All Candlestick Patterns Identifier — Indikator von alona.gz

candlestick harmonicpatterns japanese doji harami
33 candlestick patterns.
republish with a clearer chart.
@Mamona
Open-source Skript
Ganz im Spirit von TradingView hat der Autor dieses Skripts es als Open-Source veröffentlicht, damit Trader es besser verstehen und überprüfen können. Herzlichen Glückwunsch an den Autor! Sie können es kostenlos verwenden, aber die Wiederverwendung dieses Codes in einer Veröffentlichung unterliegt den Hausregeln. Sie können es als Favoriten auswählen, um es in einem Chart zu verwenden.
Haftungsausschluss
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// Created by Robert N. 030715
// Updated 031115
// Candle labels
study(title = "Mamona Candles", overlay = true)

data1=(close[1]>open[1] and abs(close[1]-open[1])/(high[1]-low[1])>=0.7 and close<open and abs(close-open)/(high-low)>=0.7 and open>=close[1] and close>open[1] and close<((open[1]+close[1])/2))
plotshape(data1,title="Dark Cloud Cover",text='DarkCloudCover',color=red, style=shape.arrowdown,location=location.abovebar)

data2=(abs(close-open)/(high-low)<0.1 and (high-max(close,open))>(3*abs(close-open)) and (min(close,open)-low)>(3*abs(close-open)))
plotshape(data2,title="Doji",text='Doji',color=white, style=shape.circle,location=location.belowbar)

data3=(close[1]>open[1] and abs(close[1]-open[1])/(high[1]-low[1])>=0.7 and abs(close-open)/(high-low)<0.1 and close[1]<close and close[1]<open and (high-max(close,open))>(3*abs(close-open)) and (min(close,open)-low)>(3*abs(close-open)))
plotshape(data3,title="Doji Star",text='DojiStar',color=red, style=shape.arrowdown,location=location.abovebar)

data4=(abs(close-open)/(high-low)<0.1 and (min(close,open)-low)>(3*abs(close-open)) and (high-max(close,open))<abs(close-open))
plotshape(data4,title="Dragonfly Doji",text='DragonflyDoji',color=green, style=shape.arrowup,location=location.belowbar)

data5=(close[2]>open[2] and abs(close[2]-open[2])/(high[2]-low[2])>=0.7 and 0.3>abs(close[1]-open[1])/(high[1]-low[1])>=0.1 and close<open and abs(close-open)/(high-low)>=0.7 and close[2]<close[1] and close[2]<open[1] and close[1]>open and open[1]>open and close<close[2])
plotshape(data5,title="Evening Star",text='EveningStar',color=red, style=shape.arrowdown,location=location.abovebar)

data6=(close[2]>open[2] and abs(close[2]-open[2])/(high[2]-low[2])>=0.7 and abs(close[1]-open[1])/(high[1]-low[1])<0.1 and close<open and abs(close-open)/(high-low)>=0.7 and close[2]<close[1] and close[2]<open[1] and close[1]>open and open[1]>open and close<close[2] and (high[1]-max(close[1],open[1]))>(3*abs(close[1]-open[1])) and (min(close[1],open[1])-low[1])>(3*abs(close[1]-open[1])))
plotshape(data6,title="Evening Star Doji",text='EveningStarDoji',color=red, style=shape.arrowdown,location=location.abovebar)

data7=(abs(close-open)/(high-low)<0.1 and (high-max(close,open))>(3*abs(close-open)) and (min(close,open)-low)<=abs(close-open))
plotshape(data7,title="Gravestone Doji",text='GravestoneDoji',color=red, style=shape.arrowdown,location=location.abovebar)

data8=(close<open and 0.3>abs(close-open)/(high-low)>=0.1 and (min(close,open)-low)>=(2*abs(close-open)) and (high-max(close,open))>(0.25*abs(close-open)))
plotshape(data8,title="Hanging Man Red",text='HangingMan',color=red, style=shape.arrowdown,location=location.abovebar)

data9=(close>open and 0.3>abs(close-open)/(high-low)>=0.1 and (min(close,open)-low)>=(2*abs(close-open)) and (high-max(close,open))>(0.25*abs(close-open)))
plotshape(data9,title="Hanging Man Green",text='HangingMan',color=red, style=shape.arrowdown,location=location.abovebar)

data10=(close[2]<open[2] and abs(close[2]-open[2])/(high[2]-low[2])>=0.7 and 0.3>abs(close[1]-open[1])/(high[1]-low[1])>=0.1 and close>open and abs(close-open)/(high-low)>=0.7 and close[2]>close[1] and close[2]>open[1] and close[1]<open and open[1]<open and close>close[2])
plotshape(data10,title="Morning Star",text='MorningStar',color=green, style=shape.arrowup,location=location.belowbar)

