Name
SSL-Hybrid-STOCH-RSI
Author
luqi0212
Strategy Description
回测一年,K线周期15分钟 5万u,开单50个以太,止盈止损10000%(即不设止盈止损) 开单数量、止盈止损参数以及其他参数自己调整
Strategy Arguments
| Argument | Default | Description |
|---|---|---|
| v_input_1 | true | Show Baseline |
| v_input_2 | false | Show SSL1 |
| v_input_3 | true | Show ATR bands |
| v_input_4 | 14 | ATR Period |
| v_input_5 | true | ATR Multi |
| v_input_6 | 0 | ATR Smoothing: WMA |
| v_input_7 | 0 | SSL1 / Baseline Type: HMA |
| v_input_8 | 60 | SSL1 / Baseline Length |
| v_input_9 | 0 | SSL2 / Continuation Type: JMA |
| v_input_10 | 5 | SSL 2 Length |
| v_input_11 | 0 | EXIT Type: HMA |
| v_input_12 | 15 | EXIT Length |
| v_input_13_close | 0 | Source: close |
| v_input_14 | true | Kijun MOD Divider |
| v_input_15 | 3 | * Jurik (JMA) Only - Phase |
| v_input_16 | true | * Jurik (JMA) Only - Power |
| v_input_17 | 10 | * Volatility Adjusted (VAMA) Only - Volatility lookback length |
| v_input_18 | 0.8 | Modular Filter, General Filter Only - Beta |
| v_input_19 | false | Modular Filter Only - Feedback |
| v_input_20 | 0.5 | Modular Filter Only - Feedback Weighting |
| v_input_21 | 20 | EDSMA - Super Smoother Filter Length |
| v_input_22 | 0 | EDSMA - Super Smoother Filter Poles: 2 |
| v_input_23 | true | useTrueRange |
| v_input_24 | 0.2 | Base Channel Multiplier |
| v_input_25 | true | Color Bars |
| v_input_26 | 0.9 | Continuation ATR Criteria |
| v_input_int_1 | 3 | K |
| v_input_int_2 | 3 | D |
| v_input_int_3 | 14 | RSI Length |
| v_input_int_4 | 14 | Stochastic Length |
| v_input_27_close | 0 | RSI Source: close |
| v_input_28 | 50 | 开仓数量 |
| v_input_29 | 10000 | 止盈 |
| v_input_30 | 10000 | 止损 |
Source (PineScript)
/*backtest
start: 2021-12-01 00:00:00
end: 2022-11-22 23:59:00
period: 15m
basePeriod: 5m
exchanges: [{"eid":"Futures_Binance","currency":"ETH_USDT"}]
args: [["v_input_28",50],["v_input_29",10000],["v_input_30",10000]]
*/
//@version=4
study("SSL Hybrid", overlay=true)
show_Baseline = input(title="Show Baseline", type=input.bool, defval=true)
show_SSL1 = input(title="Show SSL1", type=input.bool, defval=false)
show_atr = input(title="Show ATR bands", type=input.bool, defval=true)
//ATR
atrlen = input(14, "ATR Period")
mult = input(1, "ATR Multi", step=0.1)
smoothing = input(title="ATR Smoothing", defval="WMA", options=["RMA", "SMA", "EMA", "WMA"])
ma_function(source, atrlen) =>
if smoothing == "RMA"
rma(source, atrlen)
else
if smoothing == "SMA"
sma(source, atrlen)
else
if smoothing == "EMA"
ema(source, atrlen)
else
wma(source, atrlen)
atr_slen = ma_function(tr(true), atrlen)
////ATR Up/Low Bands
upper_band = atr_slen * mult + close
lower_band = close - atr_slen * mult
////BASELINE / SSL1 / SSL2 / EXIT MOVING AVERAGE VALUES
maType = input(title="SSL1 / Baseline Type", type=input.string, defval="HMA", options=["SMA","EMA","DEMA","TEMA","LSMA","WMA","MF","VAMA","TMA","HMA", "JMA", "Kijun v2", "EDSMA","McGinley"])
len = input(title="SSL1 / Baseline Length", defval=60)
SSL2Type = input(title="SSL2 / Continuation Type", type=input.string, defval="JMA", options=["SMA","EMA","DEMA","TEMA","WMA","MF","VAMA","TMA","HMA", "JMA","McGinley"])
