Algorithms

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How to install
zignale indicator
  2
  0
  142
free  22 Sep 2022
@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.')
Breakout Trend Bot
  5
  5
  704
free  21 Sep 2022
By ForexCove. The Breakout Trend Bot trades in the direction of trend. Pending orders are placed x-pips above or below previous highest high or lowest low, and if market shows strength in the predicted direction, the trade is taken. You can configure desired trend strength with built in ADX filter, and even let TP and SL targets be defined by ATR.  To download a sample config file, visit this link HERE
MACD Market Timer
  5
  0
  413
free  18 Sep 2022
 Robot with MACD signal trend. M30 -H4 GBPUSD. if the market changes the primary trend to high, change the code indicated. I'm working to adjust this function. https://paypal.com/donate/?hosted_button_id=7Z3P95CZYT5CA    
by mfejza
free  18 Sep 2022
The RationalSL indicator showing the size of StopLoss based on average periods of true range of the price, for both long and short trades. The indicator is adopted based in different pair decimals and time frames.
RVI Force indicator
  5
  0
  292
by mfejza
free  15 Sep 2022
This indicator is a custom indicator as a product of detrending the original RVI (Relative Vigor Index) indicator, also deriving the bands from the half detrending size. The propose of indicator is to identify the market sentiment.  Bullish sentiment when black line is above the bands; Bearish sentiment when black line is below the bands. In case of black line make V shape that mean price action will create HL (higher low) or LH (Lower high). The HL is created when black line is above the red line, the LH is created when black line is below the red line.
by mfejza
free  13 Sep 2022
John Tirone Levels are a set of the appropriate support and resistance levels based on a trading range for a certain period of time. Usually they are used only to improve visual perception of the market price moves. In this case, the Midpoint method is used for the calculation of all three Tirone Levels. Market minimum and maximum for a certain period of time are calculated at first.
DynamicRS indicator
  4
  0
  268
by mfejza
free  13 Sep 2022
This indicator showing price average and price intrinsic level without smoothing methods.
by mfejza
free  13 Sep 2022
The Leavitt Projection indicator was created by Jay Leavitt (Stocks and Commodities Oct 2019, page11), who is most well known for creating the Volume Weighted Average Price indicator. Respecting the slope of indicator and position of crossing zero level is giving the satisfied signals.
by mfejza
free  13 Sep 2022
The Disparity Index indicator is used to define price reversal levels. The histogram bars (disparity index) when rising above the upper band, the overbought level is reached. The histogram bars when decreasing below the lower band, the oversold level is reached.  
VWAP Midas Buttons
  1
  5
  393
free  13 Sep 2022
Just a VWAP Midas with 5 Buttons in 1 indicator See also -->> TPO Profile <<-- See also -->> Weis & Wyckoff System <<-- Usage: Create VWAP: Click on button and select the bar for VWAP Remove VWAP: Click the button again when it is activated. VWAP will be updated with each new bar
Heikin MACD
  2
  0
  408
free  12 Sep 2022
Salam, Heikin Ashi with macd    
free  12 Sep 2022
Adds a watermark to the chart background displaying symol name and description and timeframe with options( color, font, alignment, opacity, show description)