TheYangGuizi

Yacine MA Bands Mod

Mashed together the ema-bands from IvanLabrie with some moving average script stuff from ChrisMoody and LazyBear and this is the result. Credit goes to them, 'cause I don't know to how to code tbh. Just copy/pasted stuff untill I got the result I wanted.

Bands work as support/resistance among other things. You can use them to trade breakouts or reversals or whatever.
Combining them with a momentum indicator would probably be useful for timing divergence or OB/OS and stuff like that.

Included moving average types;
Not sure if all of them works as they should... y'know since I cant code/script. Looks good to me though.¨

Default should work pretty good for the DAX , But you'll probably want to fiddle a bit with the settings.

Here's a pic of how they can be used. Ofc everything looks simple in hindsight, but you get the point.
Skrip open-source

Dalam semangat TradingView, penulis dari skrip ini telah mempublikasikannya ke sumber-terbuka, maka trader dapat mengerti dan memverifikasinya. Semangat untuk penulis! Anda dapat menggunakannya secara gratis, namun penggunaan kembali kode ini dalam publikasi diatur oleh Tata Tertib. Anda dapat memfavoritkannya untuk digunakan pada chart

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Inggin menggunakan skrip ini pada chart?
study(title="Yacine Ema Bands Mod", shorttitle="MA Bands", overlay=true)
src = close
len = input(125, minval=1, title = "EMA Length")
atrlen = input(500, minval=1, title = "ATR Length")
mult1 = input(3.2, minval=1, title = "Deviation multiplier 1")
mult2 = input(6.4, minval=1, title = "Deviation multiplier 2")
mult3 = input(9.5, minval=1, title = "Deviation multiplier 3")

range =  tr
//-----------------------------------------------
factorT3 = input(defval=7, title="Tilson T3 Factor - *.10 - so 7 = .7 etc.", minval=0) 
atype = input(1,minval=1,maxval=9,title="1=SMA, 2=EMA, 3=WMA, 4=HullMA, 5=VWMA, 6=RMA, 7=TEMA, 8=ZeroLagEma, 9=Tilson T3")
//hull ma definition
hullma = wma(2*wma(src, len/2)-wma(src, len), round(sqrt(len)))
//TEMA definition
ema1 = ema(src, len)
ema2 = ema(ema1, len)
ema3 = ema(ema2, len)
tema = 3 * (ema1 - ema2) + ema3

//hull ma definition B
hullmab = wma(2*wma(range, atrlen/2)-wma(range, atrlen), round(sqrt(len)))
//TEMA definition B
ema1b = ema(range, atrlen)
ema2b = ema(ema1b, len)
ema3b = ema(ema2b, len)
temab = 3 * (ema1b - ema2b) + ema3b
//Tilson T3
factor = factorT3 *.10
gd(src, len, factor) => ema(src, len) * (1 + factor) - ema(ema(src, len), len) * factor 
t3(src, len, factor) => gd(gd(gd(src, len, factor), len, factor), len, factor) 
tilT3 = t3(src, len, factor) 
 
//Tilson T3 B
factorb = factorT3 *.10
gdb(src, len, factor) => ema(src, len) * (1 + factor) - ema(ema(src, len), len) * factor 
t3b(src, len, factor) => gd(gd(gd(src, len, factor), len, factor), len, factor) 
tilT3b = t3(range, atrlen, factor) 

//ZeroLag by LazyBear
ema1z=ema(src, len)
ema2z=ema(ema1z, len)
d=ema1z-ema2z
zlema=ema1z+d
//ZeroLag by LazyBearB
ema1zB=ema(range, atrlen)
ema2zB=ema(ema1zB, len)
dB=ema1zB-ema2zB
zlemab=ema1zB+dB

avg = atype == 1 ? sma(src,len) : atype == 2 ? ema(src,len) : atype == 3 ? wma(src,len) : atype == 4 ? hullma : atype == 5 ? vwma(src, len) : atype == 6 ? rma(src,len) : atype == 7 ? tema :atype == 8 ? zlema: tilT3

avg2 = atype == 1 ? sma(range, atrlen) : atype == 2 ? ema(range, atrlen) : atype == 3 ? wma(range, atrlen) : atype == 4 ? hullmab : atype == 5 ? vwma(range, atrlen) : atype == 6 ? rma(range, atrlen) : atype == 7 ? temab : atype == 8 ? zlemab: tilT3b

//----------------------------------------------- blah bleh

ma = avg

rangema = avg2

up1 = ma + rangema * mult1
up2 = ma + rangema * mult2
up3 = ma + rangema * mult3

dn1 = ma - rangema * mult1
dn2 = ma - rangema * mult2
dn3 = ma - rangema * mult3

middle = plot(ma, color=black)

color1 = gray
color2 = black
color3 = red

//plot(up1, color = color1)
//plot(up2, color = color1)
//plot(up3, color = color1)
u4 = plot(up1, color = color1)
//plot(up5, color = color2)
//plot(up6, color = color2)
//plot(up7, color = color2)
u8 = plot(up2, color = color2)
//plot(up9, color = color3)
//plot(up10, color = color3)
//plot(up11, color = color3)
u12 = plot(up3, color = color3)

//plot(dn1, color = color1)
//plot(dn2, color = color1)
//plot(dn3, color = color1)
d4 = plot(dn1, color = color1)
//plot(dn5, color = color2)
//plot(dn6, color = color2)
//plot(dn7, color = color2)
d8 = plot(dn2, color = color2)
//plot(dn9, color = color3)
//plot(dn10, color = color3)
//plot(dn11, color = color3)
d12 = plot(dn3, color = color3)

fill(middle, u4, color=gray, transp=90, title="Middle Lower Fill")
fill(middle, d4, color=gray, transp=90, title="Middle Lower Fill")
fill(d4, d8, color=green, transp=90, title="Over Sold Fill")
fill(d8, d12, color=green, transp=90, title="Over Sold Fill Down")
fill(u4, u8, color=red, transp=90, title="Over Bought Fill")
fill(u8, u12, color=red, transp=90, title="Over Bought Fill Up")