15MIN BTCUSDTPERP BOT

Penulis:ChaoZhang, Tanggal: 2022-05-23 16:26:54
Tag:ADXSARRSITWAPJMAMACD

Ini adalah BTCUSDTPERP 15 menit bot saya Hasil terbaik adalah pada BTCUSDTPERP di binancefutures Hasil tergantung pada indikator volume tertentu yang bekerja paling baik di binancefutures

15 menit bot benar-benar cepat, sulit untuk menemukan konfigurasi yang baik, karena 15 menit backtesting yang setidaknya sekitar 3-4 bulan

bot ini adalah specific got sangat tinggi % profitable trades. profit net juga sangat bagus. namun 15min bot sangat sulit untuk digunakan dalam jangka panjang, jadi saya membuat sebagai deflout pengaturan yang saya bisa.

Jadi, Robot ini menggunakan 11 indikator berbeda:

ADX
Filter rentang
SAR
RSI
TWAP
JMA
MACD
Volume DELTA
Volume Berat
MA dan yang terakhir untuk hasil yang lebih baik di qucik grafik (15 menit) Saya memutuskan untuk menambahkan:
STOCH
ADX - - membuat tampilan yang solid untuk tren tanpa penipuan wick: panjang hanya pada batang hijau, pendek hanya pada batang merah.
RANGE FILTER - indikator ini adalah untuk pandangan yang lebih baik dari tren, menentukan tren, yang penting untuk setiap bull/bear perangkap yang membantu banyak karena tren yang sangat bervariasi.
SAR - SAR parabolik adalah indikator teknis yang digunakan untuk menentukan arah harga aset, serta menarik perhatian pada saat arah harga berubah.
RSI- nilai membantu strategi untuk menghentikan perdagangan pada waktu yang tepat. ketika RSI overbought strategi tidak membuka panjang baru, juga ketika RSI oversold strategi tidak membuka pendek baru
TWAP - memiliki tugas yang sama seperti Range filter, hanya untuk tampilan tren yang lebih baik, mendefinisikan tren.
JMA - Indikator Jurik Moving Average adalah salah satu cara paling pasti untuk meratakan kurva harga dalam waktu yang minimal. Indikator ini menawarkan pedagang mata uang salah satu filter harga terbaik selama pergerakan harga yang kuat.
MACD - Moving Average Convergence Divergence (MACD) adalah indikator momentum yang menunjukkan hubungan antara dua rata-rata pergerakan harga sekuritas. Hari ini, MacD seperti JMA diperlukan untuk membuat bot yang menguntungkan.
Volume Delta - Pendekatan kumulatif Volume Delta berdasarkan Bull and Bear Balance Indicator oleh Vadim Gimelfarb yang diterbitkan dalam edisi Oktober 2003 dari S&C Magazine.
Volume Weight - adalah indikator yang paling penting untuk strategi, untuk menghindari perdagangan terbuka pada grafik datar, perdagangan baru dibuka setelah bar volume yang kuat.
MA 5-10-30 - seperti yang sebelumnya ini untuk melihat tren yang lebih baik, dan mendefinisikan tren dengan benar, juga Speed_MA digunakan untuk memprediksi aksi harga di masa depan.
Stochastic-stock berguna untuk memprediksi pembalikan tren.

Nikmati ;)

backtest

/*backtest
start: 2022-05-20 00:00:00
end: 2022-06-18 23:59:00
period: 45m
basePeriod: 5m
exchanges: [{"eid":"Futures_Binance","currency":"BTC_USDT"}]
*/

// This source code is subject to the terms of the Mozilla Public License 2.0 at https://mozilla.org/MPL/2.0/
// © wielkieef

//@version=4
strategy("15MIN BTCUSDTPERP BOT", overlay=true,  pyramiding=1,initial_capital = 10000, default_qty_type= strategy.percent_of_equity, default_qty_value = 100, calc_on_order_fills=false, slippage=0,commission_type=strategy.commission.percent,commission_value=0)

//SOURCE ==================================================================================================================================================================================================================================================================

src = input(ohlc4)

