Timeframe
15m
Direction
Long Only
Stoploss
-9.0%
Trailing Stop
Yes
ROI
0m: 50.0%, 60m: 45.0%, 120m: 40.0%, 180m: 30.0%
Interface Version
N/A
Startup Candles
N/A
Indicators
4
freqtrade/freqtrade-strategies
Strategy 003 author@: Gerald Lonlas github@: https://github.com/freqtrade/freqtrade-strategies
import logging
import numpy as np
import pandas as pd
from technical import qtpylib
from pandas import DataFrame
from datetime import datetime, timezone
from typing import Optional
from functools import reduce
import talib.abstract as ta
import pandas_ta as pta
from freqtrade.strategy import (BooleanParameter, CategoricalParameter, DecimalParameter,
IStrategy, IntParameter, RealParameter, merge_informative_pair)
import freqtrade.vendor.qtpylib.indicators as qtpylib
from freqtrade.persistence import Trade
logger = logging.getLogger(__name__)
class thetank2(IStrategy):
### Strategy parameters ###
exit_profit_only = True ### No selling at a loss
use_custom_stoploss = True
trailing_stop = True
position_adjustment_enable = True
ignore_roi_if_entry_signal = True
use_exit_signal = True
stoploss = -0.09
startup_candle_count: int = 30
timeframe = '15m'
# DCA Parameters
position_adjustment_enable = True
max_entry_position_adjustment = 2
max_dca_multiplier = 2
minimal_roi = {
"12000": 0.01,
"2400": 0.10,
"300": 0.15,
"180": 0.30,
"120":0.40,
"60": 0.45,
"0": 0.50
}
### Hyperoptable parameters ###
# entry optizimation
max_epa = CategoricalParameter([0, 1, 2], default=2, space="buy", optimize=True)
# protections
cooldown_lookback = IntParameter(24, 48, default=46, space="protection", optimize=True)
stop_duration = IntParameter(12, 200, default=5, space="protection", optimize=True)
use_stop_protection = BooleanParameter(default=True, space="protection", optimize=True)
# indicators
wavelength = IntParameter(low=7, high=10, default=8, space='buy', optimize=True)
# trading
buy_rsi = IntParameter(low=20, high=30, default=25, space='buy', optimize=True, load=True)
buy_rsi_bear = IntParameter(low=40, high=55, default=45, space='buy', optimize=True, load=True)
buy_rsi_bull = IntParameter(low=55, high=75, default=65, space='buy', optimize=True, load=True)
buy_wt_bear = IntParameter(low=40, high=55, default=45, space='buy', optimize=True, load=True)
buy_wt_bull = IntParameter(low=55, high=75, default=65, space='buy', optimize=True, load=True)
sell_rsi = IntParameter(low=50, high=80, default=55, space='sell', optimize=True, load=True)
# dca level optimization
dca1 = DecimalParameter(low=0.01, high=0.08, decimals=2, default=0.05, space='buy', optimize=True, load=True)
dca2 = DecimalParameter(low=0.08, high=0.15, decimals=2, default=0.10, space='buy', optimize=True, load=True)
dca3 = DecimalParameter(low=0.15, high=0.25, decimals=2, default=0.15, space='buy', optimize=True, load=True)
#trailing stop loss optimiziation
tsl_target5 = DecimalParameter(low=0.2, high=0.4, decimals=1, default=0.3, space='sell', optimize=True, load=True)
ts5 = DecimalParameter(low=0.04, high=0.06, default=0.05, space='sell', optimize=True, load=True)
tsl_target4 = DecimalParameter(low=0.18, high=0.3, default=0.2, space='sell', optimize=True, load=True)
ts4 = DecimalParameter(low=0.03, high=0.05, default=0.045, space='sell', optimize=True, load=True)
tsl_target3 = DecimalParameter(low=0.10, high=0.15, default=0.15, space='sell', optimize=True, load=True)
ts3 = DecimalParameter(low=0.025, high=0.04, default=0.035, space='sell', optimize=True, load=True)
tsl_target2 = DecimalParameter(low=0.07, high=0.12, default=0.1, space='sell', optimize=True, load=True)
ts2 = DecimalParameter(low=0.015, high=0.03, default=0.02, space='sell', optimize=True, load=True)
