ما هو مؤشر ALGoX؟
هو مؤشر مخصص لمنصة TradingView، يهدف إلى توليد إشارات بيع وشراء دقيقة بالاعتماد على تقاطع متوسطات متحركة محسّنة مثل ALMA وLSMA وEMA وWMA، مع إمكانية تفعيل إشارات شموع Heikin Ashi وتلوين الشموع لتوضيح الاتجاه. يستخدم المؤشر عادة في التداول قصير المدى مثل السكالبينغ، لكنه مرن ويصلح أيضًا للفريمات المتوسطة والطويلة.
مكونات المؤشر الرئيسية:
- نوع المتوسط المتحرك (MA Type):
- ALMA: متوسط موزون بالانحراف القياسي، يفلتر الضجيج ويقلل التأخير.
- EMA: متوسط أسي سريع الاستجابة، مثالي للأسواق المتقلبة.
- WMA: متوسط موزون يعطي أولوية للأسعار الحديثة.
- LSMA: متوسط يعتمد على الانحدار الخطي، جيد لرصد الزخم.
- الفترة الزمنية للمتوسط (MA Period):
- تحدد مدى سرعة استجابة المؤشر. القيم الصغيرة تعطي إشارات أسرع، ولكنها أكثر عرضة للإشارات الكاذبة.
- القيم الأكبر تزيد من تأخير الإشارة ولكن تعطي موثوقية أكبر.
- الإزاحة والانحراف (Offset & Sigma) – خاص بـ ALMA:
- Offset: يتحكم بموقع المتوسط داخل البيانات. القيم الأقرب إلى 1 تجعل الإشارة أكثر تأخرًا وسلاسة.
- Sigma: يتحكم بدرجة التنعيم (Smoothness). القيم الأعلى تعني خطوط أكثر سلاسة.
- الخيارات الإضافية:
- تفعيل إشارات الشراء والبيع (Buy/Sell Signals).
- تلوين الشموع حسب الاتجاه (Coloured Bars).
- تفعيل إشارات Heikin Ashi لمزيد من النقاء البصري على الفريمات الأعلى.
- إشارات بديلة (Alternate Signals) لتحديد الانعكاسات المبكرة.
كيفية استخدام ALGoX:
- السكالبينغ (1m – 5m):
يتم استخدام إعدادات سريعة جدًا، وتُفضل مع الأسواق ذات الحركة النشطة كـ الذهب والـ SPX500.- يفضل ALMA أو EMA بفترة 10–14.
- تفعيل الإشارات البديلة وتلوين الشموع ضروري للتفاعل السريع.
- التداول اليومي (15m – 1h):
يمكن زيادة فترة المتوسط لـ 20–50.- تفعيل Heikin Ashi اختياري حسب نمطك.
- دمج المؤشر مع مستويات دعم ومقاومة يعطي إشارات أدق.
- التداول متوسط – طويل المدى (4h – Daily):
تستخدم فترات أطول مثل 100–200 مع EMA أو ALMA.- يفضل تفعيل شموع Heikin Ashi لتحسين تصفية الإشارات.
- المؤشر يكون مرجعيًا وليس تنفيذ مباشر.
جدول الإعدادات المقترحة حسب السوق والفريم:
| الأصل | الفريم الزمني | نوع MA | فترة MA | Offset (ALMA) | Sigma (ALMA) | Heikin Ashi | Alternate Signals | ملاحظات |
|---|---|---|---|---|---|---|---|---|
| الذهب (XAUUSD) | 1 دقيقة | ALMA | 10 | 0.85 | 6 | لا | نعم | مناسب للسكالبينغ السريع |
| SPX500 | 1 دقيقة | ALMA | 14 | 0.85 | 6 | لا | نعم | سكالب سريع وحاد |
| العملات الرقمية (BTC/ETH) | 1 دقيقة | EMA | 9 | — | — | لا | نعم | تقلبات عالية |
| الفوركس (EURUSD) | 5 دقائق | ALMA | 14 | 0.85 | 6 | لا | نعم | أكثر استقرارًا |
| الذهب | 15 دقيقة | ALMA | 20 | 0.85 | 6 | نعم | لا | تداول يومي متوسط |
| SPX500 | 1 ساعة | ALMA | 50 | 0.90 | 6 | نعم | لا | ترندات موثوقة |
| الفوركس | 4 ساعات | EMA | 100 | — | — | نعم | لا | تحليل الاتجاه العام |
| العملات الرقمية | يومي | EMA | 200 | — | — | نعم | لا | تحديد الترند طويل المدى |
نصائح مهمة لاستخدام مؤشر ALGoX بفعالية:
- لا تستخدم ALGoX بشكل منفصل؛ أضف مؤشرات داعمة مثل RSI أو MACD.
- راقب الأخبار الاقتصادية لأنها قد تخلق إشارات كاذبة.
- راقب الفريم الأعلى (مثل 15m عند استخدام 1m) لتأكيد الاتجاه العام.
- لا تُبالغ في الدخول في كل إشارة؛ الجودة أهم من الكمية.
الخلاصة:
يُعد مؤشر ALGoX أداة مرنة وفعالة للسكالبينغ والتداول السريع إذا تم ضبطه بإعدادات مناسبة لكل سوق وفريم. يُنصح بالاعتماد عليه كمساعد ذكي لتحديد بداية الاتجاه، بشرط وجود خطة إدارة مخاطر دقيقة وعدم الاعتماد عليه كإشارة دخول وخروج وحيدة.
النسخة المطورة لايعيد الرسم
اذا واجهتك مشاكل بالملف انسخ الكود التالي :
//@version=5
VERSION = ' V6.1.24'
strategy('ALGOX', shorttitle = 'ALGOX V6.1.24 NONREPAINT', overlay = true, explicit_plot_zorder = true, pyramiding = 0, default_qty_type = strategy.percent_of_equity, initial_capital = 20, default_qty_value = 20, calc_on_every_tick = false, process_orders_on_close = true)
G_SCRIPT01 = '■ ' + 'SAIYAN OCC'
//#region ———— <↓↓↓ G_SCRIPT01 ↓↓↓> {
// === INPUTS ===
res = input.timeframe('1', 'TIMEFRAME', group ="NON REPAINT")
useRes = input(true, 'Use Alternate Signals')
intRes = input(8, 'Multiplier for Alernate Signals')
basisType = input.string('ALMA', 'MA Type: ', options=['TEMA', 'HullMA', 'ALMA'])
basisLen = input.int(2, 'MA Period', minval=1)
offsetSigma = input.int(5, 'Offset for LSMA / Sigma for ALMA', minval=0)
offsetALMA = input.float(0.85, 'Offset for ALMA', minval=0, step=0.01)
scolor = input(false, 'Show coloured Bars to indicate Trend?')
