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Le TMA-Legacy

Auteur:ChaoZhang est là., Date: 2022-05-09 22h38 et 11h
Les étiquettes:Indice de résistance

Il s'agit d'un script basé sur l'indicateur original de divergence TMA-RSI de PhoenixBinary. La communauté Phoenix Binary et la communauté TMA ont construit cette version pour être un code public pour la communauté pour une utilisation et une révision ultérieures après le décès de Phoenix Binary (La communauté présente ses condoléances à la famille de Phoenix.

Les utilisations prévues sont les mêmes que l'original mais certains calculs sont différents et peuvent ne pas agir ou signaler de la même manière que l'original.

Description de l'indicateur à partir de l'affichage initial. Cet indicateur a été inspiré par Arty et Christy.

█ COMPONENTS

Voici un bref aperçu de l'indicateur de l'affichage original:

1 Divergence de l'ISR Arty utilise la divergence du RSI comme outil pour trouver des points d'entrée et des renversements possibles. Il n'utilise pas le traditionnel surachat/survente. Il utilise une ligne 50. Cet indicateur comprend une ligne 50 et une ligne flottante 50. La ligne flottante 50 est une moyenne mobile lissée sur plusieurs délais. La ligne RSI utilise un algos de couleur dynamique qui montre le contrôle actuel du marché ainsi que les éventuels points tournants du marché.

2 Divergence de l'indicateur de volatilité allégée La divergence du RSI lissé est un RSI plus lent avec des calculs différents pour lisser la ligne du RSI. Cela donne une perspective différente de l'action des prix et une perspective plus à long terme de la tendance.

3 Divergence de l'élan Ça prendra du temps à maîtriser, mais une fois maîtrisé, et combiné avec les deux autres, ces entrées deviennent littéralement mortelles.

test de retour

img


/*backtest
start: 2022-02-08 00:00:00
end: 2022-05-08 00:00:00
period: 2h
basePeriod: 15m
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/
// ©Hotchachachaa, Rest in Peace Pheonix Algo(aka Doug) your community misses you and we extend our deepest sympathies to your family. 
//@version=5
//
//This indicator is based on the TMA-Divergence indicator created by PhoenixBinary for the TMA discord Community. Since Phoenix is no longer part of the community
//we did our best to recreate the indicator for the community's continued use updates and revisions. 
indicator("TMA-Legacy", overlay=false)

////////////////////////////////////inputs////////////////////////////////////////////////

displayRSI = input.string(title="RSI Type", defval="RSI Divergence", options=["RSI Divergence","RSI Smoothed","RSI Momentum"],group="Main Settings")
lenrsinordiv = input.int(title="RSI Normal Length", defval=14,minval=1, group= "RSI Normal")
lenrsismodiv = input.int(title="RSI Smoothed Length", defval=40, minval=1,group = "RSI Smoothed" )
lenrsissmoma = input.int(title="RSI Smoothed MA", defval=40,minval=1, group = "RSI Smoothed" )
lenrsimomdiv = input.int(title="RSI Normal Length", defval=5 ,minval=1, group = "RSI Momentum")
rsimommalen = input.int(34, minval=1, title="Smooth RSI MA Length",group="RSI Momentum")
srcrsidiv = input(title="RSI Source", defval=close, group="Main Settings")
lbR = input.int(title="Pivot Lookback Right", defval=5,minval=1,group="Divergence Spotter")
lbL = input.int(title="Pivot Lookback Left", defval=5,minval=1,group="Divergence Spotter")
rangeUpper = input.int(title="Max of Lookback Range", defval=60,minval=1,group="Divergence Spotter")
rangeLower = input.int(title="Min of Lookback Range", defval=5,minval=1,group="Divergence Spotter")
plotBull = input.bool(title="Plot Bullish", defval=true,group="Divergence Spotter")
plotHiddenBull = input.bool(title="Plot Hidden Bullish", defval=true,group="Divergence Spotter")
plotBear = input.bool(title="Plot Bearish", defval=true,group="Divergence Spotter")
plotHiddenBear = input.bool(title="Plot Hidden Bearish", defval=true,group="Divergence Spotter")
bearColorrsidiv = color.red
bullColorrsidiv = color.green
hiddenBullColor = color.new(color.green, 80)
hiddenBearColor = color.new(color.red, 80)
textColor = color.white
noneColor = color.new(color.white, 100)
lenDisplay= displayRSI == "RSI Divergence" ? lenrsinordiv: displayRSI == "RSI Smoothed" ? lenrsismodiv: na
rsiValue1 = ta.rsi(srcrsidiv, lenrsinordiv)

