NYTC Toolkit 1NYTC Toolkit 1 is a collection of optional chart-display features.
It does not generate buy or sell signals and does not evaluate or predict market performance.
Its purpose is strictly to present user-selected visual references on the chart.
Included Display Features
Multi-Timeframe Trend Table
Shows trend conditions calculated by the script across multiple timeframes.
This table is informational only and allows users to view the displayed values without switching charts.
Pin Bar & Reversal Bar Markers
Marks candles that meet user-defined criteria such as wick size, body percentage, or ATR-based measurements.
Optional temporary boxes can be displayed around these candle types as visual references.
These boxes extend until conditions set by the user no longer apply.
RSI-Based Background Shading (Optional)
Adds optional background shading when RSI reaches user-selected threshold levels.
This is a visual aid only and does not represent trading signals.
Purpose
NYTC Toolkit 1 is intended to:
Display user-selected chart information
Present optional candle-based visual markers
Consolidate multi-timeframe values in one view
Provide customizable reference elements on the chart
Support chart organization through visual aids
Important Notes
This script does not provide trading signals.
It does not guarantee, evaluate, or imply performance.
It is intended solely for chart visualization and reference.
All trading decisions should be made independently by the user.
Grafik Desenleri
9:00-9:59 NY Range -> 10:00-11:00 Lines (v6)//@version=6
indicator("9:00-9:59 NY Range -> 10:00-11:00 Lines (v6)", overlay=true, max_lines_count=500)
// --- state vars ---
var float sessionHigh = na
var float sessionLow = na
var line hiLine = na
var line loLine = na
var line v10 = na
var line v11 = na
// --- New York time ---
t_ny = time("America/New_York")
hr = hour(t_ny)
mn = minute(t_ny)
// --- reset / clear at 16:00 (4 PM NY) ---
if hr == 16 and mn == 0
sessionHigh := na
sessionLow := na
if not na(hiLine)
line.delete(hiLine)
hiLine := na
if not na(loLine)
line.delete(loLine)
loLine := na
if not na(v10)
line.delete(v10)
v10 := na
if not na(v11)
line.delete(v11)
v11 := na
// --- accumulate 9:00 - 9:59 NY range ---
if hr == 9
if mn == 0
sessionHigh := high
sessionLow := low
else
sessionHigh := na(sessionHigh) ? high : math.max(sessionHigh, high)
sessionLow := na(sessionLow) ? low : math.min(sessionLow, low)
// --- at 10:00 NY: draw horizontal lines (start) and vertical dashed at 10:00 ---
if hr == 10 and mn == 0
// delete previous day's horizontal lines if any
if not na(hiLine)
line.delete(hiLine)
hiLine := na
if not na(loLine)
line.delete(loLine)
loLine := na
hiLine := line.new(bar_index, sessionHigh, bar_index, sessionHigh, color=color.red, width=1, extend=extend.none)
loLine := line.new(bar_index, sessionLow, bar_index, sessionLow, color=color.red, width=1, extend=extend.none)
if not na(v10)
line.delete(v10)
v10 := na
v10 := line.new(bar_index, low, bar_index, high, color=color.red, width=1, style=line.style_dashed)
// --- at 11:00 NY: draw vertical dashed at 11:00 ---
if hr == 11 and mn == 0
if not na(v11)
line.delete(v11)
v11 := na
v11 := line.new(bar_index, low, bar_index, high, color=color.red, width=1, style=line.style_dashed)
// --- extend the horizontal lines forward every bar, but only until 11:00 ---
if hr < 11
if not na(hiLine)
line.set_x2(hiLine, bar_index)
if not na(loLine)
line.set_x2(loLine, bar_index)
// --- required output so script compiles (hidden) ---
plot(na)
30m Hollow Candle on 5m - SSThis indicator overlays 30-minute candles on a 5-minute chart using clean, hollow-style higher-timeframe (HTF) candles.
The design keeps your chart readable while giving you full insight into the 30m structure that drives intraday price movements.
Each 30-minute candle is drawn as a transparent, hollow outline, so your 5-minute candles remain perfectly visible. The indicator preserves all candle characteristics:
Wicks (high & low)
Open/close levels
Color-coded direction (green = bullish, red = bearish)
Invisible body to avoid overlapping or chart clutter
This tool allows intraday traders to track 30m market structure without constantly switching timeframes.
