Dies ist meine Super Trend Daily Strategie, aber mit einem wichtigen Unterschied. Sie können jetzt die Einstellungen für lange oder kurze Signale einzeln und separat anpassen. Zum Beispiel kann die Bedingung für ein langes Signal eine andere Parameter-Einstellung als die Bedingung für ein kurzes Signal erfordern. Jeder Parameter in der Signalgenerierung kann abgestimmt werden. Sie können auch entscheiden, welche Art von Stop-Loss Sie für jede Seite wollen - Sie könnten einen festen Stop-Loss für Lange und einen ATR-abgeleiteten Stop-Loss für Shorts oder was auch immer haben.
Wir haben auch die Wahl, ob wir Longs, Shorts oder beides wollen.
Anweisungen Schauen Sie sich die Hintergrundfarben an: Grüne Linie = langes Signal Rote Linie = Kurzsignal Aqua = keine Long-Trades Weiß = Keine Leergeschäfte Gelbe gestrichelte Linie = Stop-Loss für lange Orange gestrichelte Linie = Stop Loss für Short
Der weiße und der weiße Hintergrund bedeuten, dass die Bedingungen nach unseren Einstellungen, die wir auf die Veränderungsrate für ein langes bzw. kurzes Signal angewendet haben, schwankend sind. Es ist möglich, ein langes Signal auf einem weißen Hintergrund zu erhalten, aber kein kurzes Signal. Ebenso ist es möglich, ein kurzes Signal auf einem weißen Hintergrund zu erhalten, aber kein langes Signal.
Es handelt sich um eine laufende Arbeit, daher sind jegliche Verbesserungsvorschläge willkommen.
Zurückprüfung
/*backtest start: 2022-04-25 00:00:00 end: 2022-05-24 23:59:00 period: 10m basePeriod: 1m exchanges: [{"eid":"Futures_Binance","currency":"BTC_USDT"}] */ //@version=4 strategy("Super Trend Daily 2.0 BF ", overlay=true, precision=2, initial_capital=10000, default_qty_type=strategy.percent_of_equity, default_qty_value=100, commission_type=strategy.commission.percent, commission_value=0.075) /////////////// Time Frame /////////////// _0 = input(false, "════════ Test Period ═══════") testStartYear = input(2017, "Backtest Start Year") testStartMonth = input(1, "Backtest Start Month") testStartDay = input(1, "Backtest Start Day") testPeriodStart = timestamp(testStartYear,testStartMonth,testStartDay, 0, 0) testStopYear = input(2019, "Backtest Stop Year") testStopMonth = input(12, "Backtest Stop Month") testStopDay = input(31, "Backtest Stop Day") testPeriodStop = timestamp(testStopYear,testStopMonth,testStopDay, 0, 0) testPeriod() => true ///////////// Super Trend Long ///////////// _1 = input(false, "═════ Super Trend L ═════") lengthl = input(title="ATR Period", type=input.integer, defval=2) multl = input(title="ATR Multiplier", type=input.float, step=0.1, defval=1.5) atrl = multl * atr(lengthl) longStopl = hl2 - atrl longStopPrevl = nz(longStopl[1], longStopl) longStopl := close[1] > longStopPrevl ? max(longStopl, longStopPrevl) : longStopl shortStopl = hl2 + atrl shortStopPrevl = nz(shortStopl[1], shortStopl) shortStopl := close[1] < shortStopPrevl ? min(shortStopl, shortStopPrevl) : shortStopl dirl = 1 dirl := nz(dirl[1], dirl) dirl := dirl == -1 and close > shortStopPrevl ? 1 : dirl == 1 and close < longStopPrevl ? -1 : dirl ///////////// Super Trend Short ///////////// _2 = input(false, "═════ Super Trend S ═════") lengths = input(title="ATR Period", type=input.integer, defval=3) mults = input(title="ATR Multiplier", type=input.float, step=0.1, defval=1.3) atrs = mults * atr(lengths) longStops = hl2 - atrs longStopPrevs = nz(longStops[1], longStops) longStops := close[1] > longStopPrevs ? max(longStops, longStopPrevs) : longStops shortStops = hl2 + atrs shortStopPrevs = nz(shortStops[1], shortStops) shortStops := close[1] < shortStopPrevs ? min(shortStops, shortStopPrevs) : shortStops dirs = 1 dirs := nz(dirs[1], dirs) dirs := dirs == -1 and close > shortStopPrevs ? 