Timeframe
4h
Direction
Long & Short
Stoploss
-45.0%
Trailing Stop
Yes
ROI
0m: 100.0%
Interface Version
N/A
Startup Candles
N/A
Indicators
1
# --- Do not remove these libs ---
from freqtrade.strategy import IStrategy,merge_informative_pair
from typing import Dict, List
from functools import reduce
from pandas import DataFrame
from datetime import datetime, timedelta, timezone
from typing import Optional
from freqtrade.strategy import CategoricalParameter, DecimalParameter, IntParameter
from freqtrade.persistence import PairLocks
import logging
import math
# --------------------------------
import talib.abstract as ta
import freqtrade.vendor.qtpylib.indicators as qtpylib
from freqtrade.persistence import Trade, Order
from typing import Optional, Tuple, Union
from freqtrade.strategy import stoploss_from_open
logger = logging.getLogger(__name__)
class GRIDDMIPRICEStrategyFutureV2(IStrategy):
INTERFACE_VERSION: int = 3
can_short = True
position_adjustment_enable = True
max_entry_position_adjustment = -1
amend_last_stake_amount = True
minimal_roi = {
"0": 1
}
stoploss = -0.45
trailing_stop = True
trailing_stop_positive = 0.15
trailing_stop_positive_offset = 0.45
trailing_only_offset_is_reached = True
order_types = {
'entry': 'market',
'exit': 'market',
'stoploss': 'market',
'stoploss_on_exchange': True
}
# Optional order time in force.
order_time_in_force = {
'entry': 'GTC',
'exit': 'GTC'
}
adxWindow = IntParameter(7, 42, default=24, space="buy")
adxThr = IntParameter(15, 35, default=25, space="buy")
emaThrLong = IntParameter(5, 55, default=24, space="buy")
emaThrShort = IntParameter(5, 55, default=24, space="buy")
upGridPercent = 1.02
downGridPercent = 0.98
upGridLimit = 1.1
downGridLimit = 0.9
fisrtAmountPercent = 0.5
gridAmountPercent = 0.1
# Optimal timeframe for the strategy
timeframe = '4h'
inf_tf = '4h'
def informative_pairs(self):
# get access to all pairs available in whitelist.
pairs = self.dp.current_whitelist()
# Assign tf to each pair so they can be downloaded and cached for strategy.
informative_pairs = [(pair, self.inf_tf) for pair in pairs]
return informative_pairs
def populate_indicators(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
adxWindow = self.adxWindow.value
informative = self.dp.get_pair_dataframe(pair=metadata['pair'], timeframe=self.inf_tf)
informative['plus_di'] = ta.PLUS_DI(informative,adxWindow)
informative['minus_di'] = ta.MINUS_DI(informative,adxWindow)
informative['emaLong'] = ta.EMA(informative, timeperiod=self.emaThrLong.value)
informative['emaShort'] = ta.EMA(informative, timeperiod=self.emaThrShort.value)
dataframe = merge_informative_pair(dataframe, informative, self.timeframe, self.inf_tf, ffill=True)
return dataframe
def populate_entry_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
"""
Based on TA indicators, populates the buy signal for the given dataframe
:param dataframe: DataFrame
:return: DataFrame with buy column
"""
dataframe.loc[
(
(dataframe['close'] < dataframe[f'emaLong_{self.inf_tf}'])
&
(dataframe[f'plus_di_{self.inf_tf}'] > dataframe[f'minus_di_{self.inf_tf}']) & (dataframe[f'plus_di_{self.inf_tf}']>self.adxThr.value)
),
'enter_long'] = 1
dataframe.loc[
(
(dataframe['close'] > dataframe[f'emaShort_{self.inf_tf}'])
&
(dataframe[f'plus_di_{self.inf_tf}'] < dataframe[f'minus_di_{self.inf_tf}']) & (dataframe[f'minus_di_{self.inf_tf}']>self.adxThr.value)
),
'enter_short'] = 1
return dataframe
def populate_exit_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
"""
Based on TA indicators, populates the sell signal for the given dataframe
:param dataframe: DataFrame
:return: DataFrame with buy column
"""
dataframe.loc[
(
),
'exit_long'] = 0
dataframe.loc[
(