1h Hollow Candle on 5m - SSThis indicator displays 1-hour candles on a 5-minute chart using a clean, minimal visual style designed for intraday traders who want to track higher-timeframe structure without cluttering the chart.
The higher-timeframe (HTF) candles are drawn as hollow outlines, which makes them easy to read while keeping the underlying 5-minute price action fully visible. Each 1-hour candle includes:
Wicks (high & low)
Open/close borders
Color-coded direction (green = bullish, red = bearish)
Transparent body so they never block real candles
This is ideal for traders who want to:
Identify HTF structure during scalping
Spot key reversals inside hourly candles
Track premium/discount zones relative to each 1h candle
Improve top-down analysis without switching timeframes
9/15 EMA Scalper 9/15 EMA Scalper — by uzairbaloch
This script is a price-action based scalping system built around the 9 EMA and 15 EMA trend structure.
It identifies short-term reversal points where the market pulls back into the EMAs and confirms direction with a strong candle signal.
The strategy looks for:
• A clear EMA trend (9 above 15 for buys, 9 below 15 for sells)
• Pullback into EMA9/EMA15 with candle bodies touching the fast EMA
• Strong confirmation candle (engulfing / strong momentum / controlled wick)
• Optional slope filter to avoid flat, choppy sessions
• Automatic trade labels showing Entry, SL and TP (based on R:R)
The script is designed for scalping on gold, indices, and high-volatility FX pairs.
It resets trade logic immediately after SL or TP is hit, so it can catch the next valid signal without delay.
This tool is meant as an indicator — not a full strategy — and can be used to visually mark high-probability EMA pullback setups with precise levels.
Author: uzairbaloch
Advanced Elliott Wave PlotterAdvanced Elliott Wave plotter, Parameters can be adjusted.
AI Generated, so no particular credits to anyone.
KM V.1There will be an up arrow signal if the graph is up, and a down arrow signal if the graph is down.
Forward Returns – (Next Month Start)This indicator calculates 1-month, 3-month, 6-month, and 12-month forward returns starting from the first trading day of the month following a defined price event.
A price event occurs when the selected asset drops below a user-defined threshold over a chosen timeframe (Day, Week, or Month).
For monthly conditions, the script evaluates the entire performance of the previous calendar month and triggers the event only at the first trading session of the next month, ensuring accurate forward-return alignment with historical monthly cycles.
The forward returns for each detected event are displayed in a paginated performance table, allowing users to navigate through large datasets using a page selector. Each page includes:
Entry Date
Forward returns (1M, 3M, 6M, 12M)
Average forward return
Win rate (percentage of positive outcomes)
This tool is useful for studying historical performance after major drawdowns, identifying seasonal patterns, and building evidence-based risk-management or timing models.
AI Signals: Blue-Chip Dip Scanner//@version=5
indicator("AI Signals: Blue-Chip Dip Scanner", overlay=true)
//-------------------------//
// SETTINGS //
//-------------------------//
lengthRSI = input.int(14, "RSI Length")
rsiOversold = input.int(30, "RSI Oversold")
rsiOverbought = input.int(70, "RSI Overbought")
//-------------------------//
// CALCULATIONS //
//-------------------------//
rsi = ta.rsi(close, lengthRSI)
ema50 = ta.ema(close, 50)
ema200 = ta.ema(close, 200)
//-------------------------//
// CONDITIONS //
//-------------------------//
dip = ta.crossunder(close, ema50) and rsi < rsiOversold
//-------------------------//
// SIGNALS //
//-------------------------//
buySignal = dip
plotshape(buySignal, title="Buy Dip", style=shape.labelup,
color=color.green, text="BUY", size=size.small, location=location.belowbar)
//-------------------------//
// ALERTS //
//-------------------------//
alert_msg = '{"symbol":"{{ticker}}","price":"{{close}}"}'
alertcondition(buySignal, title="AI Buy Dip Signal", message=alert_msg)
GT3_Trades Sessions Highs & LowsThis indicator automatically identifies and displays the session highs and lows for the three major global market sessions: Asia, London, and New York. It is designed for intraday traders who rely on session-based structure, liquidity levels, and volatility windows. The script dynamically tracks and plots the highest and lowest price reached during each session and extends these levels forward on the chart for strong visual clarity.