1 : dirs == 1 and close < longStopPrevs ? -1 : dirs ///////////// Rate Of Change Long ///////////// _3 = input(false, "═════ Rate of Change L ═════") sourcel = close roclengthl = input(30, "ROC Length", minval=1) pcntChangel = input(6, "ROC % Change", minval=1) rocl = 100 * (sourcel - sourcel[roclengthl]) / sourcel[roclengthl] emarocl = ema(rocl, roclengthl / 2) isMovingl() => emarocl > (pcntChangel / 2) or emarocl < (0 - (pcntChangel / 2)) ///////////// Rate Of Change Short ///////////// _4 = input(false, "═════ Rate of Change S ═════") sources = close roclengths = input(76, "ROC Length", minval=1) pcntChanges = input(6, "ROC % Change", minval=1) rocs = 100 * (sources - sources[roclengths]) / sources[roclengths] emarocs = ema(rocs, roclengths / 2) isMovings() => emarocs > (pcntChanges / 2) or emarocs < (0 - (pcntChanges / 2)) /////////////// Strategy /////////////// long = dirl == 1 and dirl[1] == -1 and isMovingl() short = dirs == -1 and dirs[1] == 1 and isMovings() last_long = 0.0 last_short = 0.0 last_long := long ? time : nz(last_long[1]) last_short := short ? time : nz(last_short[1]) long_signal = crossover(last_long, last_short) short_signal = crossover(last_short, last_long) last_open_long_signal = 0.0 last_open_short_signal = 0.0 last_open_long_signal := long_signal ? open : nz(last_open_long_signal[1]) last_open_short_signal := short_signal ? open : nz(last_open_short_signal[1]) last_long_signal = 0.0 last_short_signal = 0.0 last_long_signal := long_signal ? time : nz(last_long_signal[1]) last_short_signal := short_signal ? time : nz(last_short_signal[1]) in_long_signal = last_long_signal > last_short_signal in_short_signal = last_short_signal > last_long_signal last_high = 0.0 last_low = 0.0 last_high := not in_long_signal ? na : in_long_signal and (na(last_high[1]) or high > nz(last_high[1])) ? high : nz(last_high[1]) last_low := not in_short_signal ? na : in_short_signal and (na(last_low[1]) or low < nz(last_low[1])) ? low : nz(last_low[1]) since_longEntry = barssince(last_open_long_signal != last_open_long_signal[1]) since_shortEntry = barssince(last_open_short_signal != last_open_short_signal[1]) /////////////// Stop Losses Long /////////////// _5 = input(false, "═══════ Stop Loss L ══════") SL_typel = input("Fixed", options=["Fixed", "ATR Derived"], title="Stop Loss Type") sl_inpl = input(5.0, title='Fixed Stop Loss %') / 100 atrLkbl = input(20, minval=1, title='ATR Stop Period') atrMultl = input(1.5, step=0.25, title='ATR Stop Multiplier') atr1l = atr(atrLkbl) longStop1l = 0.0 longStop1l := short_signal ? na : long_signal ? close - (atr1l * atrMultl) : longStop1l[1] slLongl = in_long_signal ? strategy.position_avg_price * (1 - sl_inpl) : na long_sll = in_long_signal ? slLongl : na /////////////// Stop Losses Short /////////////// _6 = input(false, "═══════ Stop Loss S ══════") SL_types = input("Fixed", options=["Fixed", "ATR Derived"], title="Stop Loss Type") sl_inps = input(6.0, title='Fixed Stop Loss %') / 100 atrLkbs = input(20, minval=1, title='ATR Stop Period') atrMults = input(1.5, step=0.25, title='ATR Stop Multiplier') atr1s = atr(atrLkbs) shortStop1s = 0.0 shortStop1s := long_signal ? na : short_signal ? close + (atr1s * atrMults) : shortStop1s[1] slShorts = strategy.position_avg_price * (1 + sl_inps) short_sls = in_short_signal ? slShorts : na _7 = input(false, "══════ Longs or Shorts ═════") useLongs = input(true, title="Use Longs") useShorts = input(true, title="Use Shorts") /////////////// Execution /////////////// if testPeriod() if useLongs strategy.entry("L", strategy.long, when=long) strategy.exit("L SL", "L", stop = SL_typel == "Fixed" ? long_sll : longStop1l, when=since_longEntry > 0) if useShorts strategy.exit("S SL", "S", stop = SL_types == "Fixed" ? short_sls : shortStop1s, when=since_shortEntry > 0) strategy.entry("S", strategy.short, when=short) if not useShorts strategy.close("L", when=short) if not useLongs strategy.close("S", when=long) /////////////// Plotting /////////////// bgcolor(long_signal ? color.lime : short_signal ? color.red : na, transp=40) bgcolor(not isMovings() ? color.white : not isMovingl() ? color.aqua : na) p0 = plot(close, color=color.black) p1 = plot(strategy.position_size <= 0 ? na : SL_typel == "Fixed" ? long_sll : longStop1l, title="Long Stop Loss", color=color.yellow, style=plot.style_linebr, linewidth=2) p2 = plot(strategy.position_size >= 0 ? na : SL_types == "Fixed" ? short_sls : shortStop1s, title="Short Stop Loss", color=color.orange, style=plot.style_linebr, linewidth=2) p3 = plot(strategy.position_size <= 0 ? na : strategy.position_avg_price, style=plot.style_linebr, title="Long Entry", color=color.green, linewidth=2) p4 = plot(strategy.position_size >= 0 ? na : strategy.position_avg_price, style=plot.style_linebr, title="Short Entry", color=color.red, linewidth=2) fill(p0, p3, color = color.lime, transp=60) fill(p0, p4, color = color.red, transp=60)