// INPUTS ==================================================================================================================================================================================================================================================================

//ADX -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

Act_ADX = input(true, title = "AVERAGE DIRECTIONAL INDEX", type = input.bool)
ADX_options = input("MASANAKAMURA",  title = "ADX OPTION", options = ["CLASSIC", "MASANAKAMURA"])
ADX_len = input(11, title = "ADX LENGTH", type = input.integer, minval = 1)
th = input(12, title = "ADX THRESHOLD", type = input.float, minval = 0, step = 0.5)

//Range Filter----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

length0 = input(13, title="Range Filter lenght"),mult = input(1, title="Range Filter mult")

//SAR-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

start = input(title="SAR Start", type=input.float, step=0.001, defval=0)
increment = input(title="SAR Increment", type=input.float, step=0.001, defval=0.006)
maximum = input(title="SAR Maximum", type=input.float, step=0.01, defval=1)
width = input(title="SAR Point Width", type=input.integer, minval=1, defval=1)

//RSI---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

len_3 = input(70, minval=1, title="RSI lenght")
src_3 = input(close, "RSI Source")

//TWAP Trend --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

smoothing = input(title="TWAP Smoothing", defval= 10)
resolution = input("0", "TWAP Timeframe") 

//JMA------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

inp = input(title="JMA Source", type=input.source, defval=close)
reso = input(title="JMA Resolution", type=input.resolution, defval="")
rep = input(title="JMA Allow Repainting?", type=input.bool, defval=false)
src0 = security(syminfo.tickerid, reso, inp[rep ? 0 : barstate.isrealtime ? 1 : 0])[rep ? 0 : barstate.isrealtime ? 0 : 1]
lengths = input(title="JMA Length", type=input.integer, defval=4, minval=1)

//MACD------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

fast_length = input(title="MACD Fast Length", type=input.integer, defval=25)
slow_length = input(title="MACD Slow Length", type=input.integer, defval=50)
signal_length = input(title="MACD Signal Smoothing", type=input.integer, minval = 1, maxval = 50, defval = 9)

//Volume Delta -----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

periodMa = input(title="Delta Length", minval=1, defval=45)

//Volume weight------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

maLength = input(title="Volume Weight Length", type=input.integer, defval=100, minval=1)
maType = input(title="Volume Weight Type", type=input.string, defval="SMA", options=["EMA", "SMA", "HMA", "WMA", "DEMA"])
rvolTrigger = input(title="Volume To Trigger Signal", type=input.float, defval=1.5, step=0.1 , minval=0.1)

//MA----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

length = input(51, minval=1, title="MA Length")
matype = input(5, minval=1, maxval=5, title="AvgType")

//Momentum------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

tmolength = input(45, title="Momentum Length")
calcLength = input(12, title="Momentum Calc length")
smoothLength = input(9, title="Momentum Smooth length")

//INDICATORS ==============================================================================================================================================================================================================================================================

//ADX----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

calcADX(_len) =>
    up              = change(high)
	down            = -change(low)
	plusDM          = na(up)   ? na : (up > down and up > 0   ? up   : 0)
    minusDM         = na(down) ? na : (down > up and down > 0 ? down : 0)
	truerange       = rma(tr, _len)
	_plus           = fixnan(100 * rma(plusDM, _len)  / truerange)
	_minus          = fixnan(100 * rma(minusDM, _len) / truerange)
	sum             = _plus + _minus
	_adx            = 100 * rma(abs(_plus - _minus) / (sum == 0 ? 1 : sum), _len)
    [_plus,_minus,_adx]

