# Zeus Strategy: First Generation of GodStra Strategy with maximum
# AVG/MID profit in USDT
# Author: @Mablue (Masoud Azizi)
# github: https://github.com/mablue/
# IMPORTANT: INSTALL TA BEFOUR RUN(pip install ta)
# freqtrade hyperopt --hyperopt-loss SharpeHyperOptLoss --spaces buy sell roi --strategy Zeus
# --- Do not remove these libs ---
from datetime import timedelta, datetime
from typing import Optional
from freqtrade import data
from freqtrade.persistence import Trade
from freqtrade.strategy.parameters import CategoricalParameter, DecimalParameter, IntParameter, BooleanParameter
from numpy.lib import math
from freqtrade.strategy.interface import IStrategy
import pandas
from pandas import DataFrame
import time
import logging
import calendar
from freqtrade.loggers import setup_logging
from freqtrade.strategy.strategy_helper import merge_informative_pair
# --------------------------------
# Add your lib to import here
import ta
from functools import reduce
import numpy as np
import talib.abstract as talib
from freqtrade.strategy.strategy_helper import merge_informative_pair
import freqtrade.vendor.qtpylib.indicators as qtpylib
from random import shuffle
logger = logging.getLogger(__name__)
operators = [
"D", # Disabled gene
">", # Indicator, bigger than cross indicator
"<", # Indicator, smaller than cross indicator
"=", # Indicator, equal with cross indicator
"C", # Indicator, crossed the cross indicator
"CA", # Indicator, crossed above the cross indicator
"CB", # Indicator, crossed below the cross indicator
">R", # Normalized indicator, bigger than real number
"=R", # Normalized indicator, equal with real number
"R", # Normalized indicator devided to cross indicator, bigger than real number
"/=R", # Normalized indicator devided to cross indicator, equal with real number
"/ 10)
# TODO : it ill callculated in populate indicators.
dataframe[indicator] = gene_calculator(dataframe, indicator)
dataframe[crossed_indicator] = gene_calculator(dataframe, crossed_indicator)
indicator_trend_sma = f"{indicator}-SMA-{TREND_CHECK_CANDLES}"
if operator in ["UT", "DT", "OT", "CUT", "CDT", "COT"]:
dataframe[indicator_trend_sma] = gene_calculator(dataframe, indicator_trend_sma)
if operator == ">":
condition = (dataframe[indicator].shift(decalage) > dataframe[crossed_indicator].shift(decalage))
elif operator == "=":
condition = (np.isclose(dataframe[indicator].shift(decalage), dataframe[crossed_indicator].shift(decalage)))
elif operator == "<":
condition = (dataframe[indicator].shift(decalage) < dataframe[crossed_indicator].shift(decalage))
elif operator == "C":
condition = (
(qtpylib.crossed_below(dataframe[indicator].shift(decalage), dataframe[crossed_indicator].shift(decalage))) |
(qtpylib.crossed_above(dataframe[indicator].shift(decalage), dataframe[crossed_indicator].shift(decalage)))
)
elif operator == "CA":
condition = (qtpylib.crossed_above(dataframe[indicator].shift(decalage), dataframe[crossed_indicator].shift(decalage)))
elif operator == "CB":
condition = (qtpylib.crossed_below(dataframe[indicator].shift(decalage), dataframe[crossed_indicator].shift(decalage)))
elif operator == ">R":
condition = (dataframe[indicator].shift(decalage) > real_num)
elif operator == "=R":
condition = (np.isclose(dataframe[indicator].shift(decalage), real_num))
elif operator == "R":
condition = (dataframe[indicator].shift(decalage).div(dataframe[crossed_indicator].shift(decalage)) > real_num)
elif operator == "/=R":
condition = (np.isclose(dataframe[indicator].shift(decalage).div(dataframe[crossed_indicator].shift(decalage)), real_num))
elif operator == "/ dataframe[indicator_trend_sma].shift(decalage))
elif operator == "DT":
condition = (dataframe[indicator].shift(decalage) < dataframe[indicator_trend_sma].shift(decalage))
elif operator == "OT":
condition = (np.isclose(dataframe[indicator].shift(decalage), dataframe[indicator_trend_sma].shift(decalage)))
elif operator == "CUT":
condition = (
(