len2 = input(title="SSL 2 Length", defval=5)
//
SSL3Type = input(title="EXIT Type", type=input.string, defval="HMA", options=["DEMA","TEMA","LSMA","VAMA","TMA","HMA","JMA", "Kijun v2", "McGinley", "MF"])
len3 = input(title="EXIT Length", defval=15)
src = input(title="Source", type=input.source, defval=close)
//
tema(src, len) =>
ema1 = ema(src, len)
ema2 = ema(ema1, len)
ema3 = ema(ema2, len)
(3 * ema1) - (3 * ema2) + ema3
kidiv = input(defval=1,maxval=4, title="Kijun MOD Divider")
jurik_phase = input(title="* Jurik (JMA) Only - Phase", type=input.integer, defval=3)
jurik_power = input(title="* Jurik (JMA) Only - Power", type=input.integer, defval=1)
volatility_lookback = input(10, title="* Volatility Adjusted (VAMA) Only - Volatility lookback length")
//MF
beta = input(0.8,minval=0,maxval=1,step=0.1, title="Modular Filter, General Filter Only - Beta")
feedback = input(false, title="Modular Filter Only - Feedback")
z = input(0.5,title="Modular Filter Only - Feedback Weighting",step=0.1, minval=0, maxval=1)
//EDSMA
ssfLength = input(title="EDSMA - Super Smoother Filter Length", type=input.integer, minval=1, defval=20)
ssfPoles = input(title="EDSMA - Super Smoother Filter Poles", type=input.integer, defval=2, options=[2, 3])
//----
//EDSMA
get2PoleSSF(src, length) =>
PI = 2 * asin(1)
arg = sqrt(2) * PI / length
a1 = exp(-arg)
b1 = 2 * a1 * cos(arg)
c2 = b1
c3 = -pow(a1, 2)
c1 = 1 - c2 - c3
ssf = 0.0
ssf := c1 * src + c2 * nz(ssf[1]) + c3 * nz(ssf[2])
get3PoleSSF(src, length) =>
PI = 2 * asin(1)
arg = PI / length
a1 = exp(-arg)
b1 = 2 * a1 * cos(1.738 * arg)
c1 = pow(a1, 2)
coef2 = b1 + c1
coef3 = -(c1 + b1 * c1)
coef4 = pow(c1, 2)
coef1 = 1 - coef2 - coef3 - coef4
ssf = 0.0
ssf := coef1 * src + coef2 * nz(ssf[1]) + coef3 * nz(ssf[2]) + coef4 * nz(ssf[3])
ma(type, src, len) =>
float result = 0
if type=="TMA"
result := sma(sma(src, ceil(len / 2)), floor(len / 2) + 1)
if type=="MF"
ts=0.,b=0.,c=0.,os=0.
//----
alpha = 2/(len+1)
a = feedback ? z*src + (1-z)*nz(ts[1],src) : src
//----
b := a > alpha*a+(1-alpha)*nz(b[1],a) ? a : alpha*a+(1-alpha)*nz(b[1],a)
c := a < alpha*a+(1-alpha)*nz(c[1],a) ? a : alpha*a+(1-alpha)*nz(c[1],a)
os := a == b ? 1 : a == c ? 0 : os[1]
//----
upper = beta*b+(1-beta)*c
lower = beta*c+(1-beta)*b
ts := os*upper+(1-os)*lower
result := ts
if type=="LSMA"
result := linreg(src, len, 0)
if type=="SMA" // Simple
result := sma(src, len)
if type=="EMA" // Exponential
result := ema(src, len)
if type=="DEMA" // Double Exponential
e = ema(src, len)
result := 2 * e - ema(e, len)
if type=="TEMA" // Triple Exponential
e = ema(src, len)
result := 3 * (e - ema(e, len)) + ema(ema(e, len), len)
if type=="WMA" // Weighted
result := wma(src, len)
if type=="VAMA" // Volatility Adjusted
/// Copyright © 2019 to present, Joris Duyck (JD)
mid=ema(src,len)
dev=src-mid
vol_up=highest(dev,volatility_lookback)
vol_down=lowest(dev,volatility_lookback)
result := mid+avg(vol_up,vol_down)
if type=="HMA" // Hull
result := wma(2 * wma(src, len / 2) - wma(src, len), round(sqrt(len)))
if type=="JMA" // Jurik
/// Copyright © 2018 Alex Orekhov (everget)
/// Copyright © 2017 Jurik Research and Consulting.
