Murrey's Math Oscillator_V2 - Notifications — Indicateur par cBoer

trifecta murrey

TF Murrey's Math Oscillator_V2 - Notifications. For those of you who like the Histogram :)

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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Les informations et les publications ne sont pas destinées à être, et ne constituent pas, des conseils ou des recommandations en matière de finance, d'investissement, de trading ou d'autres types de conseils fournis ou approuvés par TradingView. Pour en savoir plus, consultez les Conditions d'utilisation.

Vous voulez utiliser ce script sur un graphique ?

// Created & Developed by Ucsgears, based on Murrey Math Line Principle - Modified by CCB 20.03.2015
// Version 2 - March, 12 - 2015

study(title="TF Murrey Entry and Exit", shorttitle="TF_M_EX", overlay=false, precision = 2)

// Inputs
length = input(100, minval = 10, title = "Look back Length")
mult = input(0.125, title = "Mutiplier; Only Supports 0.125 = 1/8")
lines = input(true, title= "Show Murrey Math Fractals")
bc = input(true, title = "Show Bar Colors Based On Oscillator")

// Donchanin Channel
hi = highest(high, length)
lo = lowest(low, length)
range = hi - lo
multiplier = (range) * mult
midline = lo + multiplier * 4

oscillator = (close - midline)/(range/2)

a = oscillator > 0 and oscillator < mult*2
b = oscillator > 0 and oscillator < mult*4
c = oscillator > 0 and oscillator < mult*6
d = oscillator > 0 and oscillator < mult*8

z = oscillator < 0 and oscillator > -mult*2
y = oscillator < 0 and oscillator > -mult*4
x = oscillator < 0 and oscillator > -mult*6
w = oscillator < 0 and oscillator > -mult*8

colordef = a ? #ADFF2F : b ? #32CD32 : c ? #3CB371 : d ? #008000 : z ? #CD5C5C : y ? #FA8072 : x ? #FFA07A : w ? #FF0000 : blue

barChangedBear = ((oscillator[1] > 0 and oscillator[1] < mult*8) and (oscillator < 0 and oscillator > -mult*8)) ? true : false
barChangedBull = ((oscillator[1] < 0 and oscillator[1] > -mult*8) and (oscillator > 0 and oscillator < mult*8)) ? true : false

plotshape(barChangedBear ? oscillator : na, title="Turned Bear", style=shape.circle, color=red, transp=100)
plotshape(barChangedBull ? oscillator : na, title="Turned Bull", style=shape.circle, color=lime, transp=100)

plot (oscillator, color = colordef, title = "Murrey Math Oscillator", style = columns, transp = 60)
plot(0, title = "Zero Line", color = gray, linewidth = 4)

plot(lines == 1 ? mult*2 : na, title = "First Positive Quadrant", color = gray, linewidth = 1)
plot(lines == 1 ? mult*4 : na, title = "Second Positive Quadrant", color = gray, linewidth = 1)
p3 = plot(lines == 1 ? mult*6 : na, title = "Third Positive Quadrant", color = gray, linewidth = 2)
p4 = plot(lines == 1 ? mult*8 : na, title = "Fourth Positive Quadrant", color = gray, linewidth = 1)
plot(lines == 1 ? -mult*2 : na, title = "First Negative Quadrant", color = gray, linewidth = 1)
plot(lines == 1 ? -mult*4 : na, title = "Second Negative Quadrant", color = gray, linewidth = 1)
p2 = plot(lines == 1 ? -mult*6 : na, title = "Third Negative Quadrant", color = gray, linewidth = 2)
p1 = plot(lines == 1 ? -mult*8 : na, title = "Fourth Negative Quadrant", color = gray, linewidth = 1)

fill (p1,p2, color = orange)
fill (p3,p4, color = lime)

// Bar Color Oversold and Overbought
bcolor = bc == 1 ? colordef : na
barcolor(bcolor)