qtpylib.crossed_above(dataframe[indicator].shift(decalage), dataframe[indicator_trend_sma].shift(decalage))
) &
(
dataframe[indicator].shift(decalage) > dataframe[indicator_trend_sma].shift(decalage)
)
)
elif operator == "CDT":
condition = (
(
qtpylib.crossed_below(dataframe[indicator].shift(decalage), dataframe[indicator_trend_sma].shift(decalage))
) &
(
dataframe[indicator].shift(decalage) < dataframe[indicator_trend_sma].shift(decalage)
)
)
elif operator == "COT":
condition = (
(
(
qtpylib.crossed_below(dataframe[indicator].shift(decalage), dataframe[indicator_trend_sma].shift(decalage))
) |
(
qtpylib.crossed_above(dataframe[indicator].shift(decalage), dataframe[indicator_trend_sma].shift(decalage))
)
) &
(
np.isclose(dataframe[indicator].shift(decalage), dataframe[indicator_trend_sma].shift(decalage))
)
)
return condition, dataframe
class Zeus_5_1(IStrategy):
# * 1/43: 86 trades. 72/6/8 Wins/Draws/Losses. Avg profit 12.66%. Median profit 11.99%. Total profit 0.10894395 BTC ( 108.94Σ%). Avg duration 3 days, 0:31:00 min. Objective: -48.48793
# "max_open_trades": 10,
# "stake_currency": "BTC",
# "stake_amount": 0.01,
# "tradable_balance_ratio": 0.99,
# "timeframe": "4h",
# "dry_run_wallet": 0.1,
# Buy hyperspace params:
buy_b_params = {
"buy_b_cat": "R", "=R", "R", "=R", "R", "=R", " None:
inf_tf = '5m'
pairs = self.dp.current_whitelist()
# print("Calcul des pairs informatives")
for pairname in pairs:
self.stop_buying[pairname] = True
# print("Fin Calcul des pairs informatives")
def confirm_trade_entry(self, pair: str, order_type: str, amount: float, rate: float, time_in_force: str,
current_time: datetime, entry_tag: Optional[str], **kwargs) -> bool:
allow_to_buy = True
informative, _ = self.dp.get_analyzed_dataframe(pair=pair, timeframe=self.timeframe)
info_last_candle = informative.iloc[-1].squeeze()
info_previous_last_candle = informative.iloc[-2].squeeze()
if self.stop_buy_for_all is True:
if info_last_candle['pct_change_1_1d'] > self.btc_allow_to_buy.value:
self.stop_buy_for_all = False
logger.info("1 -BUYING IS ENABLED %s date %s", pair, info_last_candle['date'])
else:
logger.info("1 -BUYING IS BLOCKED BY BTC FALL %s date %s", pair, info_last_candle['date'])
return False
if self.stop_buying.get(pair, None) is None:
print("enable buying tag", pair)
self.stop_buying[pair] = False
# if (info_last_candle['rsi_1h'] < self.protection_RSI_enable.value) & (self.stop_buying[pair] is True):
# print("Enable buying", pair)
# self.stop_buying[pair] = False
# if self.stop_buying[pair] is True:
# if (info_last_candle['rsi_5_1h'] > 20) & (info_previous_last_candle['rsi_5_1h'] <= info_last_candle['rsi_5_1h']) \
# & (info_last_candle['max_rsi_1h'] < 50):
# print("2 - Enable buying", pair, info_last_candle['date'], info_last_candle['rsi_5_1h'], info_last_candle['max_rsi_1h'])
# self.stop_buying[pair] = False
if self.stop_buying[pair] is True:
if (info_last_candle['rsi5'] > 20) & (info_last_candle['rsi'] > 30):
# print("1 - Enable buying ", pair, info_last_candle['date'], info_last_candle['rsi5'])
logger.info("1 - Enable buying %s date %s", pair, info_last_candle['date'])
self.stop_buying[pair] = False
if self.stop_buying[pair]:
allow_to_buy = False
logger.info("3 - cancel buying %s date %s", pair, info_last_candle['date'])
else:
logger.info("3 - accept buying %s date %s", pair, info_last_candle['date'])
# , (info_last_candle['trend_ichimoku_base'],
# (info_last_candle['close'] < info_last_candle['sma10']),
# (info_previous_last_candle['sma10'], info_last_candle['sma10'])))
return allow_to_buy
def custom_sell(self, pair: str, trade: 'Trade', current_time: 'datetime', current_rate: float,
current_profit: float, **kwargs):
dataframe, _ = self.dp.get_analyzed_dataframe(pair, self.timeframe)
last_candle = dataframe.iloc[-1].squeeze()
previous_last_candle = dataframe.iloc[-2].squeeze()
previous_5_candle = dataframe.iloc[-5].squeeze()
if (self.stop_buy_for_all is True) & (current_profit < self.btc_sell_all_profit.value):