Key Features
Session-Based Highs & Lows
Calculates and updates the high and low for each session (Asia, London, New York) in real time as price develops within the session window.
Fully Customizable Display Options
Traders can individually toggle the visibility of each session’s high and low levels.
Line colors, styles (Solid, Dashed, Dotted), and thickness are also user-configurable.
Accurate Timezone Handling
Session times are defined using user-selected timezone settings (default UTC+3), ensuring session boundaries match the trader’s desired market timing.
Automatic Daily Reset
At the start of each new trading day, the indicator clears the previous levels and begins tracking fresh highs and lows for the new day.
Dynamic Line Drawing
Each level is plotted using real Pine Script line objects, which update automatically as new highs or lows form. Once created, each line extends forward to the right—providing clear, persistent references for potential liquidity zones, breakouts, and reversions.
Efficient Tracking Logic
The script keeps track of the bar index where each high/low occurs and updates the line endpoints in real time. Historical levels are not reused, ensuring clean, uncluttered visuals.
How It Helps Traders
Identifies liquidity pools and sweep areas based on session extremes.
Highlights intraday structure shifts when price breaks or respects session highs/lows.
Provides a clear overview of volatility cycles across the global trading day.
Helps detect potential reversal or continuation setups when interacting with session boundaries.
Ideal For
Intraday and scalping strategies
ICT-based session analysis
Liquidity, sweep, and FVG traders
Forex, indices, crypto, and commodities
Breakout Finder By Hitesh Somani(Aapkainvestments)Breakout Finder By Hitesh Somani(Aapkainvestments)
Welcome to one of the most powerful momentum reversal indicators designed specifically for traders looking to catch high-probability reversal signals with precision and confidence.
✅ This indicator gives high-probability SELL signals based on RSI momentum and Bollinger Band breakouts.
✅ It filters noise and avoids over-trading, focusing only on setups that meet high-conviction criteria with built-in back-to-back signal prevention.
✅ Works best on 5-minute and 15-minute timeframes in trending markets.
✅ Features dual-mode operation: RSI Confirmation mode for momentum validation or Pure Price Action mode for breakout detection.
✅ Automatically calculates Entry, Stop Loss, and Target levels with customizable Risk:Reward ratio (default 1:1.5).
Suggested Rules to Use This Indicator Effectively
Follow these rules and you'll see the accuracy improve significantly:
• Best trading hours: 9:30 AM to 2:30 PM – Avoid trades in the last hour of market
• Entry Strategy: Enter short when the low of the signal candle breaks on the next candle
• Stop Loss: Automatically set at the higher of signal candle high or previous candle high
• Target: Default 1:1.5 Risk:Reward ratio (customizable up to 1:10)
• Trail Stop Loss: After reaching 1:1 risk:reward, consider trailing your stop to lock in profits
• If a new signal comes while an earlier trade is running, the indicator automatically prevents back-to-back signals (shows blue circle for filtered signals)
• Use RSI Confirmation mode for higher accuracy in trending markets, or disable it for pure price action setups
• Monitor the Intelligence Dashboard for real-time RSI, Breakout status, Entry, SL, and Target levels
These simple rules, when followed with discipline, can help you extract consistent profits from momentum reversals and breakout pullback trades.
This isn't just another Indicator — it's built in-house by Hitesh Somani, tested on real price action, and trusted by the Aapka Investment community.
Disclaimer:
This content is purely for educational purposes.
We are not responsible for any financial profits or losses resulting from use of this tool or content.
PIPSTA - Sniper - ICT Advancedpipsta sniper is a multi-asset ict-inspired indicator designed for intraday traders who follow liquidity concepts, london sweeps, and new york kill zone execution. it works across nq/es futures, gold/xauusd, and forex pairs using adaptive logic and dynamic thresholds so the behaviour fits each market naturally. the focus is simple: track liquidity, identify sweeps, wait for the kill zone window, and trigger clean automated setups.
the indicator monitors asian, london, and pre-market sessions using new york time. it records each session’s high and low, updates them in real time, and draws them on the chart. these levels reset at the start of every trading day. london highs and lows are especially important: when price breaks past a london level by a defined threshold specific to the asset, the indicator marks it as a sweep. once a sweep occurs, the level label updates, colours change, and the info panel reflects the sweep status. this gives traders clear structure for liquidity bias.