calcADX_Masanakamura(_len) =>
    SmoothedTrueRange                   = 0.0
    SmoothedDirectionalMovementPlus     = 0.0
    SmoothedDirectionalMovementMinus    = 0.0
    TrueRange                           = max(max(high - low, abs(high - nz(close[1]))), abs(low - nz(close[1])))
    DirectionalMovementPlus             = high - nz(high[1]) > nz(low[1]) - low ? max(high - nz(high[1]), 0) : 0
    DirectionalMovementMinus            = nz(low[1]) - low > high - nz(high[1]) ? max(nz(low[1]) - low, 0)   : 0
    SmoothedTrueRange                   := nz(SmoothedTrueRange[1]) - (nz(SmoothedTrueRange[1]) /_len) + TrueRange
    SmoothedDirectionalMovementPlus     := nz(SmoothedDirectionalMovementPlus[1])  - (nz(SmoothedDirectionalMovementPlus[1])  / _len) + DirectionalMovementPlus
    SmoothedDirectionalMovementMinus    := nz(SmoothedDirectionalMovementMinus[1]) - (nz(SmoothedDirectionalMovementMinus[1]) / _len) + DirectionalMovementMinus
    DIP                                 = SmoothedDirectionalMovementPlus  / SmoothedTrueRange * 100
    DIM                                 = SmoothedDirectionalMovementMinus / SmoothedTrueRange * 100
    DX                                  = abs(DIP-DIM) / (DIP+DIM)*100
    adx                                 = sma(DX, _len)
    [DIP,DIM,adx]

[DIPlusC,DIMinusC,ADXC] = calcADX(ADX_len) 
[DIPlusM,DIMinusM,ADXM] = calcADX_Masanakamura(ADX_len)
DIPlus                  = ADX_options == "CLASSIC" ? DIPlusC    : DIPlusM
DIMinus                 = ADX_options == "CLASSIC" ? DIMinusC   : DIMinusM
ADX                     = ADX_options == "CLASSIC" ? ADXC       : ADXM

ADX_color = DIPlus > DIMinus and ADX > th ? color.green : DIPlus < DIMinus and ADX > th ? color.red : color.orange
barcolor(color = Act_ADX ? ADX_color : na, title = "ADX")

//Range Filter---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

out = 0., cma = 0., cts = 0.
Var = variance(src,length0)*mult
sma = sma(src,length0)

secma = pow(nz(sma - cma[1]),2) 
sects = pow(nz(src - cts[1]),2) 
ka = Var < secma ? 1 - Var/secma : 0
kb = Var < sects ? 1 - Var/sects : 0

cma := ka*sma+(1-ka)*nz(cma[1],src)
cts := kb*src+(1-kb)*nz(cts[1],src)

css = cts > cma ? color.green : color.red
a = plot(cts,"CTS",color.red,2,transp=0)
b = plot(cma,"CMA",color.green,2,transp=0)
fill(a,b,color=css,transp=80)

rangegood = cts > cma
rangebad  = cts < cma

//SAR-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

psar = sar(start, increment, maximum)
dir = psar < close ? 1 : -1

psarColor = dir == 1 ? color.green : color.red
psarPlot = plot(psar, title="PSAR", style=plot.style_circles, linewidth=width, color=psarColor, transp=0)

var color longColor = color.green
var color shortColor = color.red

sargood = dir ==1
sarbad  = dir ==-1

//RSI---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

up_3 = rma(max(change(src_3), 0), len_3)
down_3 = rma(-min(change(src_3), 0), len_3)
rsi_3 = down_3 == 0 ? 100 : up_3 == 0 ? 0 : 100 - (100 / (1 + up_3 / down_3))

rsiob = (rsi_3 < 70)
rsios  = (rsi_3 > 30) 

//TWAP Trend --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

res = resolution != "0" ? resolution : timeframe.period
weight = barssince(change(security(syminfo.tickerid, res, time, lookahead=barmerge.lookahead_on)))
price = 0.
price:= weight == 0 ? src : src + nz(price[1])
twap = price / (weight + 1)
ma_ = smoothing < 2 ? twap : sma(twap, smoothing)
bullish = iff(smoothing < 2, src >= ma_, src > ma_)
disposition = bullish ? color.lime : color.red
basis = plot(src, "OHLC4", disposition, linewidth=1, transp=100)
work = plot(ma_, "TWAP", disposition, linewidth=2, transp=20)
fill(basis, work, disposition, transp=65)