return "btc_fall"
expected_profit = 0.01
days = (current_time - trade.open_date_utc).days
######
btc, _ = self.dp.get_analyzed_dataframe(pair="BTC/USDT", timeframe=self.timeframe)
btc_last_candle = btc.iloc[-1].squeeze()
btc_previous_last_candle = btc.iloc[-2].squeeze()
informative, _ = self.dp.get_analyzed_dataframe(pair=pair, timeframe=self.timeframe)
info_last_candle = informative.iloc[-1].squeeze()
info_previous_last_candle = informative.iloc[-2].squeeze()
if self.stop_buying.get(pair, None) is None:
print("enable buying tag", pair)
self.stop_buying[pair] = False
if self.stop_buying[pair] is False:
if (last_candle['rsi5'] < 16):
logger.info("0 - Disable buying %s date=%s rsi=%s", pair, last_candle['date'], last_candle['rsi5'])
self.stop_buying[pair] = True
if (current_profit > 0):
return "stop_buying"
if self.stop_buying[pair] is True:
if (last_candle['rsi5'] > 20) & (last_candle['percent10'] > 0):
logger.info("1 - Enable buying %s date=%s rsi=%s", pair, last_candle['date'], last_candle['rsi5'])
# print("1 - Enable buying ", pair, last_candle['date'], last_candle['rsi5'])
self.stop_buying[pair] = False
if (days < 10) & ((btc_last_candle['percent5'] < self.btc_fall_5.value) | (btc_last_candle['percent3'] < self.btc_fall_3.value) | (
btc_last_candle['percent'] < self.btc_fall_1.value)):
self.stop_buy_for_all = True
return "btc_fall"
max_percent = last_candle['bb_width'] / 4 #0.005
max_profit = last_candle['bb_width'] * 3 / 4 # 0.015
if (self.market_overview_pct5 < 0) | (last_candle['pct_change_1_4h'] < 0):
if (current_profit > max_profit) & ((last_candle['percent'] < -max_percent) | (last_candle['percent3'] < -max_percent) | (last_candle['percent5'] < -max_percent)):
return 'b_percent_quick'
if (current_profit >= - self.sell_b_too_old_percent.value) & (days >= self.sell_b_too_old_day.value) \
& (days < self.sell_b_too_old_day.value * 2) \
& (previous_last_candle['sma10'] > last_candle['sma10']) & (last_candle['percent3'] < 0):
return "b_too_old_0.01"
if (current_profit >= - self.sell_b_too_old_percent.value * 2) & (days >= self.sell_b_too_old_day.value * 2) \
& (days < self.sell_b_too_old_day.value * 3) \
& (previous_last_candle['sma10'] > last_candle['sma10']) & (last_candle['percent3'] < 0):
return "b_too_old_0.02"
if (current_profit >= - self.sell_b_too_old_percent.value * 3) & (days >= self.sell_b_too_old_day.value * 3) \
& (previous_last_candle['sma10'] > last_candle['sma10']) & (last_candle['percent3'] < 0):
return "b_too_old_0.03"
if self.profit_b_quick_lost.value and (current_profit >= max_profit) & (last_candle['percent3'] < -max_percent):
return "b_quick_lost"
if self.profit_b_no_change.value and (current_profit > self.sell_b_profit_no_change.value) \
& (last_candle['percent10'] < self.sell_b_profit_percent10.value) & (last_candle['percent5'] < 0) \
& ((current_time - trade.open_date_utc).seconds >= 3600):
return "b_no_change"
if (current_profit > self.sell_b_percent.value) & (last_candle['percent3'] < - self.sell_b_percent3.value) \
& ((current_time - trade.open_date_utc).seconds <= 300 * self.sell_b_candels.value):
return "b_quick_gain_param"
if self.profit_b_sma5.value:
if (current_profit > expected_profit) \
& ((previous_5_candle['sma5'] > last_candle['sma5']) \
| (last_candle['percent3'] < -expected_profit) | (
last_candle['percent5'] < -expected_profit)) \
& ((last_candle['percent'] < 0) & (last_candle['percent3'] < 0)):
# print("over_bb_band_sma10_desc", pair, trade, " profit=", current_profit, " rate=", current_rate)
return 'b_sma5'
if self.profit_b_sma10.value:
if (current_profit > expected_profit) \
& ((previous_5_candle['sma10'] > last_candle['sma10']) \
| (last_candle['percent3'] < -expected_profit) | (
last_candle['percent5'] < -expected_profit)) \
& ((last_candle['percent'] < 0) & (last_candle['percent3'] < 0)):
# print("over_bb_band_sma10_desc", pair, trade, " profit=", current_profit, " rate=", current_rate)
return 'b_sma10'