the new york kill zone (9:35–9:55 am et) is highlighted on the chart. this is the only zone where trade signals are allowed. the indicator waits for price to show either a spike-fade reversal after a sweep or a momentum breakout after a sweep. spike-fade signals appear when price forms a short-term extreme and reverses at the close of the bar, while breakout signals appear when price breaks a recent 10-bar range with direction aligned to liquidity taken earlier in the morning. both require a prior london sweep to avoid random entries.
when a signal is triggered, the tool automatically sets up entry, stop, and target levels. the entry happens at the bar close. the target and stop distances adjust based on which asset you selected (futures, gold, forex). the script draws the entry line, take-profit line, stop line, and also places a marker showing buy or sell direction. a trade table appears on the bottom right of the chart showing the signal type, entry price, stop distance, target distance, and real-time risk-to-reward ratio. if alerts are enabled, the trader will receive notifications for entry, stop hit, target hit, and automatic exit at 10:00 am et.
the built-in info panel provides live trading context:
• asset type currently selected
• session status (asian, london, pre-market, ny open, kill zone, etc)
• london sweep status (high swept, low swept, or both)
• current new york time displayed in am/pm format
• active sweep threshold and target parameters
• next expected market event such as asian open, london open, pre-market, ny open, kill zone start, session exit, or rth close
this gives traders a structured, real-time look at the market environment so they always know where they are within the trading day.
recommended usage:
• ensure the correct asset type is selected
• wait for london sweeps to occur (high, low, or both)
• watch for setups only inside the kill zone between 9:35 and 9:55 am et
• use the provided entry, stop, and target levels or refine according to your own risk rules
• always close trades by 10:00 am et since the morning algorithmic behaviour tapers off
• keep position sizing reasonable and follow your own risk management
important notes:
• the script does not place trades for you; it only signals
• it is tuned for intraday behaviour in the new york morning session
• performance outside the kill zone is intentionally limited
• sweep detection uses simplified logic for reliability and speed
• signals work best when combined with your own higher-timeframe bias or personal confirmation
this indicator is ideal for traders who follow ict concepts, smart money models, liquidity sweeps, kill zone execution, and structured session trading. it provides clean visuals, automated signals, and a complete on-screen trade model, making it easy to follow institutional trading behaviour without overcomplicating the chart.
Bull & Bear Candle By Background ColorThe essential chart overlay for high-speed momentum confirmation.
This professional-grade Pine Script v5 indicator provides instant, unfiltered visual feedback on the market's immediate bias by coloring the chart background based on the short-term relationship between Close and Open. It’s designed to streamline decision-making and enhance trade conviction.
Why Traders Use This Tool
In dynamic markets, reading momentum rapidly is critical. This indicator removes visual clutter and cognitive lag.
Zero-Lag Momentum Filter: Instantly identifies if control belongs to buyers (Close > Open) or sellers (Close < Open). A sustained background color acts as a directional bias filter for all your setups.
Trade Confirmation & Conviction: Use the background color as a high-level confluence factor. Only execute Long trades when the background is Bullish and Short trades when it is Bearish. This drastically reduces counter-trend entries.
Risk Management Signal: The appearance of the Neutral/Doji Color flags market equilibrium and consolidation, often preceding a critical structural shift. This is your immediate signal to tighten stops or prepare for a potential reversal setup.
Dual Confirmation: The script offers a highly requested feature: Bar Coloring layered atop the background to provide a second, granular layer of visual context, making momentum shifts impossible to miss.
⚙️ Key Features & Settings Usage
All settings are optimized for clarity, using high transparency to prevent the indicator from obscuring underlying price action or other analytical tools.
🎨 Background Color Settings (Primary)
These controls allow you to define the market state you are reading:
1. Background: Bullish Color: Confirms short-term buying pressure (Close > Open). Set a distinct color for confirmed upward momentum.
2. Background: Bearish Color: Confirms short-term selling pressure (Close < Open). Set a high-contrast color for immediate recognition of downward pressure.
3. Background: Neutral/Doji Color: Signals market indecision (Close ≈ Open). Use as a caution flag, highlighting pivot points and ranging periods.