//JMA------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

jsa = (src0 + src0[lengths]) / 2
sig = src0 > jsa ? 1 : src0 < jsa ? -1 : 0

jsaColor = sig > 0 ? color.lime : sig < 0 ? color.red : color.orange
plot(jsa, color=jsaColor, linewidth=2)

jmagood = sig > 0
jmabad  = sig < 0

//MACD------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

fast_ma = ema(src, fast_length)
slow_ma = ema(src, slow_length)
macd = fast_ma - slow_ma
signal = sma(macd, signal_length)

macdgood = macd > signal
macdbad  = macd < signal

//Volume Delta -----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

bullPower = iff(close < open, iff(close[1] < open, max(high - close[1], close - low), max(high - open, close - low)), iff(close > open, iff(close[1] > open,  high - low, max(open - close[1], high - low)), iff(high - close > close - low, iff(close[1] < open, max(high - close[1], close - low), high - open), iff(high - close < close - low, iff(close[1] > open, high - low, max(open - close[1], high - low)), iff(close[1] > open, max(high - open, close - low), iff(close[1] < open, max(open - close[1], high - low), high-low))))))
bearPower = iff(close < open, iff(close[1] > open, max(close[1] - open, high - low), high - low), iff(close > open, iff(close[1] > open, max(close[1] - low, high - close), max(open - low, high - close)), iff(high - close > close - low, iff(close[1] > open, max(close[1] - open, high - low), high - low), iff(high - close < close - low, iff(close[1] > open, max(close[1] - low, high - close), open - low), iff(close[1] > open, max(close[1] - open, high - low), iff(close[1] < open, max(open - low, high - close), high - low))))))

bullVolume = (bullPower / (bullPower + bearPower)) * volume
bearVolume = (bearPower / (bullPower + bearPower)) * volume

delta = bullVolume - bearVolume
cvd = cum(delta)
cvdMa = sma(cvd, periodMa)

deltagood = cvd > cvdMa
deltabad  = cvd < cvdMa

//Volume weight------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

getMA0(length) =>
    maPrice = ema(volume, length)
    if maType == "SMA"
        maPrice := sma(volume, length)
    if maType == "HMA"
        maPrice := hma(volume, length)
    if maType == "WMA"
        maPrice := wma(volume, length)
    if maType == "DEMA"
        e1 = ema(volume, length)
        e2 = ema(e1, length)
        maPrice := 2 * e1 - e2
    maPrice

ma = getMA0(maLength)
rvol = volume / ma

volumegood = volume > rvolTrigger * ma

//MA----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

ma5 = sma(close, 5)
ma10 = sma(close, 10)
ma30 = sma(close, 30)

magood = ma5 > ma30
mabad  = ma5 < ma30

simplema = sma(src,length)
exponentialma = ema(src,length)
hullma = wma(2*wma(src, length/2)-wma(src, length), round(sqrt(length)))
weightedma = wma(src, length)
volweightedma = vwma(src, length)
avgval = matype==1 ? simplema : matype==2 ? exponentialma : matype==3 ? hullma : matype==4 ? weightedma : matype==5 ? volweightedma : na
MA_speed = (avgval / avgval[1] -1 ) *100

masgood = MA_speed > 0
masbad  = MA_speed < 0

//Momentum-----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

data = 0
for i = 1 to tmolength-1
    if close > open[i]
        data := data + 1
    if close < open[i]
        data := data - 1
    
EMA5 = ema(data, calcLength)
Main = ema(EMA5, smoothLength)
Signal = ema(Main, smoothLength)

momentumgood = Main > Signal
momentumbad = Main < Signal

//STRATEGY===============================================================================================================================================================================================================================================================

Long = (DIPlus > DIMinus and ADX > th)  and volumegood and sargood and rsiob and macdgood and deltagood and magood and masgood and bullish and jmagood and rangegood and momentumgood
Short = (DIPlus < DIMinus and ADX > th) and volumegood and sarbad  and rsios and macdbad  and deltabad  and mabad and masbad and jmabad and rangebad and momentumbad

