MA Marvel - MultiMA by AGPym — Petunjuk oleh AGPym

movingaverage ema tema hullma colored wma

Multi-Moving Average in a single color changing indicator. Lines change color when they cross.

Skrip sumber terbuka

Dalam semangat TradingView yang sebenar, penulis skrip ini telah menerbitkannya dengan menggunakan sumber terbuka supaya pedagang-pedagang dapat memahami dan mengesahkannya. Sorakan kepada penulis! Anda dapat menggunakannya secara percuma tetapi penggunaan semula kod ini dalam penerbitan adalah dikawalselia oleh Peraturan Dalaman. Anda boleh menyukainya untuk menggunakannya pada carta.

Penafian

Maklumat dan penerbitan adalah tidak dimaksudkan untuk menjadi, dan tidak membentuk, nasihat untuk kewangan, pelaburan, perdagangan dan jenis-jenis lain atau cadangan yang dibekalkan atau disahkan oleh TradingView. Baca dengan lebih lanjut di Terma Penggunaan.

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// Created by AGPym
// Multi-Moving Average in a single color changing indicator
// Thanks to ChrisMoody for creating awesome scripts!
// Tips are appreciated!

study(title="MA Marvel - MultiMA by AGPym", shorttitle="MAMarvel", overlay=true)

//inputs
src = close
atype = input(1,minval=1,maxval=7,title="1=SMA, 2=EMA, 3=WMA, 4=HullMA, 5=VWMA, 6=RMA, 7=TEMA")

ma1 = input(25, title="1st Moving Average Period")
ma2 = input(50, title="2nd Moving Average Period")
ma3 = input(100, title="3rd Moving Average Period")
ma4 = input(200, title="4th Moving Average Period")
ma5 = input(500, title="5th Moving Average Period")
ma6 = input(1000, title="6th Moving Average Period. Changes color when above everything.")

//hull ma1 definition
hullma1 = wma(2*wma(src, ma1/2)-wma(src, ma1), round(sqrt(ma1)))
//TEMA definition
ema1ma1 = ema(src, ma1)
ema2ma1 = ema(ema1ma1, ma1)
ema3ma1 = ema(ema2ma1, ma1)
temama1 = 3 * (ema1ma1 - ema2ma1) + ema3ma1

avgma1 = atype == 1 ? sma(src,ma1) : atype == 2 ? ema(src,ma1) : atype == 3 ? wma(src,ma1) : atype == 4 ? hullma1 : atype == 5 ? vwma(src, ma1) : atype == 6 ? rma(src,ma1) : temama1

//hull ma2 definition
hullma2 = wma(2*wma(src, ma2/2)-wma(src, ma2), round(sqrt(ma2)))
//TEMA definition
ema1ma2 = ema(src, ma2)
ema2ma2 = ema(ema1ma2, ma2)
ema3ma2 = ema(ema2ma2, ma2)
temama2 = 3 * (ema1ma2 - ema2ma2) + ema3ma2

avgma2 = atype == 1 ? sma(src,ma2) : atype == 2 ? ema(src,ma2) : atype == 3 ? wma(src,ma2) : atype == 4 ? hullma2 : atype == 5 ? vwma(src, ma2) : atype == 6 ? rma(src,ma2) : temama2

//hull ma3 definition
hullma3 = wma(2*wma(src, ma3/2)-wma(src, ma3), round(sqrt(ma3)))
//TEMA definition
ema1ma3 = ema(src, ma3)
ema2ma3 = ema(ema1ma3, ma3)
ema3ma3 = ema(ema2ma3, ma3)
temama3 = 3 * (ema1ma3 - ema2ma3) + ema3ma3

avgma3 = atype == 1 ? sma(src,ma3) : atype == 2 ? ema(src,ma3) : atype == 3 ? wma(src,ma3) : atype == 4 ? hullma3 : atype == 5 ? vwma(src, ma3) : atype == 6 ? rma(src,ma3) : temama3

//hull ma4 definition
hullma4 = wma(2*wma(src, ma4/2)-wma(src, ma4), round(sqrt(ma4)))
//TEMA definition
ema1ma4 = ema(src, ma4)
ema2ma4 = ema(ema1ma4, ma4)
ema3ma4 = ema(ema2ma4, ma4)
temama4 = 3 * (ema1ma4 - ema2ma4) + ema3ma4

avgma4 = atype == 1 ? sma(src,ma4) : atype == 2 ? ema(src,ma4) : atype == 3 ? wma(src,ma4) : atype == 4 ? hullma4 : atype == 5 ? vwma(src, ma4) : atype == 6 ? rma(src,ma4) : temama4

//hull ma5 definition
hullma5 = wma(2*wma(src, ma5/2)-wma(src, ma5), round(sqrt(ma5)))
//TEMA definition
ema1ma5 = ema(src, ma5)
ema2ma5 = ema(ema1ma5, ma5)
ema3ma5 = ema(ema2ma5, ma5)
temama5 = 3 * (ema1ma5 - ema2ma5) + ema3ma5

avgma5 = atype == 1 ? sma(src,ma5) : atype == 2 ? ema(src,ma5) : atype == 3 ? wma(src,ma5) : atype == 4 ? hullma5 : atype == 5 ? vwma(src, ma5) : atype == 6 ? rma(src,ma5) : temama5

//hull ma6 definition
hullma6 = wma(2*wma(src, ma6/2)-wma(src, ma6), round(sqrt(ma6)))
//TEMA definition
ema1ma6 = ema(src, ma6)
ema2ma6 = ema(ema1ma6, ma6)
ema3ma6 = ema(ema2ma6, ma6)
temama6 = 3 * (ema1ma6 - ema2ma6) + ema3ma6

avgma6 = atype == 1 ? sma(src,ma6) : atype == 2 ? ema(src,ma6) : atype == 3 ? wma(src,ma6) : atype == 4 ? hullma6 : atype == 5 ? vwma(src, ma6) : atype == 6 ? rma(src,ma6) : temama6

plot(avgma1, title="MA1", style=line, color=(avgma1[0]>avgma2[1]? lime:red), linewidth=1, transp=60)
plot(avgma2, title="MA2", style=line, color=(avgma2[0]>avgma3[1]? lime:red), linewidth=2, transp=50)
plot(avgma3, title="MA3", style=line, color=(avgma3[0]>avgma4[1]? lime:red), linewidth=3, transp=40)
plot(avgma4, title="MA4", style=line, color=(avgma4[0]>avgma5[1]? lime:red), linewidth=3, transp=30)
plot(avgma5, title="MA5", style=line, color=(avgma5[0]>avgma6[1]? lime:red), linewidth=4, transp=20)
plot(avgma6, title="MA6", style=line, color=(avgma6[0]>avgma1[1] and avgma6[0]>avgma2[1] and avgma6[0]>avgma3[1] and avgma6[0]>avgma4[1] and avgma6[0]>avgma5[1]? lime:red), linewidth=4, transp=10)