if self.profit_b_sma20.value:
if (current_profit > last_candle['bb_width'] / 1.3) \
& (previous_last_candle['sma10'] > last_candle['sma10']) \
& ((current_time - trade.open_date_utc).seconds >= 3600) \
& ((previous_last_candle['sma20'] > last_candle['sma20']) &
((last_candle['percent5'] < 0) | (last_candle['percent10'] < 0) | (last_candle['percent20'] < 0))):
# print("over_bb_band_sma10_desc", pair, trade, " profit=", current_profit, " rate=", current_rate)
return 'b_sma20'
if self.profit_b_over_rsi.value:
if (current_profit > 0) & (previous_last_candle['rsi'] > self.sell_b_RSI.value): # & (last_candle['percent'] < 0): #| (previous_last_candle['rsi'] > 75 & last_candle['rsi'] < 70)):
# print("over_rsi", pair, trade, " profit=", current_profit, " rate=", current_rate)
return 'b_over_rsi'
if (current_profit > 0) & (previous_last_candle['rsi'] > self.sell_b_RSI2.value) & \
(last_candle['percent'] < - self.sell_b_RSI2_percent.value): #| (previous_last_candle['rsi'] > 75 & last_candle['rsi'] < 70)):
# print("over_rsi", pair, trade, " profit=", current_profit, " rate=", current_rate)
return 'b_over_rsi_2'
if (current_profit > 0) & (previous_last_candle['rsi'] > self.sell_b_RSI3.value) & \
(last_candle['close'] >= last_candle['max200']) & (last_candle['percent'] < - self.sell_b_RSI2_percent.value): #| (previous_last_candle['rsi'] > 75 & last_candle['rsi'] < 70)):
# print("over_rsi", pair, trade, " profit=", current_profit, " rate=", current_rate)
return 'b_over_rsi_max'
if self.profit_b_short_loss.value:
if (current_profit > -expected_profit) & (previous_last_candle['percent10'] > 0.04) & (last_candle['percent'] < 0)\
& (days >= 1): #| (previous_last_candle['rsi'] > 75 & last_candle['rsi'] < 70)):
# print("over_rsi", pair, trade, " profit=", current_profit, " rate=", current_rate)
return 'b_short_lost'
else:
if (current_profit > 0.025) & ((last_candle['percent'] < -max_percent) | (last_candle['percent3'] < -max_percent) | (last_candle['percent5'] < -max_percent)):
return 'h_percent_quick'
if (current_profit >= - self.sell_h_too_old_percent.value) & (days >= self.sell_h_too_old_day.value)\
& (days < self.sell_h_too_old_day.value * 2)\
& (previous_last_candle['sma10'] > last_candle['sma10']) & (last_candle['percent3'] < 0):
return "h_too_old_0.01"
if (current_profit >= - self.sell_h_too_old_percent.value * 2) & (days >= self.sell_h_too_old_day.value * 2)\
& (days < self.sell_h_too_old_day.value * 3) \
& (previous_last_candle['sma10'] > last_candle['sma10']) & (last_candle['percent3'] < 0):
return "h_too_old_0.02"
if (current_profit >= - self.sell_h_too_old_percent.value * 3) & (days >= self.sell_h_too_old_day.value * 3) \
& (previous_last_candle['sma10'] > last_candle['sma10']) & (last_candle['percent3'] < 0):
return "h_too_old_0.03"
if self.profit_h_quick_lost.value and (current_profit >= max_profit) & (last_candle['percent3'] < -max_percent):
return "h_quick_lost"
if self.profit_h_no_change.value and (current_profit > self.sell_h_profit_no_change.value) \
& (last_candle['percent10'] < self.sell_h_profit_percent10.value) & (last_candle['percent5'] < 0) \
& ((current_time - trade.open_date_utc).seconds >= 3600):
return "h_no_change"
if (current_profit > self.sell_h_percent.value) & (last_candle['percent3'] < - self.sell_h_percent3.value) \
& ((current_time - trade.open_date_utc).seconds <= 300 * self.sell_h_candels.value):
return "h_quick_gain_param"
if self.profit_h_sma5.value:
if (current_profit > expected_profit) \
& ((previous_5_candle['sma5'] > last_candle['sma5']) \
| (last_candle['percent3'] < -expected_profit) | (last_candle['percent5'] < -expected_profit)) \
& ((last_candle['percent'] < 0) & (last_candle['percent3'] < 0)):
# print("over_bb_band_sma10_desc", pair, trade, " profit=", current_profit, " rate=", current_rate)
return 'h_sma5'
if self.profit_h_sma10.value:
if (current_profit > expected_profit) \
& ((previous_5_candle['sma10'] > last_candle['sma10']) \
