A follow on addition to
RS-VDUB-TRENDMASTER-IV-V0-01/
A massive thanks to @RicardoSantos for all the coding
RS-VDUB-TRENDMASTER-IV-V0-01/
A massive thanks to @RicardoSantos for all the coding
study("VDUB-TRENDMASTER_WALL[RS]", overlay=true)
// ||--> Concept vdubus, Code RicardoSantos. <-------------------------------------------------------------------------------------------------------||
// ||--------------------------------------------------------------------------------------------------------------------------------------------------||
// ||--> Input: <-----------------------------------------------------------------------------------------------------------------------------------||
// ||--------------------------------------------------------------------------------------------------------------------------------------------------||
_Type = input(defval=0, minval=0, maxval=2, title='0: Crossover, 1: MACD, 2: STOCH')
_A = input(defval=0, minval=0, maxval=6, title='Input A for Crossover:(0: SMA, 1: WMA, 2: EMA, 3: Kijun-Sen(Base), 4: Tenkan-Sen(Conversion), 5: Senkou Span A(Leading A), 6: Senkou Span B(Leading B))')
_B = input(defval=0, minval=0, maxval=6, title='Input B for Crossover:(0: SMA, 1: WMA, 2: EMA, 3: Kijun-Sen(Base), 4: Tenkan-Sen(Conversion), 5: Senkou Span A(Leading A), 6: Senkou Span B(Leading B))')
// ||--------------------------------------------------------------------------------------------------------------------------------------------------||
// ||--> SMA, EMA, WMA Inputs: <--------------------------------------------------------------------------------------------------------------------||
// ||--------------------------------------------------------------------------------------------------------------------------------------------------||
_MA_SRC = input(close)
_MA_A_Length = input(12)
_MA_B_Length = input(24)
// ||--------------------------------------------------------------------------------------------------------------------------------------------------||
// ||--> Ichimoku cloud <---------------------------------------------------------------------------------------------------------------------------||
// ||--------------------------------------------------------------------------------------------------------------------------------------------------||
IC_A_conversionPeriods = input(34)
IC_A_basePeriods = input(26)
IC_A_laggingSpan2Periods = input(52)
IC_A_displacement = input(26)
IC_B_conversionPeriods = input(34)
IC_B_basePeriods = input(26)
IC_B_laggingSpan2Periods = input(52)
IC_B_displacement = input(26)
// ||--> Functions: <-------------------------------------------------------------------------------------------------------------------------------||
donchian(len) => avg(lowest(len), highest(len))
leadLine1(_conversionPeriods, _basePeriods)=>
_conversionLine = donchian(_conversionPeriods)
_baseLine = donchian(_basePeriods)
avg(_conversionLine, _baseLine)
// ||--------------------------------------------------------------------------------------------------------------------------------------------------||
// ||--> MACD <-------------------------------------------------------------------------------------------------------------------------------------||
// ||--------------------------------------------------------------------------------------------------------------------------------------------------||
_MACD_SRC = input(close)
_MACD_K = input(21)
_MACD_D = input(34)
_MACD_I = input(4)
// ||--> Functions: <-------------------------------------------------------------------------------------------------------------------------------||
_MACD_FAST()=>
[_fast, _, _] = macd(_MACD_SRC, _MACD_K, _MACD_D, _MACD_I)
_fast
_MACD_SLOW()=>
[_, _slow, _] = macd(_MACD_SRC, _MACD_K, _MACD_D, _MACD_I)
_slow
// ||--------------------------------------------------------------------------------------------------------------------------------------------------||
// ||--> STOCH <------------------------------------------------------------------------------------------------------------------------------------||
// ||--------------------------------------------------------------------------------------------------------------------------------------------------||
_STOCH_SRC = input(close)
_STOCH_Length = input(14)
_STOCH_K = input(2)
_STOCH_D = input(4)
// ||--------------------------------------------------------------------------------------------------------------------------------------------------||
// ||--> Output: <----------------------------------------------------------------------------------------------------------------------------------||
// ||--------------------------------------------------------------------------------------------------------------------------------------------------||
CrossOverA = _Type == 0 and _A == 0 ? sma(_MA_SRC, _MA_A_Length) :
_Type == 0 and _A == 1 ? wma(_MA_SRC, _MA_A_Length) :
_Type == 0 and _A == 2 ? ema(_MA_SRC, _MA_A_Length) :
_Type == 0 and _A == 3 ? donchian(IC_A_basePeriods) : // Ichimoku Baseline
_Type == 0 and _A == 4 ? donchian(IC_A_conversionPeriods) : // Ichimoku Conversion
_Type == 0 and _A == 5 ? leadLine1(IC_A_conversionPeriods, IC_A_basePeriods) : // Ichimoku leading A
_Type == 0 and _A == 6 ? donchian(IC_A_laggingSpan2Periods) : // Ichimoku leading B
_Type == 1 ? _MACD_FAST() :
_Type == 2 ? sma(stoch(_STOCH_SRC, high, low, _STOCH_Length), _STOCH_K) :
na
CrossOverB = _Type == 0 and _B == 0 ? sma(_MA_SRC, _MA_B_Length) :
_Type == 0 and _B == 1 ? wma(_MA_SRC, _MA_B_Length) :
_Type == 0 and _B == 2 ? ema(_MA_SRC, _MA_B_Length) :
_Type == 0 and _B == 3 ? donchian(IC_B_basePeriods) : // Ichimoku Baseline
_Type == 0 and _B == 4 ? donchian(IC_B_conversionPeriods) : // Ichimoku Conversion
_Type == 0 and _B == 5 ? leadLine1(IC_B_conversionPeriods, IC_A_basePeriods) : // Ichimoku leading A
_Type == 0 and _B == 6 ? donchian(IC_B_laggingSpan2Periods) : // Ichimoku leading B
_Type == 1 ? _MACD_SLOW() :
_Type == 2 ? sma(stoch(_STOCH_SRC, high, low, _STOCH_Length), _STOCH_D) :
na
OutputSignal = CrossOverA >= CrossOverB ? 1 : 0
bgcolor(OutputSignal>0?gray:red)
//=================================================