✨ Added Feature: Bar Coloring
4. FEATURE: Enable Bar Coloring: When enabled, the individual candles are colored with a lighter hue matching the background. This provides dual visual confirmation, maximizing impact on lower timeframes where momentum flips quickly.
🧭 How to Achieve Confluence
Entry Filter: Wait for the background color to flip to your desired direction, then seek your primary entry signal (e.g., breakout, pullback, or MACD cross).
Trade Hold: As long as the background color remains consistent, the short-term momentum is confirmed, justifying the continuation of your trade.
Exit Signal: A flip to the Neutral/Doji Color should be treated as a warning shot, signaling a mandatory review of your position and stops.
Disclaimer: This indicator is a powerful visual and confirmation tool and does not generate buy/sell signals on its own. It is designed to be used in conjunction with your established trading strategy and comprehensive risk management principles
Breakout Finder By Hitesh Somani(Aapkainvestments)Breakout Finder By Hitesh Somani(Aapkainvestments)
Welcome to one of the most powerful momentum reversal indicators designed specifically for traders looking to catch high-probability reversal signals with precision and confidence.
✅ This indicator gives high-probability SELL signals based on RSI momentum and Bollinger Band breakouts.
✅ It filters noise and avoids over-trading, focusing only on setups that meet high-conviction criteria with built-in back-to-back signal prevention.
✅ Works best on 5-minute and 15-minute timeframes in trending markets.
✅ Features dual-mode operation: RSI Confirmation mode for momentum validation or Pure Price Action mode for breakout detection.
✅ Automatically calculates Entry, Stop Loss, and Target levels with customizable Risk:Reward ratio (default 1:1.5).
Suggested Rules to Use This Indicator Effectively
Follow these rules and you'll see the accuracy improve significantly:
• Best trading hours: 9:30 AM to 2:30 PM – Avoid trades in the last hour of market
• Entry Strategy: Enter short when the low of the signal candle breaks on the next candle
• Stop Loss: Automatically set at the higher of signal candle high or previous candle high
• Target: Default 1:1.5 Risk:Reward ratio (customizable up to 1:10)
• Trail Stop Loss: After reaching 1:1 risk:reward, consider trailing your stop to lock in profits
• If a new signal comes while an earlier trade is running, the indicator automatically prevents back-to-back signals (shows blue circle for filtered signals)
• Use RSI Confirmation mode for higher accuracy in trending markets, or disable it for pure price action setups
• Monitor the Intelligence Dashboard for real-time RSI, Breakout status, Entry, SL, and Target levels
These simple rules, when followed with discipline, can help you extract consistent profits from momentum reversals and breakout pullback trades.
This isn't just another Indicator — it's built in-house by Hitesh Somani, tested on real price action, and trusted by the Aapka Investment community.
Disclaimer:
This content is purely for educational purposes.
We are not responsible for any financial profits or losses resulting from use of this tool or content.
Kripto Fema ind/ This Pine Script™ code is subject to the terms of the Mozilla Public License 2.0 at mozilla.org
// © Femayakup
//@version=5
indicator(title = "Kripto Fema ind", shorttitle="Kripto Fema ind", overlay=true, format=format.price, precision=2,max_lines_count = 500, max_labels_count = 500, max_bars_back=500)
showEma200 = input(true, title="EMA 200")
showPmax = input(true, title="Pmax")
showLinreg = input(true, title="Linreg")
showMavilim = input(true, title="Mavilim")