delayOffset = input.int(0, 'Delay Open/Close MA', minval=0, step=1,
tooltip = 'Forces Non-Repainting')
tradeType = input.string('BOTH', 'What trades should be taken : ',
options = ['LONG', 'SHORT', 'BOTH', 'NONE'])
//=== /INPUTS ===
h = input(false, 'Signals for Heikin Ashi Candles')
//INDICATOR SETTINGS
swing_length = input.int(10, 'Swing High/Low Length', group = 'Settings', minval = 1, maxval = 50)
history_of_demand_to_keep = input.int(20, 'History To Keep', minval = 5, maxval = 50)
box_width = input.float(2.5, 'Supply/Demand Box Width', group = 'Settings', minval = 1, maxval = 10, step = 0.5)
//INDICATOR VISUAL SETTINGS
show_zigzag = input.bool(false, 'Show Zig Zag', group = 'Visual Settings', inline = '1')
show_price_action_labels = input.bool(false, 'Show Price Action Labels', group = 'Visual Settings', inline = '2')
supply_color = input.color(#00000000, 'Supply', group = 'Visual Settings', inline = '3')
supply_outline_color = input.color(#00000000, 'Outline', group = 'Visual Settings', inline = '3')
demand_color = input.color(#00000000, 'Demand', group = 'Visual Settings', inline = '4')
demand_outline_color = input.color(#00000000, 'Outline', group = 'Visual Settings', inline = '4')
bos_label_color = input.color(#00000000, 'BOS Label', group = 'Visual Settings', inline = '5')
poi_label_color = input.color(#00000000, 'POI Label', group = 'Visual Settings', inline = '7')
poi_border_color = input.color(#00000000, 'POI border', group = 'Visual Settings', inline = '7')
swing_type_color = input.color(#00000000, 'Price Action Label', group = 'Visual Settings', inline = '8')
zigzag_color = input.color(#00000000, 'Zig Zag', group = 'Visual Settings', inline = '9')
//END SETTINGS
// FUNCTION TO ADD NEW AND REMOVE LAST IN ARRAY
f_array_add_pop(array, new_value_to_add) =>
array.unshift(array, new_value_to_add)
array.pop(array)
// FUNCTION SWING H & L LABELS
f_sh_sl_labels(array, swing_type) =>
var string label_text = na
if swing_type == 1
if array.get(array, 0) >= array.get(array, 1)
label_text := 'HH'
else
label_text := 'LH'
label.new(
bar_index - swing_length,
array.get(array,0),
text = label_text,
style = label.style_label_down,
textcolor = swing_type_color,
color = swing_type_color,
size = size.tiny)
else if swing_type == -1
if array.get(array, 0) >= array.get(array, 1)
label_text := 'HL'
else
label_text := 'LL'
label.new(
bar_index - swing_length,
array.get(array,0),
text = label_text,
style = label.style_label_up,
textcolor = swing_type_color,
color = swing_type_color,
size = size.tiny)
// FUNCTION MAKE SURE SUPPLY ISNT OVERLAPPING
f_check_overlapping(new_poi, box_array, atrValue) =>
atr_threshold = atrValue * 2
okay_to_draw = true
for i = 0 to array.size(box_array) - 1
top = box.get_top(array.get(box_array, i))
bottom = box.get_bottom(array.get(box_array, i))
poi = (top + bottom) / 2
upper_boundary = poi + atr_threshold
lower_boundary = poi - atr_threshold
if new_poi >= lower_boundary and new_poi <= upper_boundary
okay_to_draw := false
break
else
okay_to_draw := true
okay_to_draw
// FUNCTION TO DRAW SUPPLY OR DEMAND ZONE
f_supply_demand(value_array, bn_array, box_array, label_array, box_type, atrValue) =>
atr_buffer = atrValue * (box_width / 10)
box_left = array.get(bn_array, 0)
box_right = bar_index
var float box_top = 0.00
var float box_bottom = 0.00
var float poi = 0.00
if box_type == 1
box_top := array.get(value_array, 0)
box_bottom := box_top - atr_buffer
poi := (box_top + box_bottom) / 2
else if box_type == -1
box_bottom := array.get(value_array, 0)
box_top := box_bottom + atr_buffer
poi := (box_top + box_bottom) / 2
okay_to_draw = f_check_overlapping(poi, box_array, atrValue)
// okay_to_draw = true
//delete oldest box, and then create a new box and add it to the array
if box_type == 1 and okay_to_draw
box.delete( array.get(box_array, array.size(box_array) - 1) )
f_array_add_pop(box_array, box.new( left = box_left, top = box_top, right = box_right, bottom = box_bottom, border_color = supply_outline_color,
bgcolor = supply_color, extend = extend.right, text = 'SUPPLY', text_halign = text.align_center, text_valign = text.align_center, text_color = poi_label_color, text_size = size.small, xloc = xloc.bar_index))
box.delete( array.get(label_array, array.size(label_array) - 1) )
f_array_add_pop(label_array, box.new( left = box_left, top = poi, right = box_right, bottom = poi, border_color = poi_border_color,
bgcolor = poi_border_color, extend = extend.right, text = 'POI', text_halign = text.align_left, text_valign = text.align_center, text_color = poi_label_color, text_size = size.small, xloc = xloc.bar_index))
else if box_type == -1 and okay_to_draw
box.delete( array.get(box_array, array.size(box_array) - 1) )
f_array_add_pop(box_array, box.new( left = box_left, top = box_top, right = box_right, bottom = box_bottom, border_color = demand_outline_color,
bgcolor = demand_color, extend = extend.right, text = 'DEMAND', text_halign = text.align_center, text_valign = text.align_center, text_color = poi_label_color, text_size = size.small, xloc = xloc.bar_index))
box.delete( array.get(label_array, array.size(label_array) - 1) )
f_array_add_pop(label_array, box.new( left = box_left, top = poi, right = box_right, bottom = poi, border_color = poi_border_color,
bgcolor = poi_border_color, extend = extend.right, text = 'POI', text_halign = text.align_left, text_valign = text.align_center, text_color = poi_label_color, text_size = size.small, xloc = xloc.bar_index))
// FUNCTION TO CHANGE SUPPLY/DEMAND TO A BOS IF BROKEN
f_sd_to_bos(box_array, bos_array, label_array, zone_type) =>
if zone_type == 1
for i = 0 to array.size(box_array) - 1
level_to_break = box.get_top(array.get(box_array,i))
// if ta.crossover(close, level_to_break)
if close >= level_to_break
copied_box = box.copy(array.get(box_array,i))
f_array_add_pop(bos_array, copied_box)
mid = (box.get_top(array.get(box_array,i)) + box.get_bottom(array.get(box_array,i))) / 2
box.set_top(array.get(bos_array,0), mid)
box.set_bottom(array.get(bos_array,0), mid)
box.set_extend( array.get(bos_array,0), extend.none)
box.set_right( array.get(bos_array,0), bar_index)
box.set_text( array.get(bos_array,0), 'BOS' )
box.set_text_color( array.get(bos_array,0), bos_label_color)
box.set_text_size( array.get(bos_array,0), size.small)
box.set_text_halign( array.get(bos_array,0), text.align_center)
box.set_text_valign( array.get(bos_array,0), text.align_center)
box.delete(array.get(box_array, i))
box.delete(array.get(label_array, i))
if zone_type == -1
for i = 0 to array.size(box_array) - 1
level_to_break = box.get_bottom(array.get(box_array,i))
// if ta.crossunder(close, level_to_break)
if close <= level_to_break
copied_box = box.copy(array.get(box_array,i))
f_array_add_pop(bos_array, copied_box)
mid = (box.get_top(array.get(box_array,i)) + box.get_bottom(array.get(box_array,i))) / 2
box.set_top(array.get(bos_array,0), mid)
box.set_bottom(array.get(bos_array,0), mid)
box.set_extend( array.get(bos_array,0), extend.none)
box.set_right( array.get(bos_array,0), bar_index)
box.set_text( array.get(bos_array,0), 'BOS' )
box.set_text_color( array.get(bos_array,0), bos_label_color)
box.set_text_size( array.get(bos_array,0), size.small)
box.set_text_halign( array.get(bos_array,0), text.align_center)
box.set_text_valign( array.get(bos_array,0), text.align_center)
box.delete(array.get(box_array, i))
box.delete(array.get(label_array, i))
// FUNCTION MANAGE CURRENT BOXES BY CHANGING ENDPOINT
f_extend_box_endpoint(box_array) =>
for i = 0 to array.size(box_array) - 1
box.set_right(array.get(box_array, i), bar_index + 100)
//
//END FUNCTIONS
//
//
//CALCULATIONS
//
stratRes = timeframe.ismonthly ? str.tostring(timeframe.multiplier * intRes, '###M') :
