freqtrade_origin/freqtrade/templates/sample_strategy.py

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# pragma pylint: disable=missing-docstring, invalid-name, pointless-string-statement
# flake8: noqa: F401
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# isort: skip_file
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# --- Do not remove these imports ---
import numpy as np
import pandas as pd
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from datetime import datetime, timedelta, timezone
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from pandas import DataFrame
from typing import Optional, Union
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from freqtrade.strategy import (
IStrategy,
Trade,
Order,
PairLocks,
informative, # @informative decorator
# Hyperopt Parameters
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BooleanParameter,
CategoricalParameter,
DecimalParameter,
IntParameter,
RealParameter,
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# timeframe helpers
timeframe_to_minutes,
timeframe_to_next_date,
timeframe_to_prev_date,
# Strategy helper functions
merge_informative_pair,
stoploss_from_absolute,
stoploss_from_open,
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)
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# --------------------------------
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# Add your lib to import here
import talib.abstract as ta
from technical import qtpylib
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# This class is a sample. Feel free to customize it.
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class SampleStrategy(IStrategy):
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"""
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This is a sample strategy to inspire you.
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More information in https://www.freqtrade.io/en/latest/strategy-customization/
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You can:
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:return: a Dataframe with all mandatory indicators for the strategies
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- Rename the class name (Do not forget to update class_name)
- Add any methods you want to build your strategy
- Add any lib you need to build your strategy
You must keep:
- the lib in the section "Do not remove these libs"
- the methods: populate_indicators, populate_entry_trend, populate_exit_trend
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You should keep:
- timeframe, minimal_roi, stoploss, trailing_*
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"""
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# Strategy interface version - allow new iterations of the strategy interface.
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# Check the documentation or the Sample strategy to get the latest version.
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INTERFACE_VERSION = 3
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# Can this strategy go short?
can_short: bool = False
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# Minimal ROI designed for the strategy.
# This attribute will be overridden if the config file contains "minimal_roi".
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minimal_roi = {
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# "120": 0.0, # exit after 120 minutes at break even
"60": 0.01,
"30": 0.02,
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"0": 0.04,
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}
# Optimal stoploss designed for the strategy.
# This attribute will be overridden if the config file contains "stoploss".
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stoploss = -0.10
# Trailing stoploss
trailing_stop = False
# trailing_only_offset_is_reached = False
# trailing_stop_positive = 0.01
# trailing_stop_positive_offset = 0.0 # Disabled / not configured
# Optimal timeframe for the strategy.
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timeframe = "5m"
# Run "populate_indicators()" only for new candle.
process_only_new_candles = True
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# These values can be overridden in the config.
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use_exit_signal = True
exit_profit_only = False
ignore_roi_if_entry_signal = False
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# Hyperoptable parameters
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buy_rsi = IntParameter(low=1, high=50, default=30, space="buy", optimize=True, load=True)
sell_rsi = IntParameter(low=50, high=100, default=70, space="sell", optimize=True, load=True)
short_rsi = IntParameter(low=51, high=100, default=70, space="sell", optimize=True, load=True)
exit_short_rsi = IntParameter(low=1, high=50, default=30, space="buy", optimize=True, load=True)
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# Number of candles the strategy requires before producing valid signals
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startup_candle_count: int = 200
# Optional order type mapping.
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order_types = {
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"entry": "limit",
"exit": "limit",
"stoploss": "market",
"stoploss_on_exchange": False,
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}
# Optional order time in force.
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order_time_in_force = {"entry": "GTC", "exit": "GTC"}
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plot_config = {
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"main_plot": {
"tema": {},
"sar": {"color": "white"},
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},
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"subplots": {
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"MACD": {
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"macd": {"color": "blue"},
"macdsignal": {"color": "orange"},
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},
"RSI": {
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"rsi": {"color": "red"},
},
},
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}
def informative_pairs(self):
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"""
Define additional, informative pair/interval combinations to be cached from the exchange.
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These pair/interval combinations are non-tradeable, unless they are part
of the whitelist as well.
For more information, please consult the documentation
:return: List of tuples in the format (pair, interval)
Sample: return [("ETH/USDT", "5m"),
("BTC/USDT", "15m"),
]
"""
return []
def populate_indicators(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
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"""
Adds several different TA indicators to the given DataFrame
Performance Note: For the best performance be frugal on the number of indicators
you are using. Let uncomment only the indicator you are using in your strategies
or your hyperopt configuration, otherwise you will waste your memory and CPU usage.
