VDUB-TRENDMASTER_WALL_[RS] — Petunjuk oleh vdubus

A follow on addition to
RS-VDUB-TRENDMASTER-IV-V0-01/
A massive thanks to @RicardoSantos for all the coding

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.

Ingin menggunakan skrip ini pada carta?

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)
//=================================================