exchange.Exchange.get_fee", return_value=0.0) mocker.patch("freqtrade.exchange.Exchange.get_min_pair_stake_amount", return_value=0.00001) mocker.patch("freqtrade.exchange.Exchange.get_max_pair_stake_amount", return_value=float('inf')) mocker.patch("freqtrade.exchange.Binance.get_max_leverage", return_value=100) patch_exchange(mocker) frame = _build_backtest_dataframe(data.data) backtesting = Backtesting(default_conf) # TODO: Should we initialize this properly?? backtesting._can_short = True backtesting._set_strategy(backtesting.strategylist[0]) backtesting.required_startup = 0 backtesting.strategy.advise_entry = lambda a, m: frame backtesting.strategy.advise_exit = lambda a, m: frame if data.custom_entry_price: backtesting.strategy.custom_entry_price = MagicMock(return_value=data.custom_entry_price) if data.custom_exit_price: backtesting.strategy.custom_exit_price = MagicMock(return_value=data.custom_exit_price) backtesting.strategy.adjust_entry_price = MagicMock(return_value=data.adjust_entry_price) backtesting.strategy.use_custom_stoploss = data.use_custom_stoploss backtesting.strategy.leverage = lambda **kwargs: data.leverage caplog.set_level(logging.DEBUG) pair = "UNITTEST/BTC" # Dummy data as we mock the analyze functions data_processed = {pair: frame.copy()} min_date, max_date = get_timerange({pair: frame}) result = backtesting.backtest( processed=data_processed, start_date=min_date, end_date=max_date, max_open_trades=10, ) results = result['results'] assert len(results) == len(data.trades) assert round(results["profit_ratio"].sum(), 3) == round(data.profit_perc, 3) for c, trade in enumerate(data.trades): res: BTrade = results.iloc[c] assert res.exit_reason == trade.exit_reason.value assert res.enter_tag == trade.enter_tag assert res.open_date == _get_frame_time_from_offset(trade.open_tick) assert res.close_date == _get_frame_time_from_offset(trade.close_tick) assert res.is_short == trade.is_short backtesting.cleanup() del backtesting