data11=(close[2]<open[2] and abs(close[2]-open[2])/(high[2]-low[2])>=0.7 and abs(close[1]-open[1])/(high[1]-low[1])<0.1 and close>open and abs(close-open)/(high-low)>=0.7 and close[2]>close[1] and close[2]>open[1] and close[1]<open and open[1]<open and close>close[2] and (high[1]-max(close[1],open[1]))>(3*abs(close[1]-open[1])) and (min(close[1],open[1])-low[1])>(3*abs(close[1]-open[1])))
plotshape(data11,title="Morning Star Doji",text='MorningStarDoji',color=green, style=shape.arrowup,location=location.belowbar)

data12=(close[1]<open[1] and abs(close[1]-open[1])/(high[1]-low[1])>=0.7 and close>open and abs(close-open)/(high-low)>=0.7 and open<=close[1] and close<open[1] and close<((open[1]+close[1])/2))
plotshape(data12,title="Piercieng Pattern",text='PiercingPattern',color=green, style=shape.arrowup,location=location.belowbar)

data13=(close[1]<open[1] and abs(close[1]-open[1])/(high[1]-low[1])>=0.7 and 0.3>abs(close-open)/(high-low)>=0.1 and close[1]>close and close[1]>open)
plotshape(data13,title="Raindrop",text='Raindrop',color=green, style=shape.arrowup,location=location.belowbar)

data14=(close[1]<open[1] and abs(close[1]-open[1])/(high[1]-low[1])>=0.7 and abs(close-open)/(high-low)<0.1 and close[1]>close and close[1]>open and (high-max(close,open))>(3*abs(close-open)) and (min(close,open)-low)>(3*abs(close-open)))
plotshape(data14,title="Raindrop Doji",text='RaindropDoji',color=green, style=shape.arrowup,location=location.belowbar)

data15=(close<open and 0.3>abs(close-open)/(high-low)>=0.1 and (high-max(close,open))>=(2*abs(close-open)) and (min(close,open)-low)<=(0.25*abs(close-open)))
plotshape(data15,title="Inverted Hammer Red",text='InvertedHammer',color=green, style=shape.arrowup,location=location.belowbar)

data16=(close>open and 0.3>abs(close-open)/(high-low)>=0.1 and (high-max(close,open))>=(2*abs(close-open)) and (min(close,open)-low)<=(0.25*abs(close-open)))
plotshape(data16,title="Inverted Hammer Green",text='InvertedHammer',color=green, style=shape.arrowup,location=location.belowbar)

data17=(close[1]>open[1] and abs(close[1]-open[1])/(high[1]-low[1])>=0.7 and 0.3>abs(close-open)/(high-low)>=0.1 and close[1]<close and close[1]<open)
plotshape(data17,title="Star",text='Star',color=red, style=shape.arrowdown,location=location.abovebar)

data18=(close[1]>open[1] and abs(close[1]-open[1])/(high[1]-low[1])>=0.7 and close<open and abs(close-open)/(high-low)>=0.7 and open>=close[1] and close<close[1] and close>=((open[1]+close[1])/2))
plotshape(data18,title="Bearish Thrusting",text='BearishThrusting',color=red, style=shape.arrowdown,location=location.abovebar)

data19=(close[1]<open[1] and abs(close[1]-open[1])/(high[1]-low[1])>=0.7 and close>open and abs(close-open)/(high-low)>=0.7 and open<=close[1] and close>close[1] and close<=((open[1]+close[1])/2))
plotshape(data19,title="Bullish Thrusting Pattern",text='BullishThrusting',color=green, style=shape.arrowup,location=location.belowbar)

data20=(close[1]<open[1] and abs(close[1]-open[1])/(high[1]-low[1])>=0.7 and close<open and 0.3>abs(close-open)/(high-low)>=0.1 and abs(low/low[1]-1)<0.05 and abs(close-open)<2*(min(close,open)-low))
plotshape(data20,title="Tweezers Bottom",text='TweezersBottom',color=green, style=shape.arrowup,location=location.belowbar)

data21=(close[1]>open[1] and abs(close[1]-open[1])/(high[1]-low[1])>=0.7 and close>open and 0.3>abs(close-open)/(high-low)>=0.1 and abs(high/high[1]-1)<0.05 and abs(close[1]-open[1])<2*(high[1]-max(close[1],open[1]))) 
plotshape(data21,title="Tweezers Top",text='TweezersTop',color=red, style=shape.arrowdown,location=location.abovebar)

data22=(close[3]<open[3] and abs(close[3]-open[3])/(high[3]-low[3])>=0.7 and close[2]>open[2] and 0.3>abs(close[2]-open[2])/(high[2]-low[2])>=0.1 and close[1]>open[1] and 0.3>abs(close[1]-open[1])/(high[1]-low[1])>=0.1 and close>open and abs(close-open)/(high-low)>=0.7 and close[2]>close[1] and close[1]>close[3] and open[2]<close[3] and open[1]<close[3] and close>((open[3]+close[3])/2))
plotshape(data22,title="Tower Bottom",text='TowerBottom',color=green, style=shape.arrowup,location=location.belowbar)

