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Simple movimiento de dos indicadores de tradingview, prueba de retrospectiva (sólo intercambio de aprendizaje, autoestima de las consecuencias reales)

El autor:- ¿Qué quieres decir?, Creado: 2022-11-22 19:57:12, Actualizado: 2022-11-23 11:13:30

Indicadores utilizados en la estrategia 1 SSL híbrido El índice RSI del STOCH es el siguiente:imgLos dos son indicadores en Trading View, y el código fuente se mueve directamente a Trading View.

275 líneas de código para SSL Hybrid.

//@version=4
//By Mihkel00
// This script is designed for the NNFX Method, so it is recommended for Daily charts only. 
// Tried to implement a few VP NNFX Rules
// This script has a SSL / Baseline (you can choose between the SSL or MA), a secondary SSL for continiuation trades and a third SSL for exit trades.
// Alerts added for Baseline entries, SSL2 continuations, Exits.
// Baseline has a Keltner Channel setting for "in zone" Gray Candles
// Added "Candle Size > 1 ATR" Diamonds from my old script with the criteria of being within Baseline ATR range.
// Credits
// Strategy causecelebre https://www.tradingview.com/u/causecelebre/
// SSL Channel ErwinBeckers https://www.tradingview.com/u/ErwinBeckers/
// Moving Averages jiehonglim https://www.tradingview.com/u/jiehonglim/
// Moving Averages  everget https://www.tradingview.com/u/everget/
// "Many Moving Averages" script  Fractured https://www.tradingview.com/u/Fractured/
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.')

// Este es el código de Stoch RSI, que también se ha copiado.

//@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")  //src重名了,改为src1
rsi1 = ta.rsi(src1, lengthRSI)           //src重名了,改为src1
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")

// Aquí surge un problema, una variablesrc se renombró en estos dos indicadores, cambiando el nombre de la variablesrc de dos veces en que apareció el rsi de stoch asrc1 // al final de la estrategia, más la función de transacción

BASEMONEY = input(50, '开仓数量')         //开仓数量,回测50000u开50eth还是很靠谱的,如果是btc当然不能这么多
prof = input(10, '止盈')                  //止盈止损百分比,回测不带止盈止损,直接设置10000
los = input(5,'止损')
if base_cross_Long and k < 20 and d <20                      //base_cross_Long ,ssl hybird指标里向上的买入箭头
    strategy.entry("Enter Long", strategy.long, BASEMONEY)   //k,d <20 ,stoch rsi 超卖信号。同时出现这两个指标,买入
strategy.exit("exit",  profit = prof, loss = los )
if base_cross_Short and k > 80 and d > 80                    //base_cross_Long ,ssl hybird指标里向下的卖出箭头
    strategy.entry("Enter Short", strategy.short, BASEMONEY) //k,d >80 ,stoch rsi 超买信号。同时出现这两个指标,卖出
strategy.exit("exit",  profit = prof, loss = los)

// Terminado, el código anterior se puede copiar directamente a la nueva política de pines para su uso directo.

ETH 15 minutos de retest, 10 veces el apalancamiento por defecto, stop stop stop loss 10000 y el resto de indicadores por defecto Tiempo de repetición 2021.12.1-2022.11.14, incluyendo 124,512,618,119 eventos importantes de todo tipoimg imgLos resultados de la prueba explotaron, sólo para divertirse en la prueba, y las consecuencias reales son arrogantes.img img


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el nombre de la empresa:¿Por qué no se puede copiar y luego no se puede ejecutar? ¿Hay algún otro problema?

El acosador¿Se ha detectado alguna remodelación?

- ¿Qué quieres decir?Si encuentran indicadores útiles en la televisión, si son fáciles de entender y de cambiar, puedo cambiar la estrategia de FMZ gratis y aprender a comunicarse juntos!

- ¿Qué quieres decir?No se sabe si el código de copia viene, la frase de ejecución debajo de la frase de if debería ser comprimida, en este caso, no se comprime.

Los inventores cuantifican - sueños pequeñosOK~ Gracias por apoyar la cuantificación de FMZ.

- ¿Qué quieres decir?Bueno, lo actualizo y el código está bien.

Los inventores cuantifican - sueños pequeñosEl formato de los códigos en FMZ es: ¿Por qué no lo haces? El código ¿Por qué no lo haces?