Esta estratégia negocia breakouts de alta usando o padrão de velas Morning Star.
A lógica é:
Traçar a média móvel exponencial de 60 dias EMA60
Identificar padrões Morning Star, que consistem em uma vela de baixa, doji / spinning top, e vela de alta quebrando o máximo das duas primeiras velas
Os sinais longos são quebras acima da EMA60 após padrões Morning Star
Usar metas de lucro ou paradas de trailers para saídas
Previsão de prejuízo definida no mínimo mínimo das últimas 100 velas
Parâmetros como Morning Star tolerância configurável
A estratégia capitaliza a natureza de inversão da tendência das Morning Stars na direção da tendência.
A Estrela da Manhã sinaliza de forma eficaz reversões a curto prazo.
A entrada da breakout e a parada da trailing seguem as tendências
Janela de retrospecção evita perda de parada excessiva
Requer testes e otimização iterativos
Paradas demasiado próximas podem causar paradas excessivas
LONG só perde oportunidades curtas.
Esta estratégia identifica padrões Morning Star e negocia breakouts em alinhamento com a tendência. Ajuste de parâmetros adapta-o a diferentes condições de mercado.
/*backtest
start: 2023-01-01 00:00:00
end: 2023-03-23 00:00:00
period: 45m
basePeriod: 5m
exchanges: [{"eid":"Futures_Binance","currency":"BTC_USDT"}]
*/
// This source code is subject to the terms of the Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0)
// © TheSocialCryptoClub
// Author: @devil_machine
//@version=5
strategy("PURE MORNING 2.0", overlay=true, pyramiding=1,
initial_capital=10000,
default_qty_type=strategy.percent_of_equity, default_qty_value=10,
slippage=1,backtest_fill_limits_assumption=1,use_bar_magnifier= true,
commission_type=strategy.commission.percent, commission_value=0.075
)
//------------------------------
// Indicators
//------------------------------
rma=ta.rma(close, 60)
mfi=ta.mfi(close, 10)
rsi=ta.rsi(close, 14)
atr7= ta.atr(7)
ema60=ta.ema(close,60)
plot(ema60,"EMA 60", color.new(color.aqua,0))
//------------------------------
// Doji settings
//------------------------------
//-----------------------------------------------MORNING DOJI STAR CODE
range1= high - low
tolerance = input.float(defval=0.09, title="MDS Tolerance",group= "DOJI SETTINGS", minval=0.01, maxval=1, step=0.01)/100
candle1 = math.abs (close[2] - open[2]) /range1[2] > .6 and close[2] < open[2]
candle2 = ((open[1] > close[1] and open[1] < close[1]*(1+tolerance)) or (open[1] < close[1] and open[1] > close[1]*(1-tolerance)) and close [1]<close[2]+range1[2])
candle3 = close > open and close > (close[2]+range1[2])
MDS = candle1 and candle2 and candle3
plotshape (MDS and close > ema60, text="MD", textcolor=color.yellow, offset=-1, location=location.abovebar, color=color.green, style=shape.triangleup)
plotshape (MDS and close < ema60, text="MD", textcolor=color.olive, offset=-1, location=location.belowbar, color=color.red, style=shape.triangledown)
//------------------------------------------------DOJI CODE
tolerance1= input.float(defval=0.05, title="DOJI Tolerance",group= "DOJI SETTINGS", minval=0.01, maxval=1, step=0.01)/100
Is_OC_Equal= (open > close and open < close*(1+tolerance1)) or (open < close and open > close*(1-tolerance1))
plotshape(Is_OC_Equal and close < ema60, text="D", textcolor=color.red, location=location.belowbar, color=color.red)
plotshape(Is_OC_Equal and close > ema60, text="D", textcolor = color.green, location=location.abovebar, color=color.green)
//------------------------------
// Filter
//------------------------------
xl_tp_percent = input.float(9,step=0.5, title="Take Profit", group="EXIT LONG")
sl_type_ll = input.bool(true, "SL type Lowest Low", group="EXIT LONG")
sl_len = input.int(100, "Stop Length", group="EXIT LONG")
max_loss_filter = input.bool(false,"Max Loss Filter", group ="Filter")
filter_percent = input.int(10, "Max Loss %", group="Filter")
sl_type_percent = input.bool(false, "SL type Percent", group="EXIT LONG")
xl_sl_percent = input.float(2,step=.5, title="Stop Loss", group="EXIT LONG")
filter_stop= max_loss_filter == true ? close - ta.lowest (low, sl_len) < (close*filter_percent)/100 : true
if sl_type_percent == true
sl_type_ll := false
//------------------------------
// Entry Long
//------------------------------
el_cond = Is_OC_Equal and close > ta.ema(close, 60) and filter_stop
el_cond_02 = MDS and close > ta.ema(close, 60) and filter_stop
mess = "!buy " + syminfo.ticker // Executor command to buy automatically
if el_cond
strategy.entry ("EL", strategy.long, alert_message = mess,comment = "EL cond 1")
plotshape(el_cond and strategy.position_size == 0, "el_long", shape.circle, color=color.green)
if el_cond_02
strategy.entry ("EL", strategy.long, alert_message = mess,comment = "EL cond 2" )
plotshape(el_cond_02 and strategy.position_size == 0, "el_long_02", shape.circle, color=color.green)
//------------------------------
//Exit Long TP - SL
//------------------------------
xl_sl_price = strategy.position_avg_price * (1-xl_sl_percent/100)
xl_tp_price = strategy.position_avg_price * (1+xl_tp_percent/100)
if sl_type_ll == true
xl_sl_price := ta.lowest (low, sl_len)
//------------------------------
//Trailing stop
//------------------------------
xl_ts_percent = input.float(1, step=0.5, title= "Trailing theshold", group="TRAILING STOP")
xl_to_percent = input.float(0.5, step=0.5, title= "Trailing offset", group="TRAILING STOP")
xl_ts_tick = xl_ts_percent * close/syminfo.mintick/100
xl_to_tick = xl_to_percent * close/syminfo.mintick/100
mess_sell = "!sell " + syminfo.ticker // Executor command to sell automatically
strategy.exit("XL+SL/TP", "EL", stop=xl_sl_price, limit=xl_tp_price, trail_points=xl_ts_tick, trail_offset=xl_to_tick,comment_loss= "STOP", comment_profit = "PROFIT",comment_trailing = "TS", alert_message = mess_sell)
//------------------------------
// Conditional close on MFI
//------------------------------
xl_cond= ta.crossover(mfi, 90)
if xl_cond
strategy.close("XL", alert_message = mess_sell)
plotshape(xl_cond, "xl_cond", shape.circle, color=color.red)