tsl_target1 = DecimalParameter(low=0.04, high=0.06, default=0.06, space='sell', optimize=True, load=True)
ts1 = DecimalParameter(low=0.01, high=0.016, default=0.013, space='sell', optimize=True, load=True)
tsl_target0 = DecimalParameter(low=0.02, high=0.05, default=0.03, space='sell', optimize=True, load=True)
ts0 = DecimalParameter(low=0.008, high=0.015, default=0.013, space='sell', optimize=True, load=True)
### protections ###
@property
def protections(self):
prot = []
prot.append({
"method": "CooldownPeriod",
"stop_duration_candles": self.cooldown_lookback.value
})
if self.use_stop_protection.value:
prot.append({
"method": "StoplossGuard",
"lookback_period_candles": 24 * 3,
"trade_limit": 1,
"stop_duration_candles": self.stop_duration.value,
"only_per_pair": False
})
return prot
### Dollar Cost Averaging ###
# This is called when placing the initial order (opening trade)
def custom_stake_amount(self, pair: str, current_time: datetime, current_rate: float,
proposed_stake: float, min_stake: Optional[float], max_stake: float,
leverage: float, entry_tag: Optional[str], side: str,
**kwargs) -> float:
# # if self.max_epa.value == 0:
# # self.max_dca_multiplier = 1
# # elif self.max_epa.value == 1:
# # self.max_dca_multiplier = 2
# # elif self.max_epa.value == 2:
# # self.max_dca_multiplier = 3
# # else:
# # self.max_dca_multiplier = 4
# We need to leave most of the funds for possible further DCA orders
# This also applies to fixed stakes
return proposed_stake / self.max_dca_multiplier
def adjust_trade_position(self, trade: Trade, current_time: datetime,
current_rate: float, current_profit: float,
min_stake: Optional[float], max_stake: float,
current_entry_rate: float, current_exit_rate: float,
current_entry_profit: float, current_exit_profit: float,
**kwargs) -> Optional[float]:
"""
Custom trade adjustment logic, returning the stake amount that a trade should be
increased or decreased.
This means extra buy or sell orders with additional fees.
Only called when `position_adjustment_enable` is set to True.
For full documentation please go to https://www.freqtrade.io/en/latest/strategy-advanced/
When not implemented by a strategy, returns None
:param trade: trade object.
:param current_time: datetime object, containing the current datetime
:param current_rate: Current buy rate.
:param current_profit: Current profit (as ratio), calculated based on current_rate.
:param min_stake: Minimal stake size allowed by exchange (for both entries and exits)
:param max_stake: Maximum stake allowed (either through balance, or by exchange limits).
:param current_entry_rate: Current rate using entry pricing.
:param current_exit_rate: Current rate using exit pricing.
:param current_entry_profit: Current profit using entry pricing.
:param current_exit_profit: Current profit using exit pricing.
:param **kwargs: Ensure to keep this here so updates to this won't break your strategy.
:return float: Stake amount to adjust your trade,
Positive values to increase position, Negative values to decrease position.
Return None for no action.
"""
if current_profit > 0.10 and trade.nr_of_successful_exits == 0:
# Take half of the profit at +5%
return -(trade.stake_amount / 2)
if current_profit > -(self.dca1.value) and trade.nr_of_successful_entries == 1:
return None
if current_profit > -(self.dca2.value) and trade.nr_of_successful_entries == 2:
return None
if current_profit > -(self.dca3.value) and trade.nr_of_successful_entries == 3:
return None
# Obtain pair dataframe (just to show how to access it)
dataframe, _ = self.dp.get_analyzed_dataframe(trade.pair, self.timeframe)
filled_entries = trade.select_filled_orders(trade.entry_side)