:param dataframe: Dataframe with data from the exchange
:param metadata: Additional information, like the currently traded pair
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:return: a Dataframe with all mandatory indicators for the strategies
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"""
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# Momentum Indicators
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# ------------------------------------
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# ADX
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dataframe["adx"] = ta.ADX(dataframe)
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# # Plus Directional Indicator / Movement
# dataframe['plus_dm'] = ta.PLUS_DM(dataframe)
# dataframe['plus_di'] = ta.PLUS_DI(dataframe)
# # Minus Directional Indicator / Movement
# dataframe['minus_dm'] = ta.MINUS_DM(dataframe)
# dataframe['minus_di'] = ta.MINUS_DI(dataframe)
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# # Aroon, Aroon Oscillator
# aroon = ta.AROON(dataframe)
# dataframe['aroonup'] = aroon['aroonup']
# dataframe['aroondown'] = aroon['aroondown']
# dataframe['aroonosc'] = ta.AROONOSC(dataframe)
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# # Awesome Oscillator
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# dataframe['ao'] = qtpylib.awesome_oscillator(dataframe)
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# # Keltner Channel
# keltner = qtpylib.keltner_channel(dataframe)
# dataframe["kc_upperband"] = keltner["upper"]
# dataframe["kc_lowerband"] = keltner["lower"]
# dataframe["kc_middleband"] = keltner["mid"]
# dataframe["kc_percent"] = (
# (dataframe["close"] - dataframe["kc_lowerband"]) /
# (dataframe["kc_upperband"] - dataframe["kc_lowerband"])
# )
# dataframe["kc_width"] = (
# (dataframe["kc_upperband"] - dataframe["kc_lowerband"]) / dataframe["kc_middleband"]
# )
# # Ultimate Oscillator
# dataframe['uo'] = ta.ULTOSC(dataframe)
# # Commodity Channel Index: values [Oversold:-100, Overbought:100]
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# dataframe['cci'] = ta.CCI(dataframe)
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# RSI
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dataframe["rsi"] = ta.RSI(dataframe)
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# # Inverse Fisher transform on RSI: values [-1.0, 1.0] (https://goo.gl/2JGGoy)
# rsi = 0.1 * (dataframe['rsi'] - 50)
# dataframe['fisher_rsi'] = (np.exp(2 * rsi) - 1) / (np.exp(2 * rsi) + 1)
# # Inverse Fisher transform on RSI normalized: values [0.0, 100.0] (https://goo.gl/2JGGoy)
# dataframe['fisher_rsi_norma'] = 50 * (dataframe['fisher_rsi'] + 1)
# # Stochastic Slow
# stoch = ta.STOCH(dataframe)
# dataframe['slowd'] = stoch['slowd']
# dataframe['slowk'] = stoch['slowk']
# Stochastic Fast
stoch_fast = ta.STOCHF(dataframe)
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dataframe["fastd"] = stoch_fast["fastd"]
dataframe["fastk"] = stoch_fast["fastk"]