phaseRatio = jurik_phase < -100 ? 0.5 : jurik_phase > 100 ? 2.5 : jurik_phase / 100 + 1.5
beta = 0.45 * (len - 1) / (0.45 * (len - 1) + 2)
alpha = pow(beta, jurik_power)
jma = 0.0
e0 = 0.0
e0 := (1 - alpha) * src + alpha * nz(e0[1])
e1 = 0.0
e1 := (src - e0) * (1 - beta) + beta * nz(e1[1])
e2 = 0.0
e2 := (e0 + phaseRatio * e1 - nz(jma[1])) * pow(1 - alpha, 2) + pow(alpha, 2) * nz(e2[1])
jma := e2 + nz(jma[1])
result := jma
if type=="Kijun v2"
kijun = avg(lowest(len), highest(len))//, (open + close)/2)
conversionLine = avg(lowest(len/kidiv), highest(len/kidiv))
delta = (kijun + conversionLine)/2
result :=delta
if type=="McGinley"
mg = 0.0
mg := na(mg[1]) ? ema(src, len) : mg[1] + (src - mg[1]) / (len * pow(src/mg[1], 4))
result :=mg
if type=="EDSMA"
zeros = src - nz(src[2])
avgZeros = (zeros + zeros[1]) / 2
// Ehlers Super Smoother Filter
ssf = ssfPoles == 2
? get2PoleSSF(avgZeros, ssfLength)
: get3PoleSSF(avgZeros, ssfLength)
// Rescale filter in terms of Standard Deviations
stdev = stdev(ssf, len)
scaledFilter = stdev != 0
? ssf / stdev
: 0
alpha = 5 * abs(scaledFilter) / len
edsma = 0.0
edsma := alpha * src + (1 - alpha) * nz(edsma[1])
result := edsma
result
///SSL 1 and SSL2
emaHigh = ma(maType, high, len)
emaLow = ma(maType, low, len)
maHigh = ma(SSL2Type, high, len2)
maLow = ma(SSL2Type, low, len2)
///EXIT
ExitHigh = ma(SSL3Type, high, len3)
ExitLow = ma(SSL3Type, low, len3)
///Keltner Baseline Channel
BBMC = ma(maType, close, len)
useTrueRange = input(true)
multy = input(0.2, step=0.05, title="Base Channel Multiplier")
Keltma = ma(maType, src, len)
range = useTrueRange ? tr : high - low
rangema = ema(range, len)
upperk =Keltma + rangema * multy
lowerk = Keltma - rangema * multy
//Baseline Violation Candle
open_pos = open*1
close_pos = close*1
difference = abs(close_pos-open_pos)
atr_violation = difference > atr_slen
InRange = upper_band > BBMC and lower_band < BBMC
candlesize_violation = atr_violation and InRange
plotshape(candlesize_violation, color=color.white, size=size.tiny,style=shape.diamond, location=location.top, transp=0,title="Candle Size > 1xATR")
//SSL1 VALUES
Hlv = int(na)
Hlv := close > emaHigh ? 1 : close < emaLow ? -1 : Hlv[1]
sslDown = Hlv < 0 ? emaHigh : emaLow
//SSL2 VALUES
Hlv2 = int(na)
Hlv2 := close > maHigh ? 1 : close < maLow ? -1 : Hlv2[1]
sslDown2 = Hlv2 < 0 ? maHigh : maLow
//EXIT VALUES
Hlv3 = int(na)
Hlv3 := close > ExitHigh ? 1 : close < ExitLow ? -1 : Hlv3[1]
sslExit = Hlv3 < 0 ? ExitHigh : ExitLow
base_cross_Long = crossover(close, sslExit)
base_cross_Short = crossover(sslExit, close)
codiff = base_cross_Long ? 1 : base_cross_Short ? -1 : na
//COLORS
show_color_bar = input(title="Color Bars", type=input.bool, defval=true)
color_bar = close > upperk ? #00c3ff : close < lowerk ? #ff0062 : color.gray
color_ssl1 = close > sslDown ? #00c3ff : close < sslDown ? #ff0062 : na
//PLOTS
plotarrow(codiff, colorup=#00c3ff, colordown=#ff0062,title="Exit Arrows", transp=20, maxheight=20, offset=0)
p1 = plot(show_Baseline ? BBMC : na, color=color_bar, linewidth=4,transp=0, title='MA Baseline')