timeframe.isweekly ? str.tostring(timeframe.multiplier * intRes, '###W') :
timeframe.isdaily ? str.tostring(timeframe.multiplier * intRes, '###D') :
timeframe.isintraday ? str.tostring(timeframe.multiplier * intRes, '####') :
'60'
src = h ? request.security(ticker.heikinashi(syminfo.tickerid),
timeframe.period, close, lookahead = barmerge.lookahead_off) : close
// CALCULATE ATR
atrValue = ta.atr(50)
// CALCULATE SWING HIGHS & SWING LOWS
swing_high = ta.pivothigh(high, swing_length, swing_length)
swing_low = ta.pivotlow(low, swing_length, swing_length)
// ARRAYS FOR SWING H/L & BN
var swing_high_values = array.new_float(5,0.00)
var swing_low_values = array.new_float(5,0.00)
var swing_high_bns = array.new_int(5,0)
var swing_low_bns = array.new_int(5,0)
// ARRAYS FOR SUPPLY / DEMAND
var current_supply_box = array.new_box(history_of_demand_to_keep, na)
var current_demand_box = array.new_box(history_of_demand_to_keep, na)
// ARRAYS FOR SUPPLY / DEMAND POI LABELS
var current_supply_poi = array.new_box(history_of_demand_to_keep, na)
var current_demand_poi = array.new_box(history_of_demand_to_keep, na)
// ARRAYS FOR BOS
var supply_bos = array.new_box(5, na)
var demand_bos = array.new_box(5, na)
//
//END CALCULATIONS
//
// NEW SWING HIGH
if not na(swing_high)
//MANAGE SWING HIGH VALUES
f_array_add_pop(swing_high_values, swing_high)
f_array_add_pop(swing_high_bns, bar_index[swing_length])
if show_price_action_labels
f_sh_sl_labels(swing_high_values, 1)
f_supply_demand(swing_high_values, swing_high_bns, current_supply_box, current_supply_poi, 1, atrValue)
// NEW SWING LOW
else if not na(swing_low)
//MANAGE SWING LOW VALUES
f_array_add_pop(swing_low_values, swing_low)
f_array_add_pop(swing_low_bns, bar_index[swing_length])
if show_price_action_labels
f_sh_sl_labels(swing_low_values, -1)
f_supply_demand(swing_low_values, swing_low_bns, current_demand_box, current_demand_poi, -1, atrValue)
f_sd_to_bos(current_supply_box, supply_bos, current_supply_poi, 1)
f_sd_to_bos(current_demand_box, demand_bos, current_demand_poi, -1)
f_extend_box_endpoint(current_supply_box)
f_extend_box_endpoint(current_demand_box)
// if barstate.islast
// label.new(x = bar_index + 10, y = close[1], text = str.tostring( array.size(current_supply_poi) ))
// label.new(x = bar_index + 20, y = close[1], text = str.tostring( box.get_bottom( array.get(current_supply_box, 0))))
// label.new(x = bar_index + 30, y = close[1], text = str.tostring( box.get_bottom( array.get(current_supply_box, 1))))
// label.new(x = bar_index + 40, y = close[1], text = str.tostring( box.get_bottom( array.get(current_supply_box, 2))))
// label.new(x = bar_index + 50, y = close[1], text = str.tostring( box.get_bottom( array.get(current_supply_box, 3))))
// label.new(x = bar_index + 60, y = close[1], text = str.tostring( box.get_bottom( array.get(current_supply_box, 4))))
// Get user input
channelBal = input.bool(false, "Channel Balance", group = "CHART")
// // Functions
// supertrend(_src, factor, atrLen) =>
// atr = ta.atr(atrLen)
// upperBand = _src + factor * atr
// lowerBand = _src - factor * atr
// prevLowerBand = nz(lowerBand[1])
// prevUpperBand = nz(upperBand[1])
// lowerBand := lowerBand > prevLowerBand or close[1] < prevLowerBand ? lowerBand : prevLowerBand
// upperBand := upperBand < prevUpperBand or close[1] > prevUpperBand ? upperBand : prevUpperBand
// int direction = na
// float superTrend = na
// prevSuperTrend = superTrend[1]
// if na(atr[1])
// direction := 1
// else if prevSuperTrend == prevUpperBand
// direction := close > upperBand ? -1 : 1
// else
// direction := close < lowerBand ? 1 : -1
// superTrend := direction == -1 ? lowerBand : upperBand
// [superTrend, direction]
lr_slope(_src, _len) =>
x = 0.0, y = 0.0, x2 = 0.0, xy = 0.0
for i = 0 to _len - 1
val = _src[i]
per = i + 1
x += per
y += val
x2 += per * per
xy += val * per
_slp = (_len * xy - x * y) / (_len * x2 - x * x)
_avg = y / _len
_int = _avg - _slp * x / _len + _slp
[_slp, _avg, _int]
lr_dev(_src, _len, _slp, _avg, _int) =>
upDev = 0.0, dnDev = 0.0
val = _int
for j = 0 to _len - 1
price = high[j] - val
if price > upDev
upDev := price
price := val - low[j]
if price > dnDev
dnDev := price
price := _src[j]
val += _slp
[upDev, dnDev]
// // Get Components
// ocAvg = math.avg(open, close)
// sma1 = ta.sma(close, 5)
// sma2 = ta.sma(close, 6)
// sma3 = ta.sma(close, 7)
// sma4 = ta.sma(close, 8)
// sma5 = ta.sma(close, 9)
// sma6 = ta.sma(close, 10)
// sma7 = ta.sma(close, 11)
// sma8 = ta.sma(close, 12)
// sma9 = ta.sma(close, 13)
// sma10 = ta.sma(close, 14)
// sma11 = ta.sma(close, 15)
// sma12 = ta.sma(close, 16)
// sma13 = ta.sma(close, 17)
// sma14 = ta.sma(close, 18)
// sma15 = ta.sma(close, 19)
// sma16 = ta.sma(close, 20)
// psar = ta.sar(0.02, 0.02, 0.2)
[_, upperKC1, lowerKC1] = ta.kc(close, 80, 10.5)
[_, upperKC2, lowerKC2] = ta.kc(close, 80, 9.5)
[_, upperKC3, lowerKC3] = ta.kc(close, 80, 8)
[_, upperKC4, lowerKC4] = ta.kc(close, 80, 3)
barsL = 10
barsR = 10
pivotHigh = fixnan(ta.pivothigh(barsL, barsR)[1])
pivotLow = fixnan(ta.pivotlow(barsL, barsR)[1])
source = close, period = 150
[s, a, i] = lr_slope(source, period)
[upDev, dnDev] = lr_dev(source, period, s, a, i)
// // Colors
// green = #00d9ff, green2 = #00d9ff
// red = #ff0090, red2 = #ff0090
// // Plots
// k1 = plot(ta.ema(upperKC1, 50), "k1", na, editable = false)
// k2 = plot(ta.ema(upperKC2, 50), "k2", na, editable = false)
// k3 = plot(ta.ema(upperKC3, 50), "k3", na, editable = false)
// k4 = plot(ta.ema(upperKC4, 50), "k4", na, editable = false)
// k5 = plot(ta.ema(lowerKC4, 50), "k5", na, editable = false)
// k6 = plot(ta.ema(lowerKC3, 50), "k6", na, editable = false)
// k7 = plot(ta.ema(lowerKC2, 50), "k7", na, editable = false)
// k8 = plot(ta.ema(lowerKC1, 50), "k8", na, editable = false)
// fill(k1, k2, channelBal ? color.new(red2, 40) : na, editable = false)
// fill(k2, k3, channelBal ? color.new(red2, 65) : na, editable = false)
// fill(k3, k4, channelBal ? color.new(red2, 90) : na, editable = false)
// fill(k5, k6, channelBal ? color.new(green2, 90) : na, editable = false)
// fill(k6, k7, channelBal ? color.new(green2, 65) : na, editable = false)
// fill(k7, k8, channelBal ? color.new(green2, 40) : na, editable = false)
y1 = low - (ta.atr(30) * 2), y1B = low - ta.atr(30)
y2 = high + (ta.atr(30) * 2), y2B = high + ta.atr(30)
x1 = bar_index - period + 1, _y1 = i + s * (period - 1), x2 = bar_index, _y2 = i
//Functions
//Line Style function
get_line_style(style) =>
out = switch style
'???' => line.style_solid
'----' => line.style_dashed
' ' => line.style_dotted
//Function to get order block coordinates
get_coordinates(condition, top, btm, ob_val)=>
var ob_top = array.new_float(0)
var ob_btm = array.new_float(0)
var ob_avg = array.new_float(0)
var ob_left = array.new_int(0)
float ob = na
//Append coordinates to arrays
if condition
avg = math.avg(top, btm)
array.unshift(ob_top, top)
array.unshift(ob_btm, btm)
array.unshift(ob_avg, avg)
ob := ob_val
[ob_top, ob_btm, ob_avg, ob_left, ob]
//Function to remove mitigated order blocks from coordinate arrays
remove_mitigated(ob_top, ob_btm, ob_left, ob_avg, target, bull)=>
mitigated = false
target_array = bull ? ob_btm : ob_top
for element in target_array
idx = array.indexof(target_array, element)
if (bull ? target < element : target > element)
mitigated := true
array.remove(ob_top, idx)
array.remove(ob_btm, idx)
array.remove(ob_avg, idx)
array.remove(ob_left, idx)
mitigated
//Function to set order blocks
set_order_blocks(ob_top, ob_btm, ob_left, ob_avg, ext_last, bg_css, border_css, lvl_css)=>
var ob_box = array.new_box(0)
var ob_lvl = array.new_line(0)
//Global elements
var os = 0
var target_bull = 0.
var target_bear = 0.