| (last_candle['percent3'] < -expected_profit) | (last_candle['percent5'] < -expected_profit)) \
& ((last_candle['percent'] < 0) & (last_candle['percent3'] < 0)):
# print("over_bb_band_sma10_desc", pair, trade, " profit=", current_profit, " rate=", current_rate)
return 'h_sma10'
if self.profit_h_sma20.value:
if (current_profit > last_candle['bb_width'] / 0.8) \
& (previous_last_candle['sma10'] > last_candle['sma10']) \
& ((current_time - trade.open_date_utc).seconds >= 3600) \
& ((previous_last_candle['sma20'] > last_candle['sma20']) &
((last_candle['percent5'] < 0) | (last_candle['percent10'] < 0) | (last_candle['percent20'] < 0))):
# print("over_bb_band_sma10_desc", pair, trade, " profit=", current_profit, " rate=", current_rate)
return 'h_sma20'
if self.profit_h_over_rsi.value:
if (current_profit > 0) & (previous_last_candle['rsi'] > self.sell_h_RSI.value): # & (last_candle['percent'] < 0): #| (previous_last_candle['rsi'] > 75 & last_candle['rsi'] < 70)):
# print("over_rsi", pair, trade, " profit=", current_profit, " rate=", current_rate)
return 'h_over_rsi'
if (current_profit > 0) & (previous_last_candle['rsi'] > self.sell_h_RSI2.value) & \
(last_candle['percent'] < - self.sell_h_RSI2_percent.value): #| (previous_last_candle['rsi'] > 75 & last_candle['rsi'] < 70)):
# print("over_rsi", pair, trade, " profit=", current_profit, " rate=", current_rate)
return 'h_over_rsi_2'
if (current_profit > 0) & (previous_last_candle['rsi'] > self.sell_h_RSI3.value) & \
(last_candle['close'] >= last_candle['max200']): #| (previous_last_candle['rsi'] > 75 & last_candle['rsi'] < 70)):
# print("over_rsi", pair, trade, " profit=", current_profit, " rate=", current_rate)
return 'h_over_rsi_max'
if self.profit_h_short_loss.value:
if (current_profit > -expected_profit) & (previous_last_candle['percent10'] > 0.04) & (last_candle['percent'] < 0)\
& (days >= 1): #| (previous_last_candle['rsi'] > 75 & last_candle['rsi'] < 70)):
# print("over_rsi", pair, trade, " profit=", current_profit, " rate=", current_rate)
return 'h_short_lost'
def informative_pairs(self):
# get access to all pairs available in whitelist.
pairs = self.dp.current_whitelist()
informative_pairs = [(pair, '1d') for pair in pairs]
informative_pairs += [(pair, '4h') for pair in pairs]
informative_pairs += [(pair, '1h') for pair in pairs]
return informative_pairs
def populate_indicators(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
# Add all ta features
dataframe['trend_ichimoku_base'] = ta.trend.ichimoku_base_line(
dataframe['high'],
dataframe['low'],
window1=9,
window2=26,
visual=False,
fillna=False
)
KST = ta.trend.KSTIndicator(
close=dataframe['close'],
roc1=10,
roc2=15,
roc3=20,
roc4=30,
window1=10,
window2=10,
window3=10,
window4=15,
nsig=9,
fillna=False
)
dataframe['trend_kst_diff'] = KST.kst_diff()
dataframe['pct_change'] = dataframe['close'].pct_change(5)
dataframe['min'] = talib.MIN(dataframe['close'], timeperiod=self.buy_min_horizon.value)
dataframe['min10'] = talib.MIN(dataframe['close'], timeperiod=10)
dataframe['min20'] = talib.MIN(dataframe['close'], timeperiod=20)
dataframe['min50'] = talib.MIN(dataframe['close'], timeperiod=50)
dataframe['min200'] = talib.MIN(dataframe['close'], timeperiod=200)
dataframe['min200_1'] = dataframe['min200'] * 1.005
dataframe['moy200_12'] = dataframe['min200'].rolling(12).mean()
dataframe['max50'] = talib.MAX(dataframe['close'], timeperiod=50)
dataframe['max200'] = talib.MAX(dataframe['close'], timeperiod=200)
dataframe['min_max200'] = (dataframe['max200'] - dataframe['min200']) / dataframe['min200']
dataframe['rsi'] = talib.RSI(dataframe)
dataframe['rsi5'] = talib.RSI(dataframe, timeperiod=5)
dataframe['sma5'] = talib.SMA(dataframe, timeperiod=5)
dataframe['sma10'] = talib.SMA(dataframe, timeperiod=10)
dataframe['sma20'] = talib.SMA(dataframe, timeperiod=20)
dataframe['sma50'] = talib.SMA(dataframe, timeperiod=50)
dataframe['sma100'] = talib.SMA(dataframe, timeperiod=100)