DownPlot = plot( show_SSL1 ? sslDown : na, title="SSL1", linewidth=3, color=color_ssl1, transp=10)
barcolor(show_color_bar ? color_bar : na)
up_channel = plot(show_Baseline ? upperk : na, color=color_bar, title="Baseline Upper Channel")
low_channel = plot(show_Baseline ? lowerk : na, color=color_bar, title="Basiline Lower Channel")
fill(up_channel, low_channel, color=color_bar, transp=90)
////SSL2 Continiuation from ATR
atr_crit = input(0.9, step=0.1, title="Continuation ATR Criteria")
upper_half = atr_slen * atr_crit + close
lower_half = close - atr_slen * atr_crit
buy_inatr = lower_half < sslDown2
sell_inatr = upper_half > sslDown2
sell_cont = close < BBMC and close < sslDown2
buy_cont = close > BBMC and close > sslDown2
sell_atr = sell_inatr and sell_cont
buy_atr = buy_inatr and buy_cont
atr_fill = buy_atr ? color.green : sell_atr ? color.purple : color.white
LongPlot = plot(sslDown2, title="SSL2", linewidth=2, color=atr_fill, style=plot.style_circles, transp=0)
u = plot(show_atr ? upper_band : na, "+ATR", color=color.white, transp=80)
l = plot(show_atr ? lower_band : na, "-ATR", color=color.white, transp=80)
//ALERTS
alertcondition(crossover(close, sslDown), title='SSL Cross Alert', message='SSL1 has crossed.')
alertcondition(crossover(close, sslDown2), title='SSL2 Cross Alert', message='SSL2 has crossed.')
alertcondition(sell_atr, title='Sell Continuation', message='Sell Continuation.')
alertcondition(buy_atr, title='Buy Continuation', message='Buy Continuation.')
alertcondition(crossover(close, sslExit), title='Exit Sell', message='Exit Sell Alert.')
alertcondition(crossover(sslExit, close), title='Exit Buy', message='Exit Buy Alert.')
alertcondition(crossover(close, upperk ), title='Baseline Buy Entry', message='Base Buy Alert.')
alertcondition(crossover(lowerk, close ), title='Baseline Sell Entry', message='Base Sell Alert.')
//STOCH RSI
//@version=5
indicator(title="Stochastic RSI", shorttitle="Stoch RSI", format=format.price, precision=2, timeframe="", timeframe_gaps=true)
smoothK = input.int(3, "K", minval=1)
smoothD = input.int(3, "D", minval=1)
lengthRSI = input.int(14, "RSI Length", minval=1)
lengthStoch = input.int(14, "Stochastic Length", minval=1)
src1 = input(close, title="RSI Source")
rsi1 = ta.rsi(src1, lengthRSI)
k = ta.sma(ta.stoch(rsi1, rsi1, rsi1, lengthStoch), smoothK)
d = ta.sma(k, smoothD)
plot(k, "K", color=#2962FF)
plot(d, "D", color=#FF6D00)
h0 = hline(80, "Upper Band", color=#787B86)
hline(50, "Middle Band", color=color.new(#787B86, 50))
h1 = hline(20, "Lower Band", color=#787B86)
fill(h0, h1, color=color.rgb(33, 150, 243, 90), title="Background")
BASEMONEY = input(50, '开仓数量')
prof = input(10000, '止盈')
los = input(10000,'止损')
if base_cross_Long and (ta.crossover(k, d) ) and k <20 and d < 20
strategy.entry("Enter Long", strategy.long, BASEMONEY)
strategy.exit("exit", profit = prof, loss = los )
if base_cross_Short and (ta.crossunder(k,d) ) and k >80 and d >80
strategy.entry("Enter Short", strategy.short, BASEMONEY)
strategy.exit("exit", profit = prof, loss = los)
Detail
https://www.fmz.com/strategy/391080
Last Modified
2022-11-24 11:24:03