count_of_entries = trade.nr_of_successful_entries
# Allow up to 3 additional increasingly larger buys (4 in total)
# Initial buy is 1x
# If that falls to -2.5% profit, we buy more,
# If that falls down to -5% again, we buy 1.5x more
# If that falls once again down to -5%, we buy more
# Total stake for this trade would be 1 + 1.5 + 2 + 2.5 = 7x of the initial allowed stake.
# That is why max_dca_multiplier is 7
# Hope you have a deep wallet!
try:
# This returns first order stake size
stake_amount = filled_entries[0].cost
# This then calculates current safety order size
if count_of_entries == 1:
stake_amount = stake_amount * 1
elif count_of_entries == 2:
stake_amount = stake_amount * 1
elif count_of_entries == 3:
stake_amount = stake_amount * 1
else:
stake_amount = stake_amount
return stake_amount
except Exception as exception:
return None
return None
### Trailing Stop ###
def custom_stoploss(self, pair: str, trade: 'Trade', current_time: datetime,
current_rate: float, current_profit: float, **kwargs) -> float:
for stop5 in self.tsl_target5.range:
if (current_profit > stop5):
for stop5a in self.ts5.range:
return stop5a
for stop4 in self.tsl_target4.range:
if (current_profit > stop4):
for stop4a in self.ts4.range:
return stop4a
for stop3 in self.tsl_target3.range:
if (current_profit > stop3):
for stop3a in self.ts3.range:
return stop3a
for stop2 in self.tsl_target2.range:
if (current_profit > stop2):
for stop2a in self.ts2.range:
return stop2a
for stop1 in self.tsl_target1.range:
if (current_profit > stop1):
for stop1a in self.ts1.range:
return stop1a
for stop0 in self.tsl_target0.range:
if (current_profit > stop0):
for stop0a in self.ts0.range:
return stop0a
return self.stoploss
### NORMAL INDICATORS ###
def populate_indicators(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
# RSI
dataframe['rsi'] = ta.RSI(dataframe)
dataframe['rsi_ma'] = ta.SMA(dataframe['rsi'], timeperiod=10)
# WaveTrend using OHLC4 or HA close - 3/21
ap = (0.25 * (dataframe['high'] + dataframe['low'] + dataframe["close"] + dataframe["open"]))
dataframe['esa'] = ta.EMA(ap, timeperiod = 3)
dataframe['d'] = ta.EMA(abs(ap - dataframe['esa']), timeperiod = 3)
dataframe['wave_ci'] = (ap-dataframe['esa']) / (0.015 * dataframe['d'])
dataframe['wave_t1'] = ta.EMA(dataframe['wave_ci'], timeperiod = 21)
dataframe['wave_t2'] = ta.SMA(dataframe['wave_t1'], timeperiod = 3)
# SMA
dataframe['200_SMA'] = ta.SMA(dataframe["close"], timeperiod = 200)
dataframe['30_SMA'] = ta.SMA(dataframe["close"], timeperiod = 30)
# TTM Squeeze
ttm_Squeeze = pta.squeeze(high = dataframe['high'], low = dataframe['low'], close = dataframe["close"], lazybear = True)
dataframe['ttm_Squeeze'] = ttm_Squeeze['SQZ_20_2.0_20_1.5_LB']
dataframe['ttm_ema'] = ta.EMA(dataframe['ttm_Squeeze'], timeperiod = 4)
dataframe['squeeze_ON'] = ttm_Squeeze['SQZ_ON']
dataframe['squeeze_OFF'] = ttm_Squeeze['SQZ_OFF']
dataframe['NO_squeeze'] = ttm_Squeeze['SQZ_NO']