showNadaray = input(true, title="Nadaraya Watson")
ma(source, length, type) =>
switch type
"SMA" => ta.sma(source, length)
"EMA" => ta.ema(source, length)
"SMMA (RMA)" => ta.rma(source, length)
"WMA" => ta.wma(source, length)
"VWMA" => ta.vwma(source, length)
//Ema200
timeFrame = input.timeframe(defval = '240',title= 'EMA200 TimeFrame',group = 'EMA200 Settings')
len200 = input.int(200, minval=1, title="Length",group = 'EMA200 Settings')
src200 = input(close, title="Source",group = 'EMA200 Settings')
offset200 = input.int(title="Offset", defval=0, minval=-500, maxval=500,group = 'EMA200 Settings')
out200 = ta.ema(src200, len200)
higherTimeFrame = request.security(syminfo.tickerid,timeFrame,out200 ,barmerge.gaps_on,barmerge.lookahead_on)
ema200Plot = showEma200 ? higherTimeFrame : na
plot(ema200Plot, title="EMA200", offset=offset200)
//Linreq
group1 = "Linreg Settings"
lengthInput = input.int(100, title="Length", minval = 1, maxval = 5000,group = group1)
sourceInput = input.source(close, title="Source")
useUpperDevInput = input.bool(true, title="Upper Deviation", inline = "Upper Deviation", group = group1)
upperMultInput = input.float(2.0, title="", inline = "Upper Deviation", group = group1)
useLowerDevInput = input.bool(true, title="Lower Deviation", inline = "Lower Deviation", group = group1)
lowerMultInput = input.float(2.0, title="", inline = "Lower Deviation", group = group1)
group2 = "Linreg Display Settings"
showPearsonInput = input.bool(true, "Show Pearson's R", group = group2)
extendLeftInput = input.bool(false, "Extend Lines Left", group = group2)
extendRightInput = input.bool(true, "Extend Lines Right", group = group2)
extendStyle = switch
extendLeftInput and extendRightInput => extend.both
extendLeftInput => extend.left
extendRightInput => extend.right
=> extend.none
group3 = "Linreg Color Settings"
colorUpper = input.color(color.new(color.blue, 85), "Linreg Renk", inline = group3, group = group3)
colorLower = input.color(color.new(color.red, 85), "", inline = group3, group = group3)
calcSlope(source, length) =>
max_bars_back(source, 5000)
if not barstate.islast or length <= 1
else
sumX = 0.0
sumY = 0.0
sumXSqr = 0.0
sumXY = 0.0
for i = 0 to length - 1 by 1
val = source
per = i + 1.0
sumX += per
sumY += val
sumXSqr += per * per
sumXY += val * per
slope = (length * sumXY - sumX * sumY) / (length * sumXSqr - sumX * sumX)
average = sumY / length
intercept = average - slope * sumX / length + slope
= calcSlope(sourceInput, lengthInput)
startPrice = i + s * (lengthInput - 1)
endPrice = i
var line baseLine = na
if na(baseLine) and not na(startPrice) and showLinreg
baseLine := line.new(bar_index - lengthInput + 1, startPrice, bar_index, endPrice, width=1, extend=extendStyle, color=color.new(colorLower, 0))
else
line.set_xy1(baseLine, bar_index - lengthInput + 1, startPrice)
line.set_xy2(baseLine, bar_index, endPrice)
na
calcDev(source, length, slope, average, intercept) =>
upDev = 0.0
dnDev = 0.0
stdDevAcc = 0.0
dsxx = 0.0
dsyy = 0.0
dsxy = 0.0
periods = length - 1
daY = intercept + slope * periods / 2
val = intercept
for j = 0 to periods by 1
price = high - val
if price > upDev
upDev := price
price := val - low
if price > dnDev
dnDev := price
price := source
dxt = price - average
dyt = val - daY
price -= val
stdDevAcc += price * price
dsxx += dxt * dxt
dsyy += dyt * dyt
dsxy += dxt * dyt
val += slope
stdDev = math.sqrt(stdDevAcc / (periods == 0 ? 1 : periods))
pearsonR = dsxx == 0 or dsyy == 0 ? 0 : dsxy / math.sqrt(dsxx * dsyy)
= calcDev(sourceInput, lengthInput, s, a, i)
upperStartPrice = startPrice + (useUpperDevInput ? upperMultInput * stdDev : upDev)
upperEndPrice = endPrice + (useUpperDevInput ? upperMultInput * stdDev : upDev)
var line upper = na