dataframe["percent"] = (dataframe["close"] - dataframe["open"]) / dataframe["open"]
dataframe["percent5"] = dataframe["percent"].rolling(5).sum()
dataframe["percent3"] = dataframe["percent"].rolling(3).sum()
dataframe["percent10"] = dataframe["percent"].rolling(10).sum()
dataframe["percent20"] = dataframe["percent"].rolling(20).sum()
dataframe["percent50"] = dataframe["percent"].rolling(50).sum()
dataframe["volume10"] = dataframe["volume"].rolling(10).mean()
# Bollinger Bands
bollinger = qtpylib.bollinger_bands(qtpylib.typical_price(dataframe), window=20, stds=2)
dataframe['bb_lowerband'] = bollinger['lower']
dataframe['bb_middleband'] = bollinger['mid']
dataframe['bb_upperband'] = bollinger['upper']
dataframe["bb_percent"] = (
(dataframe["close"] - dataframe["bb_lowerband"]) /
(dataframe["bb_upperband"] - dataframe["bb_lowerband"])
)
dataframe["bb_width"] = (
(dataframe["bb_upperband"] - dataframe["bb_lowerband"]) / dataframe["bb_middleband"]
)
dataframe['bb_lower_var_5'] = (dataframe['bb_lowerband'] - dataframe['min50']).rolling(5).var()
dataframe['bb_lower_5'] = 100 * ((dataframe['bb_lowerband'].rolling(5).mean() / dataframe['bb_lowerband']) - 1)
dataframe['bb_lower_width_5'] = (dataframe['bb_lowerband'] * (1 + dataframe['bb_width'] / 4))
# dataframe['bb_min'] = ta.MIN(dataframe['bb_lowerband'], timeperiod=36)
dataframe['distance_min'] = (dataframe['close'] - dataframe['min']) / dataframe['close']
dataframe['min1.1'] = 1.01 * dataframe['min']
dataframe['normal'] = 100 * (dataframe['close'] / dataframe['close'].rolling(200).mean())
dataframe['normal_var_20'] = dataframe['normal'].rolling(20).var()
dataframe['normal_var_50'] = dataframe['normal'].rolling(50).var()
dataframe['sar'] = talib.SAR(dataframe)
# Normalization
tib = dataframe['trend_ichimoku_base']
dataframe['trend_ichimoku_base'] = (tib-tib.min())/(tib.max()-tib.min())
tkd = dataframe['trend_kst_diff']
dataframe['trend_kst_diff'] = (tkd-tkd.min())/(tkd.max()-tkd.min())
dataframe[buy_crossed_indicator0] = gene_calculator(dataframe, buy_crossed_indicator0)
# dataframe[buy_crossed_indicator1] = gene_calculator(dataframe, buy_crossed_indicator1)
# dataframe[buy_crossed_indicator2] = gene_calculator(dataframe, buy_crossed_indicator2)
dataframe[buy_indicator0] = gene_calculator(dataframe, buy_indicator0)
# dataframe[buy_indicator1] = gene_calculator(dataframe, buy_indicator1)
# dataframe[buy_indicator2] = gene_calculator(dataframe, buy_indicator2)
dataframe["cond1"] = dataframe[buy_indicator0].div(dataframe[buy_crossed_indicator0])
# dataframe['atr'] = talib.ATR(dataframe, timeperiod=14)
################### INFORMATIVE 1D
informative = self.dp.get_pair_dataframe(pair=metadata['pair'], timeframe="1d")
informative["rsi"] = talib.RSI(informative)
informative["max3"] = talib.MAX(informative['close'], timeperiod=3)
informative["min3"] = talib.MIN(informative['close'], timeperiod=3)
informative['pct_change_1'] = informative['close'].pct_change(1)
informative['pct_change_3'] = informative['close'].pct_change(3)
informative['pct_change_5'] = informative['close'].pct_change(5)
informative['sma3'] = talib.SMA(informative, timeperiod=3)
informative['sma5'] = talib.SMA(informative, timeperiod=5)
informative['sma10'] = talib.SMA(informative, timeperiod=10)
informative['sar'] = talib.SAR(informative)
bollinger = qtpylib.bollinger_bands(qtpylib.typical_price(informative), window=20, stds=2)
informative['bb_lowerband'] = bollinger['lower']
informative['bb_middleband'] = bollinger['mid']
informative['bb_upperband'] = bollinger['upper']
informative["bb_percent"] = (
(informative["close"] - informative["bb_lowerband"]) /
(informative["bb_upperband"] - informative["bb_lowerband"])
)
informative["bb_width"] = (
(informative["bb_upperband"] - informative["bb_lowerband"]) / informative["bb_middleband"]
)
dataframe = merge_informative_pair(dataframe, informative, self.timeframe, "1d", ffill=True)
######################## INFORMATIVE 4h
