Популярные стратегии сообщества TradingView
/*backtest start: 2020-01-28 00:00:00 end: 2022-04-27 00:00:00 period: 1d basePeriod: 1h exchanges: [{"eid":"Bitfinex","currency":"BTC_USD"}] */ //@version=4 src = input(close) strategy("Get your trend", overlay = true) //Inputs ----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- Length1 = input(5, title=" 1-SMA Lenght", minval=1) Length2 = input(15, title=" 2-SMA Lenght", minval=1) Length3 = input(25, title=" 3-SMA Lenght", minval=1) prd = input(15, title=" PP period", group="Average True Range") Factor = input(1, title=" ATR Factor", group="Average True Range") Pd = input(1, title=" ATR Period", group="Average True Range") ADX_options = input("CLASSIC", title=" Adx Type", options = ["CLASSIC", "MASANAKAMURA"], group = "ADX") ADX_len = input(20, title=" Adx lenght", type = input.integer, minval = 1, group = "ADX") th = input(15, title=" Adx Treshold", type = input.float, minval = 0, step = 0.5, group = "ADX") len = input(30, title=" Cloud Length", group="Cloud") volume_f = input(1.8, title=" Volume mult.", minval = 0, step = 0.1, group="Volume") sma_length = input(30, title=" Volume lenght", minval = 1, group="Volume") //Indicators ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- calcADX(_len) => up = change(high) down = -change(low) plusDM = na(up) ? na : (up > down and up > 0 ? up : 0) minusDM = na(down) ? na : (down > up and down > 0 ? down : 0) truerange = rma(tr, _len) _plus = fixnan(100 * rma(plusDM, _len) / truerange) _minus = fixnan(100 * rma(minusDM, _len) / truerange) sum = _plus + _minus _adx = 100 * rma(abs(_plus - _minus) / (sum == 0 ? 1 : sum), _len) [_plus,_minus,_adx] calcADX_Masanakamura(_len) => SmoothedTrueRange = 0.0 SmoothedDirectionalMovementPlus = 0.0 SmoothedDirectionalMovementMinus = 0.0 TrueRange = max(max(high - low, abs(high - nz(close[1]))), abs(low - nz(close[1]))) DirectionalMovementPlus = high - nz(high[1]) > nz(low[1]) - low ? max(high - nz(high[1]), 0) : 0 DirectionalMovementMinus = nz(low[1]) - low > high - nz(high[1]) ? max(nz(low[1]) - low, 0) : 0 SmoothedTrueRange := nz(SmoothedTrueRange[1]) - (nz(SmoothedTrueRange[1]) /_len) + TrueRange SmoothedDirectionalMovementPlus := nz(SmoothedDirectionalMovementPlus[1]) - (nz(SmoothedDirectionalMovementPlus[1]) / _len) + DirectionalMovementPlus SmoothedDirectionalMovementMinus := nz(SmoothedDirectionalMovementMinus[1]) - (nz(SmoothedDirectionalMovementMinus[1]) / _len) + DirectionalMovementMinus DIP = SmoothedDirectionalMovementPlus / SmoothedTrueRange * 100 DIM = SmoothedDirectionalMovementMinus / SmoothedTrueRange * 100 DX = abs(DIP-DIM) / (DIP+DIM)*100 adx = sma(DX, _len) [DIP,DIM,adx] [DIPlusC,DIMinusC,ADXC] = calcADX(ADX_len) [DIPlusM,DIMinusM,ADXM] = calcADX_Masanakamura(ADX_len) DIPlus = ADX_options == "CLASSIC" ? DIPlusC : DIPlusM DIMinus = ADX_options == "CLASSIC" ? DIMinusC : DIMinusM ADX = ADX_options == "CLASSIC" ? ADXC : ADXM L_adx = DIPlus > DIMinus and ADX > th S_adx = DIPlus < DIMinus and ADX > th float ph = pivothigh(prd, prd) float pl = pivotlow(prd, prd) var float center = na float lastpp = ph ? ph : pl ? pl : na if lastpp if na(center) center := lastpp else center := (center * 2 + lastpp) / 3 Up = center - (Factor * atr(Pd)) Dn = center + (Factor * atr(Pd)) float TUp = na float TDown = na Trend = 0 TUp := close[1] > TUp[1] ? max(Up, TUp[1]) : Up TDown := close[1] < TDown[1] ? min(Dn, TDown[1]) : Dn Trend := close > TDown[1] ? 1: close < TUp[1]? -1: nz(Trend[1], 1) Trailingsl = Trend == 1 ? TUp : TDown bsignal = Trend == 1 and Trend[1] == -1 ssignal = Trend == -1 and Trend[1] == 1 L_ATR = Trend == 1 S_ATR = Trend == -1 SMA1 = sma(src, Length1) SMA2 = sma(src, Length2) SMA3 = sma(src, Length3) Volume_condt = volume > sma(volume,sma_length)*volume_f Long_MA = (SMA1 < close and SMA2 < close and SMA3 < close ) Short_MA = (SMA1 > close and SMA2 > close and SMA3 > close ) PI = 2 * asin(1) hilbertTransform(src) => 0.0962 * src + 0.5769 * nz(src[2]) - 0.5769 * nz(src[4]) - 0.0962 * nz(src[6]) computeComponent(src, mesaPeriodMult) => hilbertTransform(src) * mesaPeriodMult computeAlpha(src, fastLimit, slowLimit) => mesaPeriod = 0.0 mesaPeriodMult = 0.075 * nz(mesaPeriod[1]) + 0.54 smooth = 0.0 smooth := (4 * src + 3 * nz(src[1]) + 2 * nz(src[2]) + nz(src[3])) / 10 detrender = 0.0 detrender := computeComponent(smooth, mesaPeriodMult) I1 = nz(detrender[3]) Q1 = computeComponent(detrender, mesaPeriodMult) jI = computeComponent(I1, mesaPeriodMult) jQ = computeComponent(Q1, mesaPeriodMult) I2 = 0.0 Q2 = 0.0 I2 := I1 - jQ Q2 := Q1 + jI I2 := 0.2 * I2 + 0.8 * nz(I2[1]) Q2 := 0.2 * Q2 + 0.8 * nz(Q2[1]) Re = I2 * nz(I2[1]) + Q2 * nz(Q2[1]) Im = I2 * nz(Q2[1]) - Q2 * nz(I2[1]) Re := 0.2 * Re + 0.8 * nz(Re[1]) Im := 0.2 * Im + 0.8 * nz(Im[1]) if Re != 0 and Im != 0 mesaPeriod := 2 * PI / atan(Im / Re) if mesaPeriod > 1.5 * nz(mesaPeriod[1]) mesaPeriod := 1.5 * nz(mesaPeriod[1]) if mesaPeriod < 0.67 * nz(mesaPeriod[1]) mesaPeriod := 0.67 * nz(mesaPeriod[1]) if mesaPeriod < 6 mesaPeriod := 6 if mesaPeriod > 50 mesaPeriod := 50 mesaPeriod := 0.2 * mesaPeriod + 0.8 * nz(mesaPeriod[1]) phase = 0.0 if I1 != 0 phase := (180 / PI) * atan(Q1 / I1) deltaPhase = nz(phase[1]) - phase if deltaPhase < 1 deltaPhase := 1 alpha = fastLimit / deltaPhase if alpha < slowLimit alpha := slowLimit [alpha,alpha/2.0] er = abs(change(src,len)) / sum(abs(change(src)),len) [a,b] = computeAlpha(src, er, er*0.1) mama = 0.0 mama := a * src + (1 - a) * nz(mama[1]) fama = 0.0 fama := b * mama + (1 - b) * nz(fama[1]) alpha = pow((er * (b - a)) + a, 2) kama = 0.0 kama := alpha * src + (1 - alpha) * nz(kama[1]) L_cloud = kama > kama[1] S_cloud = kama < kama[1] // STRATEGY LOGIC ----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- var bool longCond = na, var bool shortCond = na, longCond := nz(longCond[1]), shortCond := nz(shortCond[1]) var int CondIni_long = 0, var int CondIni_short = 0, CondIni_long := nz(CondIni_long[1]), CondIni_short := nz(CondIni_short[1]) var bool Final_longCondition = na, var bool Final_shortCondition = na, Final_longCondition := nz(Final_longCondition[1]), Final_shortCondition := nz(Final_shortCondition[1]) var bool BT_Final_longCondition = na, var bool BT_Final_shortCondition = na, BT_Final_longCondition := nz(BT_Final_longCondition[1]), BT_Final_shortCondition := nz(BT_Final_shortCondition[1]) var float last_open_longCondition = na, var float last_open_shortCondition = na var int last_longCondition = na, var int last_shortCondition = na var int nLongs = na, var int nShorts = na, nLongs := nz(nLongs[1]), nShorts := nz(nShorts[1]) Bulls_on_the_control = Long_MA and Volume_condt and L_adx and not S_cloud close_condt = S_cloud and S_ATR longCond := Bulls_on_the_control shortCond := close_condt CondIni_long := longCond[1] ? 1 : shortCond[1] ? -1 : nz(CondIni_long[1]) CondIni_short := longCond[1] ? 1 : shortCond[1] ? -1 : nz(CondIni_short[1]) longCondition = (longCond[1] and nz(CondIni_long[1]) == -1) shortCondition = (shortCond[1] and nz(CondIni_short[1]) == 1) var int last_long_sl = na, var int last_short_sl = na last_open_longCondition := longCondition ? close[1] : nz(last_open_longCondition[1]) last_open_shortCondition := shortCondition ? close[1] : nz(last_open_shortCondition[1]) last_longCondition := longCondition ? time : nz(last_longCondition[1]) last_shortCondition := shortCondition ? time : nz(last_shortCondition[1]) in_longCondition = last_longCondition > last_shortCondition in_shortCondition = last_shortCondition > last_longCondition if longCondition nLongs := nLongs + 1 nShorts := na if shortCondition nLongs := na nShorts := nShorts + 1 var int sectionLongs = 0 sectionLongs := nz(sectionLongs[1]) var int sectionShorts = 0 sectionShorts := nz(sectionShorts[1]) if longCondition sectionLongs := sectionLongs + 1 sectionShorts := 0 if shortCondition sectionLongs := 0 sectionShorts := sectionShorts + 1 var float PositionPrice = 0.0 PositionPrice := nz(PositionPrice[1]) var float sum_long = 0.0 var float sum_short = 0.0 if longCondition sum_long := nz(last_open_longCondition) + nz(sum_long[1]) sum_short := 0.0 if shortCondition sum_short := nz(last_open_shortCondition) + nz(sum_short[1]) sum_long := 0.0 PositionPrice := longCondition ? sum_long/(sectionLongs) : shortCondition ? sum_short/(sectionShorts) : na plot(SMA1, color=color.gray,style= plot.style_stepline, title="5", linewidth=1) plot(SMA2, color=color.gray,style= plot.style_stepline, title="15", linewidth=2) plot(SMA3, color=color.black,style= plot.style_stepline, title="55", linewidth=3) plot(PositionPrice, title = "Average Price", color = color.white, linewidth = 7, style = plot.style_circles, transp = 0, editable = false) if Long_MA and Volume_condt and L_adx and not S_cloud strategy.entry ("L", strategy.long) strategy.close_all( when = close_condt )