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# # Stochastic RSI
# Please read https://github.com/freqtrade/freqtrade/issues/2961 before using this.
# STOCHRSI is NOT aligned with tradingview, which may result in non-expected results.
# stoch_rsi = ta.STOCHRSI(dataframe)
# dataframe['fastd_rsi'] = stoch_rsi['fastd']
# dataframe['fastk_rsi'] = stoch_rsi['fastk']
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# MACD
macd = ta.MACD(dataframe)
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dataframe["macd"] = macd["macd"]
dataframe["macdsignal"] = macd["macdsignal"]
dataframe["macdhist"] = macd["macdhist"]
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# MFI
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dataframe["mfi"] = ta.MFI(dataframe)
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# # ROC
# dataframe['roc'] = ta.ROC(dataframe)
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# Overlap Studies
# ------------------------------------
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# Bollinger Bands
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bollinger = qtpylib.bollinger_bands(qtpylib.typical_price(dataframe), window=20, stds=2)
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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"]
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)
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dataframe["bb_width"] = (dataframe["bb_upperband"] - dataframe["bb_lowerband"]) / dataframe[
"bb_middleband"
]
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# Bollinger Bands - Weighted (EMA based instead of SMA)
# weighted_bollinger = qtpylib.weighted_bollinger_bands(
# qtpylib.typical_price(dataframe), window=20, stds=2
# )
# dataframe["wbb_upperband"] = weighted_bollinger["upper"]
# dataframe["wbb_lowerband"] = weighted_bollinger["lower"]
# dataframe["wbb_middleband"] = weighted_bollinger["mid"]
# dataframe["wbb_percent"] = (
# (dataframe["close"] - dataframe["wbb_lowerband"]) /
# (dataframe["wbb_upperband"] - dataframe["wbb_lowerband"])
# )
# dataframe["wbb_width"] = (
# (dataframe["wbb_upperband"] - dataframe["wbb_lowerband"]) /
# dataframe["wbb_middleband"]
# )
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# # EMA - Exponential Moving Average
# dataframe['ema3'] = ta.EMA(dataframe, timeperiod=3)
# dataframe['ema5'] = ta.EMA(dataframe, timeperiod=5)
# dataframe['ema10'] = ta.EMA(dataframe, timeperiod=10)
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# dataframe['ema21'] = ta.EMA(dataframe, timeperiod=21)
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# dataframe['ema50'] = ta.EMA(dataframe, timeperiod=50)
# dataframe['ema100'] = ta.EMA(dataframe, timeperiod=100)
# # SMA - Simple Moving Average
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# dataframe['sma3'] = ta.SMA(dataframe, timeperiod=3)
# dataframe['sma5'] = ta.SMA(dataframe, timeperiod=5)
# dataframe['sma10'] = ta.SMA(dataframe, timeperiod=10)
# dataframe['sma21'] = ta.SMA(dataframe, timeperiod=21)
# dataframe['sma50'] = ta.SMA(dataframe, timeperiod=50)
# dataframe['sma100'] = ta.SMA(dataframe, timeperiod=100)
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# Parabolic SAR
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dataframe["sar"] = ta.SAR(dataframe)
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# TEMA - Triple Exponential Moving Average
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dataframe["tema"] = ta.TEMA(dataframe, timeperiod=9)
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# Cycle Indicator
# ------------------------------------
# Hilbert Transform Indicator - SineWave
hilbert = ta.HT_SINE(dataframe)
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dataframe["htsine"] = hilbert["sine"]
dataframe["htleadsine"] = hilbert["leadsine"]
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# Pattern Recognition - Bullish candlestick patterns
# ------------------------------------
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# # Hammer: values [0, 100]
# dataframe['CDLHAMMER'] = ta.CDLHAMMER(dataframe)
# # Inverted Hammer: values [0, 100]
# dataframe['CDLINVERTEDHAMMER'] = ta.CDLINVERTEDHAMMER(dataframe)
# # Dragonfly Doji: values [0, 100]
# dataframe['CDLDRAGONFLYDOJI'] = ta.CDLDRAGONFLYDOJI(dataframe)
# # Piercing Line: values [0, 100]
# dataframe['CDLPIERCING'] = ta.CDLPIERCING(dataframe) # values [0, 100]
# # Morningstar: values [0, 100]
# dataframe['CDLMORNINGSTAR'] = ta.CDLMORNINGSTAR(dataframe) # values [0, 100]
# # Three White Soldiers: values [0, 100]
# dataframe['CDL3WHITESOLDIERS'] = ta.CDL3WHITESOLDIERS(dataframe) # values [0, 100]
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# Pattern Recognition - Bearish candlestick patterns
# ------------------------------------
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# # Hanging Man: values [0, 100]
# dataframe['CDLHANGINGMAN'] = ta.CDLHANGINGMAN(dataframe)
# # Shooting Star: values [0, 100]
# dataframe['CDLSHOOTINGSTAR'] = ta.CDLSHOOTINGSTAR(dataframe)
# # Gravestone Doji: values [0, 100]
# dataframe['CDLGRAVESTONEDOJI'] = ta.CDLGRAVESTONEDOJI(dataframe)
# # Dark Cloud Cover: values [0, 100]
# dataframe['CDLDARKCLOUDCOVER'] = ta.CDLDARKCLOUDCOVER(dataframe)
# # Evening Doji Star: values [0, 100]
# dataframe['CDLEVENINGDOJISTAR'] = ta.CDLEVENINGDOJISTAR(dataframe)
# # Evening Star: values [0, 100]
# dataframe['CDLEVENINGSTAR'] = ta.CDLEVENINGSTAR(dataframe)
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# Pattern Recognition - Bullish/Bearish candlestick patterns