// // Constants colours that include fully non-transparent option.
// green100 = #008000FF
// lime100 = #00FF00FF
// red100 = #FF0000FF
// blue100 = #0000FFFF
// aqua100 = #00FFFFFF
// darkred100 = #8B0000FF
// gray100 = #808080FF
/////////////////////////////////////////////
// Create non-repainting security function
rp_security(_symbol, _res, _src) =>
request.security(_symbol, _res, _src[barstate.isrealtime ? 1 : 0])
htfHigh = rp_security(syminfo.tickerid, res, high)
htfLow = rp_security(syminfo.tickerid, res, low)
// Main Indicator
// Functions
smoothrng(x, t, m) =>
wper = t * 2 - 1
avrng = ta.ema(math.abs(x - x[1]), t)
smoothrng = ta.ema(avrng, wper) * m
rngfilt(x, r) =>
rngfilt = x
rngfilt := x > nz(rngfilt[1]) ? x - r < nz(rngfilt[1]) ? nz(rngfilt[1]) : x - r : x + r > nz(rngfilt[1]) ? nz(rngfilt[1]) : x + r
percWidth(len, perc) => (ta.highest(len) - ta.lowest(len)) * perc / 100
securityNoRep(sym, res, src) => request.security(sym, res, src, barmerge.gaps_off, barmerge.lookahead_off)
swingPoints(prd) =>
pivHi = ta.pivothigh(prd, prd)
pivLo = ta.pivotlow (prd, prd)
last_pivHi = ta.valuewhen(pivHi, pivHi, 1)
last_pivLo = ta.valuewhen(pivLo, pivLo, 1)
hh = pivHi and pivHi > last_pivHi ? pivHi : na
lh = pivHi and pivHi < last_pivHi ? pivHi : na
hl = pivLo and pivLo > last_pivLo ? pivLo : na
ll = pivLo and pivLo < last_pivLo ? pivLo : na
[hh, lh, hl, ll]
f_chartTfInMinutes() =>
float _resInMinutes = timeframe.multiplier * (
timeframe.isseconds ? 1 :
timeframe.isminutes ? 1. :
timeframe.isdaily ? 60. * 24 :
timeframe.isweekly ? 60. * 24 * 7 :
timeframe.ismonthly ? 60. * 24 * 30.4375 : na)
f_kc(src, len, sensitivity) =>
basis = ta.sma(src, len)
span = ta.atr(len)
[basis + span * sensitivity, basis - span * sensitivity]
wavetrend(src, chlLen, avgLen) =>
esa = ta.ema(src, chlLen)
d = ta.ema(math.abs(src - esa), chlLen)
ci = (src - esa) / (0.015 * d)
wt1 = ta.ema(ci, avgLen)
wt2 = ta.sma(wt1, 3)
[wt1, wt2]
f_top_fractal(_src) => _src[4] < _src[2] and _src[3] < _src[2] and _src[2] > _src[1] and _src[2] > _src[0]
f_bot_fractal(_src) => _src[4] > _src[2] and _src[3] > _src[2] and _src[2] < _src[1] and _src[2] < _src[0]
top_fractal = f_top_fractal(src)
bot_fractal = f_bot_fractal(src)
f_fractalize (_src) => top_fractal ? 1 : bot_fractal ? -1 : 0
f_findDivs(src, topLimit, botLimit) =>
fractalTop = f_fractalize(src) > 0 and src[2] >= topLimit ? src[2] : na
fractalBot = f_fractalize(src) < 0 and src[2] <= botLimit ? src[2] : na
highPrev = ta.valuewhen(fractalTop, src[2], 0)[2]
highPrice = ta.valuewhen(fractalTop, high[2], 0)[2]
lowPrev = ta.valuewhen(fractalBot, src[2], 0)[2]
lowPrice = ta.valuewhen(fractalBot, low[2], 0)[2]
bearSignal = fractalTop and high[1] > highPrice and src[1] < highPrev
bullSignal = fractalBot and low[1] < lowPrice and src[1] > lowPrev
[bearSignal, bullSignal]
// Get user input
enableSR = input(false , "SR On/Off", group="SR")
colorSup = input(#00000000 , "Support Color", group="SR")
colorRes = input(#00000000 , "Resistance Color", group="SR")
strengthSR = input.int(2 , "S/R Strength", 1, group="SR")
lineStyle = input.string("Dotted", "Line Style", ["Solid", "Dotted", "Dashed"], group="SR")
lineWidth = input.int(2 , "S/R Line Width", 1, group="SR")
useZones = input(true , "Zones On/Off", group="SR")
useHLZones = input(true , "High Low Zones On/Off", group="SR")
zoneWidth = input.int(2 , "Zone Width %", 0,
tooltip = "it's calculated using % of the distance between highest/lowest in last 300 bars", group="SR")
expandSR = input(true , "Expand SR")
// Get components
rb = 10
prd = 284
ChannelW = 10
label_loc = 55
style = lineStyle == "Solid" ? line.style_solid :
lineStyle == "Dotted" ? line.style_dotted : line.style_dashed
ph = ta.pivothigh(rb, rb)
pl = ta.pivotlow (rb, rb)
sr_levels = array.new_float(21, na)
prdhighest = ta.highest(prd)
prdlowest = ta.lowest(prd)
cwidth = percWidth(prd, ChannelW)
zonePerc = percWidth(300, zoneWidth)
aas = array.new_bool(41, true)
u1 = 0.0, u1 := nz(u1[1])
d1 = 0.0, d1 := nz(d1[1])
highestph = 0.0, highestph := highestph[1]
lowestpl = 0.0, lowestpl := lowestpl[1]
var sr_levs = array.new_float(21, na)
label hlabel = na, label.delete(hlabel[1])
label llabel = na, label.delete(llabel[1])
var sr_lines = array.new_line(21, na)
var sr_linesH = array.new_line(21, na)
var sr_linesL = array.new_line(21, na)
var sr_linesF = array.new_linefill(21, na)
var sr_labels = array.new_label(21, na)
if ph or pl
for x = 0 to array.size(sr_levels) - 1
array.set(sr_levels, x, na)
highestph := prdlowest
lowestpl := prdhighest
countpp = 0
for x = 0 to prd
if na(close[x])
break
if not na(ph[x]) or not na(pl[x])
highestph := math.max(highestph, nz(ph[x], prdlowest), nz(pl[x], prdlowest))
lowestpl := math.min(lowestpl, nz(ph[x], prdhighest), nz(pl[x], prdhighest))
countpp += 1
if countpp > 40
break
if array.get(aas, countpp)
upl = (ph[x] ? high[x + rb] : low[x + rb]) + cwidth
dnl = (ph[x] ? high[x + rb] : low[x + rb]) - cwidth
u1 := countpp == 1 ? upl : u1
d1 := countpp == 1 ? dnl : d1
tmp = array.new_bool(41, true)
cnt = 0
tpoint = 0
for xx = 0 to prd
if na(close[xx])
break
if not na(ph[xx]) or not na(pl[xx])
chg = false
cnt += 1
if cnt > 40
break
if array.get(aas, cnt)
if not na(ph[xx])
if high[xx + rb] <= upl and high[xx + rb] >= dnl
tpoint += 1
chg := true
if not na(pl[xx])
if low[xx + rb] <= upl and low[xx + rb] >= dnl
tpoint += 1
chg := true
if chg and cnt < 41
array.set(tmp, cnt, false)
if tpoint >= strengthSR
for g = 0 to 40 by 1
if not array.get(tmp, g)
array.set(aas, g, false)
if ph[x] and countpp < 21
array.set(sr_levels, countpp, high[x + rb])
if pl[x] and countpp < 21
array.set(sr_levels, countpp, low[x + rb])
// Plot