# if self.dp.runmode.value in ('live', 'dry_run'):
# ticker = self.dp.ticker(metadata['pair'])
# dataframe['last_price'] = ticker['last']
# dataframe['volume24h'] = ticker['quoteVolume']
# dataframe['vwap'] = ticker['vwap']
# # Trading pair: {'symbol': 'KAVA/USDT', 'timestamp': 1675451904532, 'datetime': '2023-02-03T19:18:24.532Z',
# 'high': 1.0652, 'low': 1.0031, 'bid': 1.0382, 'bidVolume': None, 'ask': 1.0395, 'askVolume': None,
# 'vwap': 1.035200204815235, 'open': 1.0558, 'close': 1.0403, 'last': 1.0403, 'previousClose': None, 'change': -0.0155,
# 'percentage': -1.46, 'average': 1.04130553, 'baseVolume': 457210.7641, 'quoteVolume': 473304.67664005,
# 'info':
# {'time': 1675451904532, 'symbol': 'KAVA-USDT', 'buy': '1.0382', 'sell': '1.0395', 'changeRate': '-0.0146', 'changePrice': '-0.0155', 'high': '1.0652', 'low': '1.0031', 'vol': '457210.7641', 'volValue': '473304.67664005', 'last': '1.0403', 'averagePrice': '1.04130553', 'takerFeeRate': '0.001', 'makerFeeRate': '0.001', 'takerCoefficient': '1', 'makerCoefficient': '1'}}, self.max_epa.value: 1, self.max_dca_multiplier: 2
if (dataframe['30_SMA'].iloc[-1] > dataframe['200_SMA'].iloc[-1]
and dataframe['30_SMA'].iloc[-1] > dataframe['30_SMA'].iloc[-2]
and dataframe['200_SMA'].iloc[-1] > dataframe['200_SMA'].iloc[-2]).all():
self.max_epa.value = 0
elif (dataframe['30_SMA'].iloc[-1] > dataframe['200_SMA'].iloc[-1]
and dataframe['30_SMA'].iloc[-1] > dataframe['30_SMA'].iloc[-2].all()):
self.max_epa.value = 1
elif (dataframe['30_SMA'].iloc[-1] < dataframe['200_SMA'].iloc[-1]
and dataframe['30_SMA'].iloc[-1] > dataframe['30_SMA'].iloc[-2].all()):
self.max_epa.value = 1
else:
self.max_epa.value = 2
# # print(f"Trading Pair: {dataframe.name}")
# print(f"self.max_epa.value: {self.max_epa.value}")
# print(f"self.max_dca_multiplier: {self.max_dca_multiplier}")
# print(f"Trading pair: {ticker['symbol']}, max_epa: {self.max_epa.value}, dca_multiplier: {self.max_dca_multiplier}")
return dataframe
### ENTRY CONDITIONS ###
def populate_entry_trend(self, df: DataFrame, metadata: dict) -> DataFrame:
df.loc[
(
# Signal: RSI crosses above 30
(df['squeeze_ON'] == 1)&
(df['rsi_ma'] > df['rsi_ma'].shift(1)) &
(df['200_SMA'] < df['200_SMA'].shift(1)) &
(df['rsi'] < self.buy_rsi_bear.value) &
(df['wave_t1'] < self.buy_wt_bear.value)&
(df['wave_t1'] > df['wave_t1'].shift(1)) & # Guard: Wave 1 is raising
(qtpylib.crossed_above(df['wave_t1'], df['wave_t2'])) &
(df['volume'] > 0) # Make sure Volume is not 0
),
['enter_long', 'enter_tag']] = (1, 'ttm_Squeeze/WT - bear')
df.loc[
(
(df['squeeze_ON'] == 1)&
(df['rsi_ma'] > df['rsi_ma'].shift(1)) &
(df['rsi'] < self.buy_rsi_bear.value) &
(df['200_SMA'] < df['200_SMA'].shift(1)) &
(df['wave_t1'] < self.buy_wt_bear.value)&
(df['wave_t1'] > df['wave_t1'].shift(1)) & # Guard: Wave 1 is raising
(df['wave_t1'].shift(2) > df['wave_t1'].shift(1)) &
(df['volume'] > 0) # Make sure Volume is not 0
),
['enter_long', 'enter_tag']] = (1, 'ttm_Squeeze/WTT - bear')
df.loc[
(
(df['rsi_ma'] > df['rsi_ma'].shift(1)) &
(df['rsi'] < self.buy_rsi_bear.value) &
(df['200_SMA'] < df['200_SMA'].shift(1)) &
(df['wave_t1'] < self.buy_wt_bear.value)&
(df['wave_t1'] > df['wave_t1'].shift(1)) & # Guard: Wave 1 is raising
(df['wave_t1'].shift(2) > df['wave_t1'].shift(1)) &