// ### Smoothed MA

averageSource = rsiValue1
typeofMA1 = "SMMA"
length_ma1 = 50
f_smma(averageSource, averageLength) =>
    smma = 0.0
    smma := na(smma[1]) ? ta.sma(averageSource, averageLength) : (smma[1] * (averageLength - 1) + averageSource) / averageLength
    smma
    
f_smwma(averageSource, averageLength) =>
    smwma = 0.0
    smwma := na(smwma[1]) ? ta.wma(averageSource, averageLength) : (smwma[1] * (averageLength - 1) + averageSource) / averageLength
    smwma
    
f_tma(averageSource, averageLength) =>
    ta.sma(ta.sma(averageSource, averageLength), averageLength)

f_dema(averageSource, averageLength) =>
    emaValue = ta.ema(averageSource, averageLength)
    2 * emaValue - ta.ema(emaValue, averageLength)

f_tema(averageSource, averageLength) =>
    ema1 = ta.ema(averageSource, averageLength)
    ema2 = ta.ema(ema1, averageLength)
    ema3 = ta.ema(ema2, averageLength)
    (3 * ema1) - (3 * ema2) + ema3 

f_ma(smoothing, averageSource, averageLength) =>
	switch str.upper(smoothing)
        "SMA"  => ta.sma(averageSource, averageLength)
        "EMA"  => ta.ema(averageSource, averageLength)
        "WMA"  => ta.wma(averageSource, averageLength)
        "HMA"  => ta.hma(averageSource, averageLength)
        "RMA"  => ta.rma(averageSource, averageLength)
        "SWMA" => ta.swma(averageSource)
        "ALMA" => ta.alma(averageSource, averageLength, 0.85, 6)
        "VWMA" => ta.vwma(averageSource, averageLength)
        "VWAP" => ta.vwap(averageSource)
        "SMMA" =>  f_smma(averageSource, averageLength)
        "SMWMA" =>  f_smwma(averageSource, averageLength)
        "DEMA" => f_dema(averageSource, averageLength)
        "TEMA"=>  f_tema(averageSource, averageLength)
        => runtime.error("Moving average type '" + smoothing + 
             "' not found!"), na
             
             
MA1 = f_ma(typeofMA1, averageSource, length_ma1)
showNormal=displayRSI=="RSI Divergence"
showSmoothed=displayRSI=="RSI Smoothed"
showMomentum = displayRSI =="RSI Momentum"
showAll= displayRSI=="All Three"
///////OB/OS lines

hline(showNormal or showSmoothed ? 80 :na, title="OverBought", linestyle=hline.style_dotted, linewidth=2)
hline(showNormal or showSmoothed ? 20 :na, title="OverSold", linestyle=hline.style_dotted, linewidth=2)
////////////////show normal

plot(showNormal? MA1 : na , linewidth=2, color=color.white)

var int colortoken=1

color1= color.green
color2 = color.yellow
color3 = color.orange
color4 = color.red

if rsiValue1>rsiValue1[1] and colortoken!=1
    colortoken:= colortoken[1] - 1

if rsiValue1<rsiValue1[1] and colortoken!=4
    colortoken:= colortoken[1] + 1 

lineColor= colortoken == 1 ? color1: colortoken ==2 ? color2 : colortoken == 3 ? color3 : colortoken == 4 ? color4 :na

plot(showNormal? rsiValue1 : na, title="RSI", linewidth=3, color=lineColor)



	
////////////show smoothed
lensig = input.int(14, title="ADX Smoothing", minval=1, maxval=50)
len = input.int(14, minval=1, title="DI Length")
up = ta.change(high)
down = -ta.change(low)
plusDM = na(up) ? na : (up > down and up > 0 ? up : 0)
minusDM = na(down) ? na : (down > up and down > 0 ? down : 0)
trur = ta.rma(ta.tr, len)
plus = fixnan(100 * ta.rma(plusDM, len) / trur)
minus = fixnan(100 * ta.rma(minusDM, len) / trur)
sum = plus + minus
adx = 100 * ta.rma(math.abs(plus - minus) / (sum == 0 ? 1 : sum), lensig)
rsisrc = ta.rsi(close,lenrsismodiv)
adxthreshold=input.int(title="adx",defval=15)
smoothColor= adx>adxthreshold and plus>minus? color.green:adx>adxthreshold and plus<minus?color.red : adx<adxthreshold?color.gray:na

rsismma = 0.0
rsismma := na(rsismma[1]) ? ta.sma(rsisrc, lenrsissmoma) : (rsismma[1] * (lenrsissmoma - 1) + rsisrc) / lenrsissmoma
rsiwsmma= ta.wma(rsismma,lenrsissmoma)
plot(showSmoothed ? rsisrc:na, linewidth=2, color=smoothColor)
plot(showSmoothed ? rsiwsmma:na, linewidth=2, color=color.white)


////////////////RSI momentum
///////////////////// normal RSI
rsiValue2 = ta.rsi(ohlc4,lenrsimomdiv)
rsiema = ta.wma(rsiValue2,rsimommalen)
normalizedRSI= (rsiValue2-50)/100

/////////////////// Normal Momentum
lenmom = input.int(5, minval=1, title=" MOM Length",group= "RSI Momentum")
srcmom = ohlc4
mom = srcmom - srcmom[lenmom]