var line highest_ = na, line.delete(highest_)
var line lowest_ = na, line.delete(lowest_)
var line highest_fill1 = na, line.delete(highest_fill1)
var line highest_fill2 = na, line.delete(highest_fill2)
var line lowest_fill1 = na, line.delete(lowest_fill1)
var line lowest_fill2 = na, line.delete(lowest_fill2)
hi_col = close >= highestph ? colorSup : colorRes
lo_col = close >= lowestpl ? colorSup : colorRes
if enableSR
highest_ := line.new(bar_index - 311, highestph, bar_index, highestph, xloc.bar_index, expandSR ? extend.both : extend.right, hi_col, style, lineWidth)
lowest_ := line.new(bar_index - 311, lowestpl , bar_index, lowestpl , xloc.bar_index, expandSR ? extend.both : extend.right, lo_col, style, lineWidth)
if useHLZones
highest_fill1 := line.new(bar_index - 311, highestph + zonePerc, bar_index, highestph + zonePerc, xloc.bar_index, expandSR ? extend.both : extend.right, na)
highest_fill2 := line.new(bar_index - 311, highestph - zonePerc, bar_index, highestph - zonePerc, xloc.bar_index, expandSR ? extend.both : extend.right, na)
lowest_fill1 := line.new(bar_index - 311, lowestpl + zonePerc , bar_index, lowestpl + zonePerc , xloc.bar_index, expandSR ? extend.both : extend.right, na)
lowest_fill2 := line.new(bar_index - 311, lowestpl - zonePerc , bar_index, lowestpl - zonePerc , xloc.bar_index, expandSR ? extend.both : extend.right, na)
linefill.new(highest_fill1, highest_fill2, hi_col)
linefill.new(lowest_fill1 , lowest_fill2 , lo_col)
if ph or pl
for x = 0 to array.size(sr_lines) - 1
array.set(sr_levs, x, array.get(sr_levels, x))
for x = 0 to array.size(sr_lines) - 1
line.delete(array.get(sr_lines, x))
line.delete(array.get(sr_linesH, x))
line.delete(array.get(sr_linesL, x))
linefill.delete(array.get(sr_linesF, x))
if array.get(sr_levs, x) and enableSR
line_col = close >= array.get(sr_levs, x) ? colorSup : colorRes
array.set(sr_lines, x, line.new(bar_index - 355, array.get(sr_levs, x), bar_index, array.get(sr_levs, x), xloc.bar_index, expandSR ? extend.both : extend.right, line_col, style, lineWidth))
if useZones
array.set(sr_linesH, x, line.new(bar_index - 355, array.get(sr_levs, x) + zonePerc, bar_index, array.get(sr_levs, x) + zonePerc, xloc.bar_index, expandSR ? extend.both : extend.right, na))
array.set(sr_linesL, x, line.new(bar_index - 355, array.get(sr_levs, x) - zonePerc, bar_index, array.get(sr_levs, x) - zonePerc, xloc.bar_index, expandSR ? extend.both : extend.right, na))
array.set(sr_linesF, x, linefill.new(array.get(sr_linesH, x), array.get(sr_linesL, x), line_col))
for x = 0 to array.size(sr_labels) - 1
label.delete(array.get(sr_labels, x))
if array.get(sr_levs, x) and enableSR
lab_loc = close >= array.get(sr_levs, x) ? label.style_label_up : label.style_label_down
lab_col = close >= array.get(sr_levs, x) ? colorSup : colorRes
array.set(sr_labels, x, label.new(bar_index + label_loc, array.get(sr_levs, x), str.tostring(math.round_to_mintick(array.get(sr_levs, x))), color=lab_col , textcolor=#000000, style=lab_loc))
hlabel := enableSR ? label.new(bar_index + label_loc + math.round(math.sign(label_loc)) * 20, highestph, "High Level : " + str.tostring(highestph), color=hi_col, textcolor=#000000, style=label.style_label_down) : na
llabel := enableSR ? label.new(bar_index + label_loc + math.round(math.sign(label_loc)) * 20, lowestpl , "Low Level : " + str.tostring(lowestpl) , color=lo_col, textcolor=#000000, style=label.style_label_up ) : na
// Get components
rsi = ta.rsi(close, 28)
//rsiOb = rsi > 78 and rsi > ta.ema(rsi, 10)
//rsiOs = rsi < 27 and rsi < ta.ema(rsi, 10)
rsiOb = rsi > 65 and rsi > ta.ema(rsi, 10)
rsiOs = rsi < 35 and rsi < ta.ema(rsi, 10)
dHigh = securityNoRep(syminfo.tickerid, "D", high [1])
dLow = securityNoRep(syminfo.tickerid, "D", low [1])
dClose = securityNoRep(syminfo.tickerid, "D", close[1])
ema = ta.ema(close, 144)
emaBull = close > ema
equal_tf(res) => str.tonumber(res) == f_chartTfInMinutes() and not timeframe.isseconds
higher_tf(res) => str.tonumber(res) > f_chartTfInMinutes() or timeframe.isseconds
too_small_tf(res) => (timeframe.isweekly and res=="1") or (timeframe.ismonthly and str.tonumber(res) < 10)
securityNoRep1(sym, res, src) =>
bool bull_ = na
bull_ := equal_tf(res) ? src : bull_
bull_ := higher_tf(res) ? request.security(sym, res, src, barmerge.gaps_off, barmerge.lookahead_off) : bull_
bull_array = request.security_lower_tf(syminfo.tickerid, higher_tf(res) ? str.tostring(f_chartTfInMinutes()) + (timeframe.isseconds ? "S" : "") : too_small_tf(res) ? (timeframe.isweekly ? "3" : "10") : res, src)
if array.size(bull_array) > 1 and not equal_tf(res) and not higher_tf(res)
bull_ := array.pop(bull_array)
array.clear(bull_array)
bull_
// TF1Bull = securityNoRep1(syminfo.tickerid, "1" , emaBull)
// TF3Bull = securityNoRep1(syminfo.tickerid, "3" , emaBull)
// TF5Bull = securityNoRep1(syminfo.tickerid, "5" , emaBull)
// TF15Bull = securityNoRep1(syminfo.tickerid, "15" , emaBull)
// TF30Bull = securityNoRep1(syminfo.tickerid, "30" , emaBull)
// TF60Bull = securityNoRep1(syminfo.tickerid, "60" , emaBull)
// TF120Bull = securityNoRep1(syminfo.tickerid, "120" , emaBull)
// TF240Bull = securityNoRep1(syminfo.tickerid, "240" , emaBull)
// TF480Bull = securityNoRep1(syminfo.tickerid, "480" , emaBull)
// TFDBull = securityNoRep1(syminfo.tickerid, "1440", emaBull)
// [wt1, wt2] = wavetrend(close, 5, 10)
// [wtDivBear1, wtDivBull1] = f_findDivs(wt2, 15, -40)
// [wtDivBear2, wtDivBull2] = f_findDivs(wt2, 45, -65)
// wtDivBull = wtDivBull1 or wtDivBull2
// wtDivBear = wtDivBear1 or wtDivBear2
////////////////////////////////////////////////////////
// === BASE FUNCTIONS ===
// Returns MA input selection variant, default to SMA if blank or typo.