),
'exit_short'] = 0
return dataframe
def leverage(self, pair: str, current_time: datetime, current_rate: float,
proposed_leverage: float, max_leverage: float, entry_tag: Optional[str],
side: str, **kwargs) -> float:
return 3.0
# DCA 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:
return proposed_stake * self.fisrtAmountPercent
# GRID ORDERs
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
) -> Union[Optional[float], Tuple[Optional[float], Optional[str]]]:
# ---------------- GIRD LIMIT LINE ----------------------
filled_entries = trade.select_filled_orders() # all filled entry
first_order_price = filled_entries[0].safe_price
if trade.entry_side == 'buy' :
if current_rate < first_order_price * self.downGridLimit:
return None
if current_rate > first_order_price:
return None
if trade.entry_side == 'sell' :
if current_rate > first_order_price * self.upGridLimit:
return None
if current_rate < first_order_price:
return None
# ---------------- GRID increse position ---------------
filled_entries = trade.select_filled_orders() # all filled entry
last_order_price = filled_entries[-1].safe_price
# long trade increase postion where curPrice < lastPrice*0.98
if trade.entry_side == 'buy' :
if current_rate <= last_order_price * self.downGridPercent:
try:
# This returns first order stake size
stake_amount = filled_entries[0].stake_amount * self.gridAmountPercent
return stake_amount, f'Increase Postion, last order price {last_order_price}'
except Exception as exception:
return None
# short trade increase postion where curPrice > lastPrice*1.02
if trade.entry_side == 'sell' :
if current_rate >= last_order_price * self.upGridPercent:
try:
# This returns first order stake size
stake_amount = filled_entries[0].stake_amount * self.gridAmountPercent
return stake_amount, f'Increase Postion, last order price {last_order_price}'
except Exception as exception:
return None
# ---------------- GRID decrease position --------------
last_oppsite_order = find_oppsite_orders(trade)
if last_oppsite_order is None:
logger.error(f'pair:{trade.pair}, can not find oppsite order, please check')
return None
# long trade decrese postion where curPrice > lastPrice*1.02
if trade.entry_side == 'buy' :
if current_rate >= last_oppsite_order.safe_price / self.downGridPercent:
try:
# This returns oppsite order amount size
# stake_amount = last_oppsite_order.safe_amount * current_exit_rate / trade.leverage
return -last_oppsite_order.safe_amount, f'Decrese Postion, oppsite order price: {last_oppsite_order.safe_price} amount: {last_oppsite_order.safe_amount}'
except Exception as exception:
return None
# short trade decrease postion where curPrice < lastPrice*0.98
if trade.entry_side == 'sell' :
if current_rate <= last_oppsite_order.safe_price / self.upGridPercent:
try:
# This returns oppsite order amount size
# stake_amount = last_oppsite_order.safe_amount * current_exit_rate / trade.leverage
return -last_oppsite_order.safe_amount, f'Decrese Postion, oppsite order price: {last_oppsite_order.safe_price} amount: {last_oppsite_order.safe_amount}'
except Exception as exception:
return None
return None
def find_oppsite_orders(trade: Trade) -> Order:
stack = []
filled_entries = trade.select_filled_orders()
init_order_side = trade.entry_side
# logger.info(f'init_order_side:{init_order_side}')
for order in filled_entries:
# logger.info(f'pair:{order.ft_pair}, orderid:{order.order_id},orderside:{order.ft_order_side}')
if order.ft_order_side == init_order_side:
# logger.info(f'stake append orderid:{order.order_id}')
stack.append(order)
else:
# logger.info(f'stake pop orderid:{order.order_id}')
stack.pop()
if len(stack) == 0:
# 一般不存在的错误情况
return None
return stack[-1]