//BACKTESTING==========================================================================================================================================================================================================================

// ————— Backtest input
Act_BT              = input(true, title = "BACKTEST", type = input.bool)
backtest_time       = input(180, title ="BACKTEST DAYS", type = input.integer, minval = 1)*24*60*60*1000
entry_Type          = input("% EQUITY", title = "ENTRY TYPE", options = ["CONTRACTS","CASH","% EQUITY"])
et_Factor           = (entry_Type == "CONTRACTS") ? 1 : (entry_Type == "% EQUITY") ? (100/(strategy.equity/close)) : close

//Signals----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

// SL AND TP-----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

stopPer = input(3.6, title='Stop Loss % [plotshape]', type=input.float) / 100
takePer = input(0.8, title='Take Profit % [plotshape]', type=input.float) / 100

long_short = 0
long_last = Long and (nz(long_short[1]) == 0 or nz(long_short[1]) == -1)
short_last = Short and (nz(long_short[1]) == 0 or nz(long_short[1]) == 1)
long_short := long_last ? 1 : short_last ? -1 : long_short[1]

longPrice = valuewhen(long_last, close, 0)
shortPrice = valuewhen(short_last, close, 0)

longStop = longPrice * (1 - stopPer)
shortStop = shortPrice * (1 + stopPer)
longTake = longPrice * (1 + takePer)
shortTake = shortPrice * (1 - takePer)

//plot lines ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

plotshape(long_short==1  ? longTake : na, style=shape.cross, color=color.gray, location=location.absolute )
plotshape(long_short==-1 ? shortTake : na, style=shape.cross, color=color.gray, location=location.absolute )

longBar1 = barssince(long_last)
longBar2 = longBar1 >= 1 ? true : false
shortBar1 = barssince(short_last)
shortBar2 = shortBar1 >= 1 ? true : false

Long_SL = long_short==1 and longBar2 and low < longStop
Short_SL = long_short==-1 and shortBar2 and high > shortStop

Long_TP = long_short==1 and longBar2 and high > longTake
Short_TP = long_short==-1 and shortBar2 and low < shortTake

long_short := (long_short==1 or long_short==0) and longBar2 and (Long_SL or Long_TP) ? 0 : (long_short==-1 or long_short==0) and shortBar2 and (Short_SL or Short_TP) ? 0 : long_short

last_long_cond  = Long and  long_last
last_short_cond = Short and short_last

//plotshapes---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

plotshape(last_long_cond, title="Long x1", color=color.blue, style=shape.triangleup, location=location.belowbar, size=size.small, textcolor=color.white, text="Long" , transp=1)
plotshape(last_short_cond, title="Short x1", color=color.red, style=shape.triangledown, location=location.abovebar, size=size.tiny, textcolor=color.white, text="Short" ,transp=1)

plotshape(Long_SL, location=location.belowbar, color=color.black, size=size.tiny , text="SL", textcolor=color.fuchsia)
plotshape(Short_SL, location=location.abovebar, color=color.black, size=size.tiny , text="SL", textcolor=color.fuchsia)

plotshape(Long_TP,style=shape.triangledown, location=location.abovebar, color=color.gray, size=size.tiny , text="TP", textcolor=color.red)
plotshape(Short_TP,style=shape.triangleup, location=location.belowbar, color=color.gray, size=size.tiny , text="TP", textcolor=color.green)

if last_long_cond and Act_BT
    strategy.entry("L", strategy.long)
    
if last_short_cond and Act_BT
    strategy.entry("S", strategy.short)
    
per(pcnt) =>
    strategy.position_size != 0 ? round(pcnt / 100 * strategy.position_avg_price / syminfo.mintick) : float(na)
stoploss=input(title=" stop loss [BT]", defval=3.6, minval=0.01)
los = per(stoploss)
q=input(title=" qty percent", defval=100, minval=1)

tp=input(title=" Take profit [BT]", defval=0.8, minval=0.01)

strategy.exit("tp", qty_percent = q, profit = per(tp), loss = los)

//By wielkieef

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