# ------------------------------------
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# # Three Line Strike: values [0, -100, 100]
# dataframe['CDL3LINESTRIKE'] = ta.CDL3LINESTRIKE(dataframe)
# # Spinning Top: values [0, -100, 100]
# dataframe['CDLSPINNINGTOP'] = ta.CDLSPINNINGTOP(dataframe) # values [0, -100, 100]
# # Engulfing: values [0, -100, 100]
# dataframe['CDLENGULFING'] = ta.CDLENGULFING(dataframe) # values [0, -100, 100]
# # Harami: values [0, -100, 100]
# dataframe['CDLHARAMI'] = ta.CDLHARAMI(dataframe) # values [0, -100, 100]
# # Three Outside Up/Down: values [0, -100, 100]
# dataframe['CDL3OUTSIDE'] = ta.CDL3OUTSIDE(dataframe) # values [0, -100, 100]
# # Three Inside Up/Down: values [0, -100, 100]
# dataframe['CDL3INSIDE'] = ta.CDL3INSIDE(dataframe) # values [0, -100, 100]
# # Chart type
# # ------------------------------------
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# # Heikin Ashi Strategy
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# heikinashi = qtpylib.heikinashi(dataframe)
# dataframe['ha_open'] = heikinashi['open']
# dataframe['ha_close'] = heikinashi['close']
# dataframe['ha_high'] = heikinashi['high']
# dataframe['ha_low'] = heikinashi['low']
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# Retrieve best bid and best ask from the orderbook
# ------------------------------------
"""
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# first check if dataprovider is available
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if self.dp:
if self.dp.runmode.value in ('live', 'dry_run'):
ob = self.dp.orderbook(metadata['pair'], 1)
dataframe['best_bid'] = ob['bids'][0][0]
dataframe['best_ask'] = ob['asks'][0][0]
"""
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return dataframe
def populate_entry_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
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"""
Based on TA indicators, populates the entry signal for the given dataframe
:param dataframe: DataFrame
:param metadata: Additional information, like the currently traded pair
:return: DataFrame with entry columns populated
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"""
dataframe.loc[
(
# Signal: RSI crosses above 30
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(qtpylib.crossed_above(dataframe["rsi"], self.buy_rsi.value))
& (dataframe["tema"] <= dataframe["bb_middleband"]) # Guard: tema below BB middle
& (dataframe["tema"] > dataframe["tema"].shift(1)) # Guard: tema is raising
& (dataframe["volume"] > 0) # Make sure Volume is not 0
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),
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"enter_long",
] = 1
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dataframe.loc[
(
# Signal: RSI crosses above 70
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(qtpylib.crossed_above(dataframe["rsi"], self.short_rsi.value))
& (dataframe["tema"] > dataframe["bb_middleband"]) # Guard: tema above BB middle
& (dataframe["tema"] < dataframe["tema"].shift(1)) # Guard: tema is falling
& (dataframe["volume"] > 0) # Make sure Volume is not 0
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),
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"enter_short",
] = 1
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return dataframe
def populate_exit_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
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"""
Based on TA indicators, populates the exit signal for the given dataframe
:param dataframe: DataFrame
:param metadata: Additional information, like the currently traded pair
:return: DataFrame with exit columns populated
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"""
dataframe.loc[
(
# Signal: RSI crosses above 70
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(qtpylib.crossed_above(dataframe["rsi"], self.sell_rsi.value))
& (dataframe["tema"] > dataframe["bb_middleband"]) # Guard: tema above BB middle
& (dataframe["tema"] < dataframe["tema"].shift(1)) # Guard: tema is falling
& (dataframe["volume"] > 0) # Make sure Volume is not 0
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),
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"exit_long",
] = 1
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dataframe.loc[
(
# Signal: RSI crosses above 30
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(qtpylib.crossed_above(dataframe["rsi"], self.exit_short_rsi.value))
&
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# Guard: tema below BB middle
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(dataframe["tema"] <= dataframe["bb_middleband"])
& (dataframe["tema"] > dataframe["tema"].shift(1)) # Guard: tema is raising
& (dataframe["volume"] > 0) # Make sure Volume is not 0
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),
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"exit_short",
] = 1
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return dataframe