Vdub_FLO RIDER_V1 — Indicateur par vdubus

binary options strategy vdub vdubus binaryoption oscillator

By request I have compiled everything I use to trade in to one indicator

Script open-source

Dans le véritable esprit de TradingView, l'auteur de ce script l'a publié en open-source, afin que les traders puissent le comprendre et le vérifier. Bravo à l'auteur! Vous pouvez l'utiliser gratuitement, mais la réutilisation de ce code dans une publication est régie par le règlement. Vous pouvez le mettre en favori pour l'utiliser sur un graphique.

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Vous voulez utiliser ce script sur un graphique ?

//@version=2
study(title="Vdub_FLO RIDER_V1", shorttitle="Vdub_FLO_RIDER_V1", overlay=false)
// Tops & Bottoms.
pctile = input(90, title="%")
wrnpctile = input(70, title=" %")
Short = input(0.3, title="LONG")
Long = input(0.5, title="SHORT")
lkbT = input(250,title="'PRO-Top")
lkbB = input(250,title="'PRO-Bottom")
//Laguerre PPO Code from TheLark
lag(g, p) =>
    L0 = (1 - g)*p+g*nz(L0[1])
    L1 = -g*L0+nz(L0[1])+g*nz(L1[1])
    L2 = -g*L1+nz(L1[1])+g*nz(L2[1])
    L3 = -g*L2+nz(L2[1])+g*nz(L3[1])
    f = (L0 + 2*L1 + 2*L2 + L3)/6
    f
lmas = lag(Short, hl2)
lmal = lag(Long, hl2)

pctileB = pctile * -1
wrnpctileB = wrnpctile * -1

//PPO Plot
ppoT = (lmas-lmal)/lmal*100
ppoB = (lmal - lmas)/lmal*100
//PercentRank of PPO 
pctRankT = percentrank(ppoT, lkbT)
pctRankB = percentrank(ppoB, lkbB) * -1
colT = pctRankT >= pctile ? red : pctRankT >= wrnpctile and pctRankT < pctile ? red : red
plot(pctRankT,title="Percentile Rank", color=colT, style=line, linewidth=2)
//-------------------------------------------
//Original coding Khramov.Vladislav*StochDMI*AWESOME*5 min binary options*
wwma(l,p) =>
    wwma = (nz(wwma[1]) * (l - 1) + p) / l

DMIlength = input(10, title = "DMI")
Stolength = input(6, title = "DMI Stoch")
os = input (15, title = "Over Bought")
ob = input (85, title = "Over Sold")

hiDiff = high - high[1]
loDiff = low[1] - low

plusDM = (hiDiff > loDiff) and (hiDiff > 0) ? hiDiff : 0
minusDM = (loDiff > hiDiff) and (loDiff > 0) ? loDiff : 0

ATR = wwma(DMIlength, tr)

PlusDI = 100 * wwma(DMIlength,plusDM) / ATR
MinusDI = 100 * wwma(DMIlength,minusDM) / ATR

osc = PlusDI - MinusDI

hi = highest(osc, Stolength)
lo = lowest(osc, Stolength)

Stoch = sum((osc-lo),Stolength) / sum((hi-lo),Stolength) *100
plot(Stoch, color = black, title = 'Stochastic', linewidth = 1, style = line)

crossUp = Stoch[1] < os and Stoch > os ? 1 : 0
crossDo = Stoch[1] > ob and Stoch < ob ? 1 : 0

plotshape(crossUp, title="Arror up", style=shape.labelup, location=location.bottom, color=green)
plotshape(crossDo, title="Arrow down",style=shape.labeldown, location=location.top, color=red)

line2 = hline(80, linestyle=solid, color=red, linewidth = 2)
line0 = hline(20, linestyle=solid, color=green, linewidth = 2)
fill(line2, line0, transp=95)
//
length = input(21, minval=1), smoothK = input(8, minval=1), smoothD = input(5, minval=1)
k = ema(stoch(close, high, low, length), smoothK)
d = ema(k, smoothD)
plot(k, color=blue, linewidth=1)
plot(d, color=red, linewidth=2)
h0 = hline(70, color=red, linewidth=2)
h1 = hline(30, color=green, linewidth=2)
//----------------
plot(cross(d, k) ? d : na, color=black, style = circles, linewidth = 3)
OutputSignal = k >= d ? 0 : 1

//------ Back ground expiry
tf = input('30', title="BO Expiry")
tf_bool = na(tf_bool[1]) ? 0 : change(time(tf)) and tf_bool[1] == 0 ? 1 : change(time(tf)) and tf_bool[1] == 1 ? 0 : tf_bool[1]
bgcolor(tf_bool == 1 ? green : na, transp=85)