(df['volume'] > 0) # Make sure Volume is not 0
),
['enter_long', 'enter_tag']] = (1, 'WT transition - bear')
df.loc[
(
(df['squeeze_ON'] == 1)&
(df['rsi_ma'] > df['rsi_ma'].shift(1)) &
(df['rsi'] < self.buy_rsi_bull.value) &
(df['200_SMA'] > df['200_SMA'].shift(1)) &
(df['wave_t1'] > df['wave_t1'].shift(1)) & # Guard: Wave 1 is raising
(qtpylib.crossed_above(df['wave_t1'], df['wave_t2'])) &
(df['volume'] > 0) # Make sure Volume is not 0
),
['enter_long', 'enter_tag']] = (1, 'ttm_Squeeze/WT - bull')
df.loc[
(
(df['squeeze_ON'] == 1)&
(df['rsi_ma'] > df['rsi_ma'].shift(1)) &
(df['rsi'] < self.buy_rsi_bull.value) &
(df['200_SMA'] > df['200_SMA'].shift(1)) &
(df['wave_t1'] > df['wave_t1'].shift(1)) &
(df['wave_t1'] < self.buy_wt_bull.value) &
(df['wave_t1'].shift(2) > df['wave_t1'].shift(1)) &
(df['volume'] > 0) # Make sure Volume is not 0
),
['enter_long', 'enter_tag']] = (1, 'ttm_Squeeze/WTT - bull')
df.loc[
(
(df['rsi_ma'] > df['rsi_ma'].shift(1)) &
(df['rsi'] < self.buy_rsi_bull.value) &
(df['200_SMA'] > df['200_SMA'].shift(1)) &
(df['wave_t1'] > df['wave_t1'].shift(1)) & # Guard: Wave 1 is raising
(df['wave_t1'] < self.buy_wt_bull.value) &
(df['wave_t1'].shift(2) > df['wave_t1'].shift(1)) &
(df['volume'] > 0) # Make sure Volume is not 0
),
['enter_long', 'enter_tag']] = (1, 'WT transition - bull')
df.loc[
(
(df['rsi'] > self.buy_rsi.value) &
(df['rsi_ma'] > df['rsi_ma'].shift(1)) &
(df['rsi'] < self.buy_rsi_bear.value) &
(df['200_SMA'] < df['200_SMA'].shift(1)) &
(qtpylib.crossed_above(df['rsi'], df['rsi_ma'])) &
(df['volume'] > 0) # Make sure Volume is not 0
),
['enter_long', 'enter_tag']] = (1, 'RSI-XO bear')
df.loc[
(
# Signal: RSI crosses above 30
(df['rsi'] > self.buy_rsi.value) &
(df['rsi_ma'] > df['rsi_ma'].shift(1)) &
(df['rsi'] < self.buy_rsi_bull.value) &
(df['200_SMA'] > df['200_SMA'].shift(1)) &
(qtpylib.crossed_above(df['rsi'], df['rsi_ma'])) &
(df['volume'] > 0) # Make sure Volume is not 0
),
['enter_long', 'enter_tag']] = (1, 'RSI-XO bull')
return df
### EXIT CONDITIONS ###
def populate_exit_trend(self, df: DataFrame, metadata: dict) -> DataFrame:
df.loc[
(
# Signal: RSI crosses above 30
(df['squeeze_ON'] == 1)&
(df['wave_t1'] < df['wave_t1'].shift(1)) & # Guard: Wave 1 is raising
(df['wave_t1'].shift(2) < df['wave_t1'].shift(1)) &
(df['volume'] > 0) # Make sure Volume is not 0
),
['exit_long', 'exit_tag']] = (1, 'ttm_Squeeze/WT transition')
df.loc[
(
# Signal: RSI crosses above 30
(df['rsi'] < df['rsi_ma']) &
# (df['tf'] > df['close']) &
(df['wave_t1'] < df['wave_t1'].shift(1)) & # Guard: Wave 1 is raising
(qtpylib.crossed_above(df['wave_t2'], df['wave_t1'])) &
(df['volume'] > 0) # Make sure Volume is not 0
),
['exit_long', 'exit_tag']] = (1, 'WT/RSI-XO')
df.loc[
(
(df['rsi'] > self.sell_rsi.value) &
(qtpylib.crossed_above(df['rsi_ma'], df['rsi'])) &
(df['volume'] > 0) # Make sure Volume is not 0
),
['exit_long', 'exit_tag']] = (1, 'RSI-XO')
df.loc[
(
# Signal: RSI crosses above 30
(df['rsi'] > self.sell_rsi.value) &
# (df['rsi'] < df['rsi_ma'])&
(df['wave_t1'] < df['wave_t1'].shift(1)) & # Guard: Wave 1 is raising