informative = self.dp.get_pair_dataframe(pair=metadata['pair'], timeframe="4h")
informative["rsi"] = talib.RSI(informative)
informative['pct_change_1'] = informative['close'].pct_change(1)
informative['pct_change_3'] = informative['close'].pct_change(3)
informative['pct_change_5'] = informative['close'].pct_change(5)
dataframe = merge_informative_pair(dataframe, informative, self.timeframe, "4h", ffill=True)
################### INFORMATIVE BTC 1H
informative = self.dp.get_pair_dataframe(pair=metadata['pair'], timeframe="1h")
informative["rsi"] = talib.RSI(informative)
informative["rsi_5"] = talib.RSI(informative, timeperiod=5)
informative['pct_change_1'] = informative['close'].pct_change(1)
dataframe = merge_informative_pair(dataframe, informative, self.timeframe, "1h", ffill=True)
return dataframe
def populate_buy_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
ok = True
#if self.dp:
# if self.dp.runmode.value in ('live', 'dry_run'):
# ok = (self.market_overview['up'] / (self.market_overview['down'] + self.market_overview['up']) > 0.35)
conditions = []
IND = 'trend_ichimoku_base'
REAL = self.buy_h_real.value
OPR = self.buy_h_cat.value
DFIND = dataframe[IND]
# print(DFIND.mean())
if OPR == ">R":
conditions.append(DFIND > REAL)
elif OPR == "=R":
conditions.append(np.isclose(DFIND, REAL))
elif OPR == "= 10)
& (dataframe['pct_change'] < - self.buy_h_pct.value)
& (dataframe['close'] <= dataframe['min200'] * 1.002)
& (dataframe['pct_change_1_1d'] > 0)
& (dataframe['pct_change_3_1d'] > 0)
& (dataframe['pct_change_5_1d'] > 0) #self.buy_h_pct_5.value)
#& (dataframe['close_1d'] < dataframe['bb_lowerband_1d'] * self.buy_h_bb_lowerband.value)
& (dataframe['bb_width_1d'] >= self.buy_h_bb_width.value)
& (dataframe['close'] <= dataframe['sma5_1d'])
& (dataframe['sma10_1d'].shift(1) <= dataframe['sma10_1d'])
& (dataframe['cond1'] <= 0.45) # self.buy_real_num0.value / 2)
& (dataframe['trend_ichimoku_base'] <= 0.1)
,
['buy', 'buy_tag']] = (1, 'buy_h')
conditions = []
IND = 'trend_ichimoku_base'
REAL = self.buy_b_real.value
OPR = self.buy_b_cat.value
DFIND = dataframe[IND]
# print(DFIND.mean())
if OPR == ">R":
conditions.append(DFIND > REAL)
elif OPR == "=R":
conditions.append(np.isclose(DFIND, REAL))
elif OPR == "= 10)
& (dataframe['pct_change'] < - self.buy_b_pct.value)
& (dataframe['close'] <= dataframe['min200'] * 1.002)
& (dataframe['pct_change_1_1d'] > 0)
& (dataframe['pct_change_3_1d'] < 0) # self.buy_b_pct_3.value)
& (dataframe['pct_change_5_1d'] < 0) #self.buy_b_pct_5.value)
#& (dataframe['close_1d'] < dataframe['bb_lowerband_1d'] * self.buy_b_bb_lowerband.value)
& (dataframe['bb_width_1d'] >= self.buy_b_bb_width.value)
& (dataframe['close'] <= dataframe['sma5_1d'])
& (dataframe['sma10_1d'].shift(1) <= dataframe['sma10_1d'])
& (dataframe['cond1'] <= 0.45) # self.buy_real_num0.value / 2)
,
['buy', 'buy_tag']] = (1, 'buy_b')
for decalage in range(self.buy_decalage_deb_0.value, self.buy_decalage0.value):
#if self.buy_0.value:
conditions = list()
condition1, dataframe = condition_generator(
dataframe,
buy_operator0,
buy_indicator0,
buy_crossed_indicator0,
self.buy_real_num0.value,
self.buy_decalage0.value
)
conditions.append(condition1)
dataframe.loc[
(
reduce(lambda x, y: x & y, conditions)
#& (ok)
& (dataframe['volume10'].shift(decalage) * dataframe['close'].shift(decalage) / 1000 >= 10)
& (dataframe['sma10'].shift(1) <= dataframe['sma10'])
& (dataframe['bb_width'] >= 0.05)
& (dataframe['close'] < dataframe['bb_middleband'])
& (dataframe['open'] < dataframe['sma10'])
& (dataframe['open'] < dataframe['sma20'])
& (dataframe['min50'].shift(decalage) == dataframe['min50'])
& (dataframe['min10'] <= dataframe['min50'] * 1.02)
& (dataframe['percent20'].shift(decalage) <= self.buy_0_percent20.value)
# & (dataframe['min20'] == dataframe['min50'])
& (dataframe['distance_min'] <= self.buy_0_distance.value)
& ((dataframe['close'] - dataframe['open'].shift(decalage)) / dataframe['open'].shift(decalage) <= 0.005)