variant(type, src, len, offSig, offALMA) =>
v1 = ta.sma(src, len) // Simple
v2 = ta.ema(src, len) // Exponential
v3 = 2 * v2 - ta.ema(v2, len) // Double Exponential
v4 = 3 * (v2 - ta.ema(v2, len)) + ta.ema(ta.ema(v2, len), len) // Triple Exponential
v5 = ta.wma(src, len) // Weighted
v6 = ta.vwma(src, len) // Volume Weighted
v7 = 0.0
sma_1 = ta.sma(src, len) // Smoothed
v7 := na(v7[1]) ? sma_1 : (v7[1] * (len - 1) + src) / len
v8 = ta.wma(2 * ta.wma(src, len / 2) - ta.wma(src, len), math.round(math.sqrt(len))) // Hull
v9 = ta.linreg(src, len, offSig) // Least Squares
v10 = ta.alma(src, len, offALMA, offSig) // Arnaud Legoux
v11 = ta.sma(v1, len) // Triangular (extreme smooth)
// SuperSmoother filter
// 2013 John F. Ehlers
a1 = math.exp(-1.414 * 3.14159 / len)
b1 = 2 * a1 * math.cos(1.414 * 3.14159 / len)
c2 = b1
c3 = -a1 * a1
c1 = 1 - c2 - c3
v12 = 0.0
v12 := c1 * (src + nz(src[1])) / 2 + c2 * nz(v12[1]) + c3 * nz(v12[2])
type == 'EMA' ? v2 : type == 'DEMA' ? v3 : type == 'TEMA' ? v4 : type == 'WMA' ? v5 : type == 'VWMA' ? v6 : type == 'SMMA' ? v7 : type == 'HullMA' ? v8 : type == 'LSMA' ? v9 : type == 'ALMA' ? v10 : type == 'TMA' ? v11 : type == 'SSMA' ? v12 : v1
// security wrapper for repeat calls
reso(exp, use, res) =>
security_1 = request.security(syminfo.tickerid, res, exp, gaps = barmerge.gaps_off, lookahead = barmerge.lookahead_off)
use ? security_1 : exp
// === /BASE FUNCTIONS ===
// === SERIES SETUP ===
closeSeries = variant(basisType, close[delayOffset], basisLen, offsetSigma, offsetALMA)
openSeries = variant(basisType, open[delayOffset], basisLen, offsetSigma, offsetALMA)
// === /SERIES ===
// Get Alternate resolution Series if selected.
closeSeriesAlt = reso(closeSeries, useRes, stratRes)
openSeriesAlt = reso(openSeries, useRes, stratRes)
//
// // === ALERT conditions
// xlong = ta.crossover(closeSeriesAlt, openSeriesAlt)
// xshort = ta.crossunder(closeSeriesAlt, openSeriesAlt)
// // longCond = xlong // alternative: longCond[1]? false : (xlong or xlong[1]) and close>closeSeriesAlt and close>=open
// // shortCond = xshort // alternative: shortCond[1]? false : (xshort or xshort[1]) and close<closeSeriesAlt and close<=open
// // // === /ALERT conditions.
// buy = ta.crossover(closeSeriesAlt, openSeriesAlt)
// sell = ta.crossunder(closeSeriesAlt, openSeriesAlt)
// plotshape(buy, title = "Buy", text = 'Buy', style = shape.labelup, location = location.belowbar, color= #00DBFF, textcolor = #FFFFFF, transp = 0, size = size.tiny)
// plotshape(sell, title = "Sell", text = 'Sell', style = shape.labeldown, location = location.abovebar, color= #E91E63, textcolor = #FFFFFF, transp = 0, size = size.tiny)
// plotcandle(
// open, high, low, close,
// title = 'plotcandle',
// color = close > open ? color.rgb(120, 9, 139) : color.rgb(69, 155, 225),
// wickcolor = close > open ? color.rgb(120, 9, 139) : color.rgb(69, 155, 225))
// // === STRATEGY ===
// // stop loss
// slPoints = input.int(defval=0, title = 'Initial Stop Loss Points (zero to disable)', minval=0)
// tpPoints = input.int(defval=0, title = 'Initial Target Profit Points (zero for disable)', minval=0)
// // Include bar limiting algorithm
// ebar = input.int(defval=4000, title = 'Number of Bars for Back Testing', minval=0)
// dummy = input (false, title = '- SET to ZERO for Daily or Longer Timeframes')
// //
// // Calculate how many mars since last bar
// tdays = (timenow - time) / 60000.0 // number of minutes since last bar
// tdays := timeframe.ismonthly ? tdays / 1440.0 / 5.0 / 4.3 / timeframe.multiplier :
// timeframe.isweekly ? tdays / 1440.0 / 5.0 / timeframe.multiplier :
// timeframe.isdaily ? tdays / 1440.0 / timeframe.multiplier :
// tdays / timeframe.multiplier // number of bars since last bar
// //
// //set up exit parameters
// TP = tpPoints > 0 ? tpPoints : na
// SL = slPoints > 0 ? slPoints : na
// // === /STRATEGY ===
// ////////////////////////////////////////////////////////////////////////////////
// // to automate put this in trendinview message: {{strategy.order.alert_message}}
// i_alert_txt_entry_long = input.text_area(defval = "", title = "Long Entry Message", group = "Alerts")
// i_alert_txt_entry_short = input.text_area(defval = "", title = "Short Entry Message", group = "Alerts")
// // Entries and Exits with TP/SL
// if buy
// //strategy.close("Short" , alert_message = i_alert_txt_exit_short)
// strategy.entry("Long" , strategy.long , alert_message = i_alert_txt_entry_long)
// alert(message = "Long position")
// if sell
// //strategy.close("Long" , alert_message = i_alert_txt_exit_long)
// strategy.entry("Short" , strategy.short, alert_message = i_alert_txt_entry_short)
// alert(message = "SHort position")
//#endregion }
// ——————————— <↑↑↑ G_SCRIPT01 ↑↑↑>
//<triggers>
lxTrigger = false
sxTrigger = false
leTrigger = ta.crossover (closeSeriesAlt, openSeriesAlt)
seTrigger = ta.crossunder(closeSeriesAlt, openSeriesAlt)
G_RISK = '■ ' + 'Risk Management'
//#region ———— <↓↓↓ G_RISK ↓↓↓> {
// ——————————— <constant_declarations>
//Tooltip
T_LVL = '(%) Exit Level'
T_QTY = '(%) Adjust trade exit volume'
T_MSG = 'Paste JSON message for your bot'
//Webhook Message
O_LEMSG = 'Long'
O_LXMSGSL = 'Long SL'
O_LXMSGTP1 = 'Long TP1'
O_LXMSGTP2 = 'Long TP2'
O_LXMSGTP3 = 'Long TP3'
O_LXMSG = 'Long Exit'
O_SEMSG = 'Short'
O_SXMSGSL = 'Short SL'
O_SXMSGA = 'Short TP1'
O_SXMSGB = 'Short TP2'
O_SXMSGC = 'Short TP3'
O_SXMSGX = 'Short Exit'
// ——————————— <input> | | | Line length guide |
i_lxLvlTP1 = input.float (0.5, 'Level TP1' , group = G_RISK,
tooltip = T_LVL)
i_lxQtyTP1 = input.float (80, 'Qty TP1' , group = G_RISK,
tooltip = T_QTY)
i_lxLvlTP2 = input.float (1.0, 'Level TP2' , group = G_RISK,
tooltip = T_LVL)
i_lxQtyTP2 = input.float (10, 'Qty TP2' , group = G_RISK,
tooltip = T_QTY)
i_lxLvlTP3 = input.float (4, 'Level TP3' , group = G_RISK,
tooltip = T_LVL)
i_lxQtyTP3 = input.float (10, 'Qty TP3' , group = G_RISK,
tooltip = T_QTY)
i_lxLvlSL = input.float (0.5, 'Stop Loss' , group = G_RISK,
tooltip = T_LVL)
i_sxLvlTP1 = i_lxLvlTP1
i_sxQtyTP1 = i_lxQtyTP1
i_sxLvlTP2 = i_lxLvlTP2
i_sxQtyTP2 = i_lxQtyTP2
i_sxLvlTP3 = i_lxLvlTP3
i_sxQtyTP3 = i_lxQtyTP3
i_sxLvlSL = i_lxLvlSL
G_MSG = '■ ' + 'Webhook Message'
i_leMsg = input.string (O_LEMSG ,'long' , group = G_MSG, tooltip = T_MSG)
i_lxMsgSL = input.string (O_LXMSGSL ,'Long SL' , group = G_MSG, tooltip = T_MSG)
i_lxMsgTP1 = input.string (O_LXMSGTP1,'Long TP1' , group = G_MSG, tooltip = T_MSG)
i_lxMsgTP2 = input.string (O_LXMSGTP2,'Long TP2' , group = G_MSG, tooltip = T_MSG)