(df['wave_t1'].shift(1) > df['wave_t1'].shift(2)) &
# (abs(df['wave_t2'] - df['wave_t1']) > 2.5) &
(df['volume'] > 0) # Make sure Volume is not 0
),
['exit_long', 'exit_tag']] = (1, 'WT/RSI TURN DOWN')
return df
# Best result:
# 40/250: 1027 trades. 699/290/38 Wins/Draws/Losses. Avg profit 0.91%. Median profit 0.25%. Total profit 6051.24032389 USDT ( 60.51%). Avg duration 11:33:00 min. Objective: -6051.24032
# # Buy hyperspace params:
# buy_params = {
# "buy_rsi": 21,
# "buy_rsi_bear": 48,
# "buy_rsi_bull": 75,
# "buy_wt_bear": 46,
# "buy_wt_bull": 70,
# "dca1": 0.01,
# "dca2": 0.11,
# "dca3": 0.23,
# "max_epa": 2,
# "wavelength": 10,
# }
# # Sell hyperspace params:
# sell_params = {
# "sell_rsi": 71,
# "ts0": 0.012,
# "ts1": 0.011,
# "ts2": 0.022,
# "ts3": 0.03,
# "ts4": 0.038,
# "ts5": 0.045,
# "tsl_target0": 0.029,
# "tsl_target1": 0.058,
# "tsl_target2": 0.091,
# "tsl_target3": 0.143,
# "tsl_target4": 0.183,
# "tsl_target5": 0.2,
# }
# # Protection hyperspace params:
# protection_params = {
# "cooldown_lookback": 38, # value loaded from strategy
# "stop_duration": 47, # value loaded from strategy
# "use_stop_protection": False, # value loaded from strategy
# }
# # ROI table:
# minimal_roi = {
# "0": 0.364,
# "45": 0.145,
# "160": 0.048,
# "520": 0
# }
# # Stoploss:
# stoploss = -0.286
# # Trailing stop:
# trailing_stop = True # value loaded from strategy
# trailing_stop_positive = 0.269 # value loaded from strategy
# trailing_stop_positive_offset = 0.317 # value loaded from strategy
# trailing_only_offset_is_reached = True # value loaded from strategy
# # Max Open Trades:
# max_open_trades = 12 # value loaded from strategy
# Best result:
# 53/250: 886 trades. 608/262/16 Wins/Draws/Losses. Avg profit 0.90%. Median profit 0.23%. Total profit 5306.73713390 USDT ( 53.07%). Avg duration 12:10:00 min. Objective: -5306.73713
# # Buy hyperspace params:
# buy_params = {
# "buy_rsi": 22,
# "buy_rsi_bear": 40,
# "buy_rsi_bull": 59,
# "buy_wt_bear": 48,
# "buy_wt_bull": 56,
# "dca1": 0.01,
# "dca2": 0.14,
# "dca3": 0.21,
# "max_epa": 1,
# "wavelength": 9,
# }
# # Sell hyperspace params:
# sell_params = {
# "sell_rsi": 68,
# "ts0": 0.009,
# "ts1": 0.013,
# "ts2": 0.025,
# "ts3": 0.028,
# "ts4": 0.04,
# "ts5": 0.047,
# "tsl_target0": 0.047,
# "tsl_target1": 0.053,
# "tsl_target2": 0.099,
# "tsl_target3": 0.135,
# "tsl_target4": 0.25,
# "tsl_target5": 0.4,
# }
# # Protection hyperspace params:
# protection_params = {
# "cooldown_lookback": 26,
# "stop_duration": 83,
# "use_stop_protection": False,
# }
# # ROI table:
# minimal_roi = {
# "0": 0.154,
# "120": 0.09,
# "300": 0.044,
# "554": 0
# }
# # Stoploss:
# stoploss = -0.205
# # Trailing stop:
# trailing_stop = True
# trailing_stop_positive = 0.342
# trailing_stop_positive_offset = 0.437
# trailing_only_offset_is_reached = True
# # Max Open Trades:
# max_open_trades = 12 # value loaded from strategy
# (.env) core@core:~/freqtrade$ freqtrade hyperopt --hyperopt-loss OnlyProfitHyperOptLoss --strategy thetank2 --config ho.json -e 250 --timerange 20230101-20230215 --spaces buy sell roi stoploss trailing protection