zignale indicator free

by ctid4935132 in category Other at 22/09/2022
Description

@version=4

Di Mihkel00

Questo script è progettato per il metodo NNFX, quindi è consigliato solo per i grafici giornalieri.

Ho provato a implementare alcune regole VP NNFX

Questo script ha un SSL / Baseline (è possibile scegliere tra SSL o MA), un SSL secondario per le negoziazioni di continiuation e un terzo SSL per le negoziazioni di uscita.

Avvisi aggiunti per le voci baseline, le continuazioni SSL2, le uscite.

Baseline ha un'impostazione Keltner Channel per le candele grigie "in zona"

Aggiunti diamanti "Candle Size > 1 ATR" dal mio vecchio script con i criteri di essere all'interno dell'intervallo ATR di base.

Crediti

Strategia causecelebre https://www.tradingview.com/u/causecelebre/

Canale SSL ErwinBeckers https://www.tradingview.com/u/ErwinBeckers/

Medie mobili jiehonglim https://www.tradingview.com/u/jiehonglim/

Le medie mobili generano https://www.tradingview.com/u/everget/

Sceneggiatura di "Molte medie mobili" 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="Mostra SSL1", type=input.bool, defval=false)

show_atr = input(title="Mostra bande ATR", type=input.bool, defval=true)

Atr

atrlen = input(14, "Periodo ATR")

mult = input(1, "ATR Multi", step=0.1)

smoothing = input(title="ATR Smoothing", defval="WMA", options=["RMA", "SMA", "EMA", "WMA"])

 

ma_function(source, atrlen) = >

se levigante == "RMA"

rma(fonte, atrlen)

altro

se levigante == "SMA"

sma(fonte, atrlen)

altro

se levigante == "EMA"

ema(fonte, atrlen)

altro

wma(fonte, atrlen)

atr_slen = ma_function(tr(true), atrlen)

ATR Up/Low Bands

upper_band = atr_slen * mult + chiudi

lower_band = chiudi - atr_slen * mult

 

BASELINE / SSL1 / SSL2 / VALORI DI MEDIA MOBILE IN USCITA

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="LUNGHEZZA USCITA", 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="Filtro modulare, solo filtro generale - Beta")

feedback = input(false, title="Solo filtro modulare - 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, lunghezza) = >

    PI = 2 * asin(1)

arg = sqrt(2) * PI / lunghezza

    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, lunghezza) = >

    PI = 2 * asin(1)

 

arg = PI / lunghezza

    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) = >

risultato float = 0

se tipo=="TMA"

risultato := 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 e 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)

 

AVVISI

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='Vendi continuazione', message='Vendi continuazione.')

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.')

Notification Publishing copyrighted material is strictly prohibited. If you believe there is copyrighted material in this section you may use the Copyright Infringement Notification form to submit a claim.
Formula / Source Code
Language: C#
Trading Platform: cAlgocTrader
/* -------------------------------------------------------------------------------
 *
 *      [PoshTrader] ADX Signed
 *
 *      Copyright (C) 2020, PoshTrader Ltd (https://poshtrader.com)
 *      PoshTrader reserves the right to modify or overwrite this algo with each release.
 *
 *      https://poshtrader.com/items/ctrader/4836/
 *
 * -------------------------------------------------------------------------------
 */

using cAlgo.API;
using PoshTrader.Licensing;

namespace cAlgo
{
    [Item(4836, "ADX Signed", Author = "PoshTrader")]
    [Indicator(IsOverlay = true, AccessRights = AccessRights.FullAccess)]
    public class SymbolWatermark : Indicator
    {
        protected override void Initialize()
        {
            new ItemLicense(this);
        }

        public override void Calculate(int index) { }
    }
}
Comments

nardleo606 - September 23, 2022 @ 11:32

Congratulation! Today’s challenge starts with weaver game online

0