i_lxMsgTP3 = input.string (O_LXMSGTP3,'Long TP3' , group = G_MSG, tooltip = T_MSG)
i_lxMsg = input.string (O_LXMSG ,'Long Exit' , group = G_MSG, tooltip = T_MSG)
i_seMsg = input.string (O_SEMSG ,'Short' , group = G_MSG, tooltip = T_MSG)
i_sxMsgSL = input.string (O_SXMSGSL ,'Short SL' , group = G_MSG, tooltip = T_MSG)
i_sxMsgTP1 = input.string (O_SXMSGA ,'Short TP1' , group = G_MSG, tooltip = T_MSG)
i_sxMsgTP2 = input.string (O_SXMSGB ,'Short TP2' , group = G_MSG, tooltip = T_MSG)
i_sxMsgTP3 = input.string (O_SXMSGC ,'Short TP3' , group = G_MSG, tooltip = T_MSG)
i_sxMsg = input.string (O_SXMSGX ,'Short Exit' , group = G_MSG, tooltip = T_MSG)
i_src = close
G_DISPLAY = 'Display'
//<display>
i_alertOn = input.bool (true, 'Alert Labels On/Off' , group = G_DISPLAY)
i_barColOn = input.bool (true, 'Bar Color On/Off' , group = G_DISPLAY)
// ——————————— <function_declarations>
// @function Calculate the Take Profit line, and the crossover or crossunder
f_tp(_condition, _conditionValue, _leTrigger, _seTrigger, _src, _lxLvlTP, _sxLvlTP)=>
var float _tpLine = 0.0
_topLvl = _src + (_src * (_lxLvlTP / 100))
_botLvl = _src - (_src * (_sxLvlTP / 100))
_tpLine := _condition[1] != _conditionValue and _leTrigger ? _topLvl :
_condition[1] != -_conditionValue and _seTrigger ? _botLvl :
nz(_tpLine[1])
[_tpLine]
// @function Similar to "ta.crossover" or "ta.crossunder"
f_cross(_scr1, _scr2, _over)=>
_cross = _over ? _scr1 > _scr2 and _scr1[1] < _scr2[1] :
_scr1 < _scr2 and _scr1[1] > _scr2[1]
// ——————————— <calculations>
//<set initial values>
var float condition = 0.0
var float slLine = 0.0
var float entryLine = 0.0
//<entry & exit orders>
entryLine := leTrigger and condition[1] <= 0.0 ? close :
seTrigger and condition[1] >= 0.0 ? close : nz(entryLine[1])
//<SL>
slTopLvl = i_src + (i_src * (i_lxLvlSL / 100))
slBotLvl = i_src - (i_src * (i_sxLvlSL / 100))
slLine := condition[1] <= 0.0 and leTrigger ? slBotLvl :
condition[1] >= 0.0 and seTrigger ? slTopLvl : nz(slLine[1])
slLong = f_cross(low, slLine, false)
slShort = f_cross(high, slLine, true )
//<TP1, TP2 & TP3>
[tp3Line] = f_tp(condition, 1.2,leTrigger, seTrigger, i_src, i_lxLvlTP3, i_sxLvlTP3)
[tp2Line] = f_tp(condition, 1.1,leTrigger, seTrigger, i_src, i_lxLvlTP2, i_sxLvlTP2)
[tp1Line] = f_tp(condition, 1.0,leTrigger, seTrigger, i_src, i_lxLvlTP1, i_sxLvlTP1)
tp3Long = f_cross(high, tp3Line, true )
tp3Short = f_cross(low, tp3Line, false)
tp2Long = f_cross(high, tp2Line, true )
tp2Short = f_cross(low, tp2Line, false)
tp1Long = f_cross(high, tp1Line, true )
tp1Short = f_cross(low, tp1Line, false)
switch
leTrigger and condition[1] <= 0.0 => condition := 1.0
seTrigger and condition[1] >= 0.0 => condition := -1.0
tp3Long and condition[1] == 1.2 => condition := 1.3
tp3Short and condition[1] == -1.2 => condition := -1.3
tp2Long and condition[1] == 1.1 => condition := 1.2
tp2Short and condition[1] == -1.1 => condition := -1.2
tp1Long and condition[1] == 1.0 => condition := 1.1
tp1Short and condition[1] == -1.0 => condition := -1.1
slLong and condition[1] >= 1.0 => condition := 0.0
slShort and condition[1] <= -1.0 => condition := 0.0
lxTrigger and condition[1] >= 1.0 => condition := 0.0
sxTrigger and condition[1] <= -1.0 => condition := 0.0
longE = leTrigger and condition[1] <= 0.0 and condition == 1.0
shortE = seTrigger and condition[1] >= 0.0 and condition == -1.0
longX = lxTrigger and condition[1] >= 1.0 and condition == 0.0
shortX = sxTrigger and condition[1] <= -1.0 and condition == 0.0
longSL = slLong and condition[1] >= 1.0 and condition == 0.0
shortSL = slShort and condition[1] <= -1.0 and condition == 0.0
longTP3 = tp3Long and condition[1] == 1.2 and condition == 1.3
shortTP3 = tp3Short and condition[1] == -1.2 and condition == -1.3
longTP2 = tp2Long and condition[1] == 1.1 and condition == 1.2
shortTP2 = tp2Short and condition[1] == -1.1 and condition == -1.2
longTP1 = tp1Long and condition[1] == 1.0 and condition == 1.1
shortTP1 = tp1Short and condition[1] == -1.0 and condition == -1.1
// ——————————— <strategy_calls> {
//<long orders>
if strategy.position_size <= 0 and longE and barstate.isconfirmed
strategy.entry(
'Long',
strategy.long,
alert_message = i_leMsg,
comment = 'LE')
if strategy.position_size > 0 and condition == 1.0
strategy.exit(
id = 'LXTP1',
from_entry = 'Long',
qty_percent = i_lxQtyTP1,
limit = tp1Line,
stop = slLine,
comment_profit = 'LXTP1',
comment_loss = 'SL',
alert_profit = i_lxMsgTP1,
alert_loss = i_lxMsgSL)
if strategy.position_size > 0 and condition == 1.1
strategy.exit(
id = 'LXTP2',
from_entry = 'Long',
qty_percent = i_lxQtyTP2,
limit = tp2Line,
stop = slLine,
comment_profit = 'LXTP2',
comment_loss = 'SL',
alert_profit = i_lxMsgTP2,
alert_loss = i_lxMsgSL)
if strategy.position_size > 0 and condition == 1.2
strategy.exit(
id = 'LXTP3',
from_entry = 'Long',
qty_percent = i_lxQtyTP3,
limit = tp3Line,
stop = slLine,
comment_profit = 'LXTP3',
comment_loss = 'SL',
alert_profit = i_lxMsgTP3,
alert_loss = i_lxMsgSL)
if longX
strategy.close(
'Long',
alert_message = i_lxMsg,
comment = 'LX')
//<short orders>
if strategy.position_size >= 0 and shortE and barstate.isconfirmed
strategy.entry(
'Short',
strategy.short,
alert_message = i_leMsg,
comment = 'SE')
if strategy.position_size < 0 and condition == -1.0
strategy.exit(
id = 'SXTP1',
from_entry = 'Short',
qty_percent = i_sxQtyTP1,
limit = tp1Line,
stop = slLine,
comment_profit = 'SXTP1',
comment_loss = 'SL',
alert_profit = i_sxMsgTP1,
alert_loss = i_sxMsgSL)
if strategy.position_size < 0 and condition == -1.1
strategy.exit(
id = 'SXTP2',
from_entry = 'Short',
qty_percent = i_sxQtyTP2,
limit = tp2Line,
stop = slLine,
comment_profit = 'SXTP2',
comment_loss = 'SL',
alert_profit = i_sxMsgTP2,
alert_loss = i_sxMsgSL)
if strategy.position_size < 0 and condition == -1.2
strategy.exit(
id = 'SXTP3',
from_entry = 'Short',
qty_percent = i_sxQtyTP3,
limit = tp3Line,
stop = slLine,
comment_profit = 'SXTP3',
comment_loss = 'SL',
alert_profit = i_sxMsgTP3,
alert_loss = i_sxMsgSL)
if shortX
strategy.close(
'Short',
alert_message = i_sxMsg,
comment = 'SX')
// ——————————— <visuals>
c_tp = leTrigger or seTrigger ? na :
condition == 0.0 ? na : color.green
c_entry = leTrigger or seTrigger ? na :
condition == 0.0 ? na : color.blue
c_sl = leTrigger or seTrigger ? na :
condition == 0.0 ? na : color.red
p_tp1Line = plot (
condition == 1.0 or
condition == -1.0 ? tp1Line : na,
title = "TP Line 1",
color = c_tp,
linewidth = 1,
style = plot.style_linebr)
p_tp2Line = plot (
condition == 1.0 or