# & (dataframe['bb_lower_var_5'] <= self.buy_1_bb_lower_var_5.value)
& (dataframe['bb_lower_5'] <= self.buy_1_bb_lower_5.value)
#& (dataframe['percent_1d'] >= self.buy_1_percent_1d_num.value)
#& (dataframe['percent_4h'] > 0)
#& (dataframe['percent3_4h'] <= self.buy_1_percent_4h_num.value)
), ['buy', 'buy_tag']] = (1, 'buy_1_' + str(decalage))
for decalage in range(self.buy_decalage_deb_2.value, self.buy_decalage2.value):
#if self.buy_2.value:
dataframe.loc[
(
(dataframe['cond1'].shift(decalage) <= 0.45) #self.buy_real_num0.value / 2)
#& (ok)
& (dataframe['volume10'].shift(decalage) * dataframe['close'].shift(decalage) / 1000 >= 10)
& (dataframe['bb_width'] >= 0.05)
& (dataframe['close'] < dataframe['sma10'])
& (dataframe['open'] < dataframe['sma20'])
& (dataframe['open'] < dataframe['sma10'])
& (dataframe['min50'].shift(decalage) == dataframe['min50'])
& (dataframe['percent20'].shift(decalage) <= self.buy_2_percent20.value)
& (dataframe['distance_min'] <= self.buy_2_distance.value)
& ((dataframe['close'] - dataframe['open'].shift(decalage)) / dataframe['open'].shift(
decalage) <= 0.005)
& (dataframe['bb_lower_5'] <= self.buy_2_bb_lower_5.value)
), ['buy', 'buy_tag']] = (1, 'buy_2_' + str(decalage))
# d = dataframe.tail(1).iloc[0]
# print(metadata['pair'], d['cond1'], d['bb_width'], d['close'], d['sma10'], d['sma20'])
for decalage in range(self.buy_decalage_deb_3.value, self.buy_decalage3.value):
#if self.buy_3.value:
dataframe.loc[
(
(dataframe['cond1'].shift(decalage) <= 0.2)
#& (ok)
& (dataframe['volume10'].shift(decalage) * dataframe['close'].shift(decalage) / 1000 >= 10)
# & (dataframe['sma10'].shift(1) <= dataframe['sma10'])
& (dataframe['bb_width'] >= 0.05)
& (dataframe['close'] < dataframe['sma10'])
& (dataframe['open'] < dataframe['sma20'])
& (dataframe['open'] < dataframe['sma10'])
& (dataframe['min50'].shift(decalage) == dataframe['min50'])
#& (dataframe['min10'] <= dataframe['min50'] * 1.02)
& (dataframe['percent20'].shift(decalage) <= self.buy_3_percent20.value)
& (dataframe['distance_min'] <= self.buy_3_distance.value)
& ((dataframe['close'] - dataframe['open'].shift(decalage)) / dataframe['open'].shift(
decalage) <= 0.005)
# & (dataframe['bb_lower_var_5'] <= self.buy_3_bb_lower_var_5.value)
& (dataframe['bb_lower_5'] <= self.buy_3_bb_lower_5.value)
#& (dataframe['percent_4h'] > 0)
#& (dataframe['percent3_4h'] <= self.buy_3_percent_4h_num.value)
), ['buy', 'buy_tag']] = (1, 'buy_3_' + str(decalage))
# dataframe.loc[
# (
# (dataframe['cond1'] <= 1)
# & (dataframe['close'] < dataframe['sma10'])
# & (dataframe['open'] < dataframe['sma20'])
# & (dataframe['open'] < dataframe['sma10'])
# & (dataframe['close'] <= dataframe['min'] * 1.005)
# & (dataframe['moy200_12'] == dataframe['min200'])
# & (dataframe['volume10'].shift(1) * dataframe['close'].shift(1) / 1000 >= 10)
# & (dataframe['percent20'] >= -0.005)
#
# ), ['buy', 'buy_tag']] = (1, 'buy_near_m50')
dataframe.loc[
(
(dataframe['trend_ichimoku_base'] <= 0.12)
& (dataframe['rsi'] < 79)
& (dataframe['close'] < dataframe['sma10'])
& (dataframe['close'] < dataframe['bb_lower_width_5'])
& (dataframe['close'] < dataframe['min50'] * 1.005)
# & (dataframe['close'] < dataframe['min50'] * 1.01)
# & (dataframe['min50'].shift(2) == dataframe['min50'])
), ['buy', 'buy_tag']] = (1, 'buy_ichimoku')
# d = dataframe.tail(1)
# print(metadata['pair'], d['percent50'].iloc[0], d['buy'].iloc[0], d['buy_tag'].iloc[0])
dataframe.loc[
(
# (dataframe['min_max50'] >= 0.03)
# & (dataframe['bb_width'] >= 0.02)
(dataframe['cond1'].shift(2) <= 1.2)
& (dataframe['rsi'] < 72)
& (dataframe['close'] < dataframe['min50'] * 1.005)
# & (dataframe['min50'].shift(2) == dataframe['min50'])
& (dataframe['pct_change_1_1d'] > 0)
# & (dataframe['pct_change_3_1d'] > 0)
# & (dataframe['pct_change_5_1d'] > 0)
), ['buy', 'buy_tag']] = (1, 'buy_min_max')
return dataframe
def populate_sell_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
return dataframe