//////////stochRSI K line
smoothK = input.int(5, "K", minval=1)
lengthRSI = input.int(5, "RSI Length", minval=1, group="RSI Momentum")
lengthStoch = input.int(34, "Stochastic Length", minval=1,group= "RSI Momentum")
src = input(ohlc4, title="RSI Source",group= "RSI Momentum")
rsi1 = ta.rsi(src, lengthRSI)
k = ((ta.sma(ta.stoch(rsi1, rsi1, rsi1, lengthStoch), smoothK))-50)/100

WTF=math.avg(mom,normalizedRSI,k)
smmaLen = input.int(25, minval=1, title="SMMA Length", group = "RSI Momentum")
smmaLen1= 2
smmaSrc = WTF
WTFsmma = 0.0
WTFsmma := na(WTFsmma[1]) ? ta.sma(smmaSrc, smmaLen1) : (WTFsmma[1] * (smmaLen1 - 1) + smmaSrc) / smmaLen1
smma = 0.0
smma := na(smma[1]) ? ta.sma(smmaSrc, smmaLen) : (smma[1] * (smmaLen - 1) + smmaSrc) / smmaLen


color1a= #0E3F01
color2a = #31FA2A
color3a = #FA6B6B
color4a = #971643

momentumColor= WTF>WTF[1] and WTF>smma ? color1a : WTF<WTF[1] and WTF>smma ? color2a : WTF>WTF[1] and WTF<smma ? color3a : WTF<WTF[1] and WTF<smma ? color4a : na



plot(showMomentum ? WTF:na, color=momentumColor, linewidth=3)
plot(showMomentum ? smma:na , linewidth=2, color=color.white)



osc= displayRSI =="RSI Divergence" ? rsiValue1 : displayRSI =="RSI Smoothed" ? rsisrc:na 

///////////divergence
plFound = na(ta.pivotlow(osc, lbL, lbR)) ? false : true
phFound = na(ta.pivothigh(osc, lbL, lbR)) ? false : true
_inRange(cond) =>
	bars = ta.barssince(cond == true)
	rangeLower <= bars and bars <= rangeUpper
	
//------------------------------------------------------------------------------
// Regular Bullish
// Osc: Higher Low

oscHL = osc[lbR] > ta.valuewhen(plFound, osc[lbR], 1) and _inRange(plFound[1])

// Price: Lower Low

priceLL = low[lbR] < ta.valuewhen(plFound, low[lbR], 1)
bullCond = plotBull and priceLL and oscHL and plFound

plot(
     displayRSI !="RSI Momentum"and plFound ? osc[lbR] : na,
     offset=-lbR,
     title="Regular Bullish",
     linewidth=2,
     color=(bullCond ? bullColorrsidiv : noneColor)
    
     )



//------------------------------------------------------------------------------
// Hidden Bullish
// Osc: Lower Low

oscLL = osc[lbR] < ta.valuewhen(plFound, osc[lbR], 1) and _inRange(plFound[1])

// Price: Higher Low

priceHL = low[lbR] > ta.valuewhen(plFound, low[lbR], 1)
hiddenBullCond = plotHiddenBull and priceHL and oscLL and plFound

plot(
	 displayRSI !="RSI Momentum" and plFound ? osc[lbR] : na,
	 offset=-lbR,
	 title="Hidden Bullish",
	 linewidth=2,
	 color=(hiddenBullCond ? hiddenBullColor : noneColor)

	 )



//------------------------------------------------------------------------------
// Regular Bearish
// Osc: Lower High

oscLH = osc[lbR] < ta.valuewhen(phFound, osc[lbR], 1) and _inRange(phFound[1])

// Price: Higher High

priceHH = high[lbR] > ta.valuewhen(phFound, high[lbR], 1)

bearCond = plotBear and priceHH and oscLH and phFound

plot(
	 displayRSI !="RSI Momentum" and phFound ? osc[lbR] : na,
	 offset=-lbR,
	 title="Regular Bearish",
	 linewidth=2,
	 color=(bearCond ? bearColorrsidiv : noneColor)

	 )


//------------------------------------------------------------------------------
// Hidden Bearish
// Osc: Higher High

oscHH = osc[lbR] > ta.valuewhen(phFound, osc[lbR], 1) and _inRange(phFound[1])

// Price: Lower High

priceLH = high[lbR] < ta.valuewhen(phFound, high[lbR], 1)

hiddenBearCond = plotHiddenBear and priceLH and oscHH and phFound

plot(
	 displayRSI !="RSI Momentum" and phFound ? osc[lbR] : na,
	 offset=-lbR,
	 title="Hidden Bearish",
	 linewidth=2,
	 color=(hiddenBearCond ? hiddenBearColor : noneColor)

	 )



// ### Alerts


if bearCond
    alert("Bearish Divergence")
else if hiddenBearCond
    alert("Hidden Bearish Divergence")
else if bullCond
    alert("Bullish Divergence")
else if hiddenBullCond
    alert("Hidden Bullish Divergence")

if hiddenBullCond
    strategy.entry("Enter Long", strategy.long)
else if hiddenBearCond
    strategy.entry("Enter Short", strategy.short)


// END ###

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