data23=(close[3]>open[3] and abs(close[3]-open[3])/(high[3]-low[3])>=0.7 and close[2]<open[2] and 0.3>abs(close[2]-open[2])/(high[2]-low[2])>=0.1 and close[1]<open[1] and 0.3>abs(close[1]-open[1])/(high[1]-low[1])>=0.1 and close<open and abs(close-open)/(high-low)>=0.7 and close[2]<close[1] and close[1]<close[3] and open[2]>close[3] and open[1]>close[3] and close<((open[3]+close[3])/2))
plotshape(data23,title="Tower Top",text='TowerTop',color=red, style=shape.arrowdown,location=location.abovebar)

data24=(close[1]<open[1] and 0.7>abs(close[1]-open[1])/(high[1]-low[1])>=0.3 and close>open and 0.7>abs(close-open)/(high-low)>=0.3 and close<=close[1] and close>low[1])
plotshape(data24,title="Bullish In Neck",text='BullishInNeck',color=green, style=shape.arrowup,location=location.belowbar)

data25=(close[1]>open[1] and 0.7>abs(close[1]-open[1])/(high[1]-low[1])>=0.3 and close<open and 0.7>abs(close-open)/(high-low)>=0.3 and close>=close[1] and close<high[1])
plotshape(data25,title="Bearish In Neck",text='BearishInNeck',color=red, style=shape.arrowdown,location=location.abovebar)

data26=(close[1]>open[1] and 0.7>abs(close[1]-open[1])/(high[1]-low[1])>=0.3 and close<open and 0.7>abs(close-open)/(high-low)>=0.3 and open<=open[1] and open>low[1])
plotshape(data26,title="Bullish Separating Lines",text='BullishSeparatingLines',color=green, style=shape.arrowup,location=location.belowbar)

data27=(close[1]<open[1] and 0.7>abs(close[1]-open[1])/(high[1]-low[1])>=0.3 and close>open and 0.7>abs(close-open)/(high-low)>=0.3 and open>=open[1] and open<high[1])
plotshape(data27,title="Bearish Separating Lines",text='BearishSeparatingLines',color=red, style=shape.arrowdown,location=location.abovebar)

data28=(close[1]<open[1] and abs(close[1]-open[1])/(high[1]-low[1])>=0.7 and 0.3>abs(close-open)/(high-low)>=0.1 and high<open[1] and low>close[1])
plotshape(data28,title="Bullish Harami",text='BullishHarami',color=green, style=shape.arrowup,location=location.belowbar)

data29=(close[1]>open[1] and abs(close[1]-open[1])/(high[1]-low[1])>=0.7 and 0.3>abs(close-open)/(high-low)>=0.1 and high<close[1] and low>open[1])
plotshape(data29,title="Bearish Harami",text='BearishHarami',color=red, style=shape.arrowdown,location=location.abovebar)

data30=(close[1]<open[1] and 0.3>abs(close[1]-open[1])/(high[1]-low[1])>=0.1 and close>open and abs(close-open)/(high-low)>=0.7 and high[1]<close and low[1]>open)
plotshape(data30,title="Bullish Engulfing",text='BullishEngulfing',color=green, style=shape.arrowup,location=location.belowbar)

data31=(close[1]>open[1] and 0.3>abs(close[1]-open[1])/(high[1]-low[1])>=0.1 and close<open and abs(close-open)/(high-low)>=0.7 and high[1]<open and low[1]>close)
plotshape(data31,title="Bearish Engulfing",text='BearishEngulfing',color=red, style=shape.arrowdown,location=location.abovebar)

data32=(abs(close[1]-open[1])/(high[1]-low[1])<0.1 and close>open and abs(close-open)/(high-low)>=0.7 and high[1]<close and low[1]>open and (high[1]-max(close[1],open[1]))>(3*abs(close[1]-open[1])) and (min(close[1],open[1])-low[1])<=abs(close[1]-open[1]))
plotshape(data32,title="Doji Bullish Engulfing",text='DojiBullishEngulfing',color=green, style=shape.arrowup,location=location.belowbar)

data33=(abs(close[1]-open[1])/(high[1]-low[1])<0.1 and close<open and abs(close-open)/(high-low)>=0.7 and high[1]<open and low[1]>close and (high[1]-max(close[1],open[1]))>(3*abs(close[1]-open[1])) and (min(close[1],open[1])-low[1])<=abs(close[1]-open[1]))
plotshape(data31,title="Doji Bearish Engulfing",text='DojiBearishEngulfing',color=red, style=shape.arrowdown,location=location.abovebar)