condition == -1.0 or
condition == 1.1 or
condition == -1.1 ? tp2Line : na,
title = "TP Line 2",
color = c_tp,
linewidth = 1,
style = plot.style_linebr)
p_tp3Line = plot (
condition == 1.0 or
condition == -1.0 or
condition == 1.1 or
condition == -1.1 or
condition == 1.2 or
condition == -1.2 ? tp3Line : na,
title = "TP Line 3",
color = c_tp,
linewidth = 1,
style = plot.style_linebr)
p_entryLine = plot (
condition >= 1.0 or
condition <= -1.0 ? entryLine : na,
title = "Entry Line",
color = c_entry,
linewidth = 1,
style = plot.style_linebr)
p_slLine = plot (
condition == 1.0 or
condition == -1.0 or
condition == 1.1 or
condition == -1.1 or
condition == 1.2 or
condition == -1.2 ? slLine : na,
title = "SL Line",
color = c_sl,
linewidth = 1,
style = plot.style_linebr)
fill(
p_tp3Line, p_entryLine,
color = leTrigger or seTrigger ? na :color.new(color.green, 90))
fill(
p_entryLine, p_slLine,
color = leTrigger or seTrigger ? na :color.new(color.red, 90))
//<alerts labels>
plotshape(
i_alertOn and longE,
title = 'Long',
text = 'Long',
textcolor = color.white,
color = color.green,
style = shape.labelup,
size = size.tiny,
location = location.belowbar)
plotshape(
i_alertOn and shortE,
title = 'Short',
text = 'Short',
textcolor = color.white,
color = color.red,
style = shape.labeldown,
size = size.tiny,
location = location.abovebar)
plotshape(
i_alertOn and (longX or shortX) ? close : na,
title = 'Close',
text = 'Close',
textcolor = color.white,
color = color.gray,
style = shape.square,
size = size.tiny,
location = location.absolute)
l_tp = i_alertOn and (longTP1 or shortTP1) ? close : na
plotshape(
l_tp,
title = "TP1 Cross",
text = "TP1",
textcolor = color.white,
color = color.olive,
style = shape.square,
size = size.tiny,
location = location.abovebar)
plotshape(
i_alertOn and (longTP2 or shortTP2) ? close : na,
title = "TP2 Cross",
text = "TP2",
textcolor = color.white,
color = color.olive,
style = shape.square,
size = size.tiny,
location = location.abovebar)
plotshape(
i_alertOn and (longTP3 or shortTP3) ? close : na,
title = "TP3 Cross",
text = "TP3",
textcolor = color.white,
color = color.olive,
style = shape.square,
size = size.tiny,
location = location.abovebar)
plotshape(
i_alertOn and (longSL or shortSL) ? close : na,
title = "SL Cross",
text = "SL",
textcolor = color.white,
color = color.maroon,
style = shape.square,
size = size.tiny,
location = location.abovebar)
//<debug>
plot(
na,
title = "─── <debug> ───",
editable = false,
display = display.data_window)
plot(
condition,
title = "condition",
editable = false,
display = display.data_window)
plot(
strategy.position_size * 100,
title = ".position_size",
editable = false,
display = display.data_window)
//#endregion }
// ——————————— <↑↑↑ G_RISK ↑↑↑>
//#region ———— <↓↓↓ G_SCRIPT02 ↓↓↓> {
// @function Queues a new element in an array and de-queues its first element.
f_qDq(_array, _val) =>
array.push(_array, _val)
_return = array.shift(_array)
_return
var line[] a_slLine = array.new_line(1)
var line[] a_entryLine = array.new_line(1)
var line[] a_tp3Line = array.new_line(1)
var line[] a_tp2Line = array.new_line(1)
var line[] a_tp1Line = array.new_line(1)
var label[] a_slLabel = array.new_label(1)
var label[] a_tp3label = array.new_label(1)
var label[] a_tp2label = array.new_label(1)
var label[] a_tp1label = array.new_label(1)
var label[] a_entryLabel = array.new_label(1)
newEntry = longE or shortE
entryIndex = 1
entryIndex := newEntry ? bar_index : nz(entryIndex[1])
lasTrade = bar_index >= entryIndex
l_right = 10
line.delete(
f_qDq(a_slLine,
line.new(
entryIndex,
slLine,
last_bar_index + l_right,
slLine,
style = line.style_dotted,
color = c_sl)))
line.delete(
f_qDq(a_entryLine,
line.new(
entryIndex,
entryLine,
last_bar_index + l_right,
entryLine,
style = line.style_dotted,
color = color.blue)))
line.delete(
f_qDq(a_tp3Line,
line.new(
entryIndex,
tp3Line,
last_bar_index + l_right,
tp3Line,
style = line.style_dotted,
color = c_tp)))
line.delete(
f_qDq(a_tp2Line,
line.new(
entryIndex,
tp2Line,
last_bar_index + l_right,
tp2Line,
style = line.style_dotted,
color = c_tp)))
line.delete(
f_qDq(a_tp1Line,
line.new(
entryIndex,
tp1Line,
last_bar_index + l_right,
tp1Line,
style = line.style_dotted,
color = c_tp)))
label.delete(
f_qDq(a_slLabel,
label.new(
last_bar_index + l_right,
slLine,
'SL: ' + str.tostring(slLine, '##.#####'),
style = label.style_label_left,
textcolor = color.white,
color = c_sl)))
label.delete(
f_qDq(a_entryLabel,
label.new(
last_bar_index + l_right,
entryLine,
'Entry: ' + str.tostring(entryLine, '##.#####'),
style = label.style_label_left,
textcolor = color.white,
color = color.blue)))
label.delete(
f_qDq(a_tp3label,
label.new(
last_bar_index + l_right,
tp3Line,
'TP3: ' + str.tostring(tp3Line, '##.#####'),
style = label.style_label_left,
textcolor = color.white,
color = c_tp)))
label.delete(
f_qDq(a_tp2label,
label.new(
last_bar_index + l_right,
tp2Line,
'TP2: ' + str.tostring(tp2Line, '##.#####'),
style = label.style_label_left,
textcolor = color.white,
color = c_tp)))
label.delete(
f_qDq(a_tp1label,
label.new(
last_bar_index + l_right,
tp1Line,
'TP1: ' + str.tostring(tp1Line, '##.#####'),
style = label.style_label_left,
textcolor = color.white,
color = c_tp)))
//#endregion }
// ——————————— <↑↑↑ G_SCRIPT02 ↑↑↑>
//#region ———— <↓↓↓ G_SCRIPT03 ↓↓↓> {
c_barCol = close > open ? color.rgb(120, 9, 139) : color.rgb(69, 155, 225)
barcolor(
i_barColOn ? c_barCol : na)
// ——————————— <alerts>
//<any_alert_function_call>
if longE
alert(message = 'Long Entry', freq = alert.freq_once_per_bar_close)
if longTP1
alert(message = 'Long TP1', freq = alert.freq_once_per_bar)
if longTP2
alert(message = 'Long TP2', freq = alert.freq_once_per_bar)
if longTP3
alert(message = 'Long TP3', freq = alert.freq_once_per_bar)
if longSL
alert(message = 'Long SL', freq = alert.freq_once_per_bar)
if longX
alert(message = 'Long Exit', freq = alert.freq_once_per_bar_close)
if shortE
alert(message = 'Short Entry', freq = alert.freq_once_per_bar_close)
if shortTP1
alert(message = 'Short TP1', freq = alert.freq_once_per_bar)
if shortTP2
alert(message = 'Short TP2', freq = alert.freq_once_per_bar)
if shortTP3
alert(message = 'Short TP3', freq = alert.freq_once_per_bar)
if shortSL
alert(message = 'Short SL', freq = alert.freq_once_per_bar)
if shortX
alert(message = 'Short Exit', freq = alert.freq_once_per_bar_close)
//#endregion }
// ——————————— <↑↑↑ G_SCRIPT03 ↑↑↑>شرح اضافة المؤشر بالتريدنق فيو
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