lowerStartPrice = startPrice + (useLowerDevInput ? -lowerMultInput * stdDev : -dnDev)
lowerEndPrice = endPrice + (useLowerDevInput ? -lowerMultInput * stdDev : -dnDev)
var line lower = na
if na(upper) and not na(upperStartPrice) and showLinreg
upper := line.new(bar_index - lengthInput + 1, upperStartPrice, bar_index, upperEndPrice, width=1, extend=extendStyle, color=color.new(colorUpper, 0))
else
line.set_xy1(upper, bar_index - lengthInput + 1, upperStartPrice)
line.set_xy2(upper, bar_index, upperEndPrice)
na
if na(lower) and not na(lowerStartPrice) and showLinreg
lower := line.new(bar_index - lengthInput + 1, lowerStartPrice, bar_index, lowerEndPrice, width=1, extend=extendStyle, color=color.new(colorUpper, 0))
else
line.set_xy1(lower, bar_index - lengthInput + 1, lowerStartPrice)
line.set_xy2(lower, bar_index, lowerEndPrice)
na
showLinregPlotUpper = showLinreg ? upper : na
showLinregPlotLower = showLinreg ? lower : na
showLinregPlotBaseLine = showLinreg ? baseLine : na
linefill.new(showLinregPlotUpper, showLinregPlotBaseLine, color = colorUpper)
linefill.new(showLinregPlotBaseLine, showLinregPlotLower, color = colorLower)
// Pearson's R
var label r = na
label.delete(r )
if showPearsonInput and not na(pearsonR) and showLinreg
r := label.new(bar_index - lengthInput + 1, lowerStartPrice, str.tostring(pearsonR, "#.################"), color = color.new(color.white, 100), textcolor=color.new(colorUpper, 0), size=size.normal, style=label.style_label_up)
//Mavilim
group4 = "Mavilim Settings"
mavilimold = input(false, title="Show Previous Version of MavilimW?",group=group4)
fmal=input(3,"First Moving Average length",group = group4)
smal=input(5,"Second Moving Average length",group = group4)
tmal=fmal+smal
Fmal=smal+tmal
Ftmal=tmal+Fmal
Smal=Fmal+Ftmal
M1= ta.wma(close, fmal)
M2= ta.wma(M1, smal)
M3= ta.wma(M2, tmal)
M4= ta.wma(M3, Fmal)
M5= ta.wma(M4, Ftmal)
MAVW= ta.wma(M5, Smal)
col1= MAVW>MAVW
col3= MAVWpmaxsrc ? pmaxsrc-pmaxsrc : 0
vdd1=pmaxsrc
ma = 0.0
if mav == "SMA"
ma := ta.sma(pmaxsrc, length)
ma
if mav == "EMA"
ma := ta.ema(pmaxsrc, length)
ma
if mav == "WMA"
ma := ta.wma(pmaxsrc, length)
ma
if mav == "TMA"
ma := ta.sma(ta.sma(pmaxsrc, math.ceil(length / 2)), math.floor(length / 2) + 1)
ma
if mav == "VAR"
ma := VAR
ma
if mav == "WWMA"
ma := WWMA
ma
if mav == "ZLEMA"
ma := ZLEMA
ma
if mav == "TSF"
ma := TSF
ma
ma
MAvg=getMA(pmaxsrc, length)
longStop = Normalize ? MAvg - Multiplier*atr/close : MAvg - Multiplier*atr
longStopPrev = nz(longStop , longStop)
longStop := MAvg > longStopPrev ? math.max(longStop, longStopPrev) : longStop
shortStop = Normalize ? MAvg + Multiplier*atr/close : MAvg + Multiplier*atr
shortStopPrev = nz(shortStop , shortStop)
shortStop := MAvg < shortStopPrev ? math.min(shortStop, shortStopPrev) : shortStop
dir = 1
dir := nz(dir , dir)
dir := dir == -1 and MAvg > shortStopPrev ? 1 : dir == 1 and MAvg < longStopPrev ? -1 : dir
PMax = dir==1 ? longStop: shortStop
plot(showsupport ? MAvg : na, color=#fbff04, linewidth=2, title="EMA9")
pALL=plot(PMax, color=color.new(color.red, transp = 0), linewidth=2, title="PMax")
alertcondition(ta.cross(MAvg, PMax), title="Cross Alert", message="PMax - Moving Avg Crossing!")
alertcondition(ta.crossover(MAvg, PMax), title="Crossover Alarm", message="Moving Avg BUY SIGNAL!")
alertcondition(ta.crossunder(MAvg, PMax), title="Crossunder Alarm", message="Moving Avg SELL SIGNAL!")
alertcondition(ta.cross(pmaxsrc, PMax), title="Price Cross Alert", message="PMax - Price Crossing!")
alertcondition(ta.crossover(pmaxsrc, PMax), title="Price Crossover Alarm", message="PRICE OVER PMax - BUY SIGNAL!")
alertcondition(ta.crossunder(pmaxsrc, PMax), title="Price Crossunder Alarm", message="PRICE UNDER PMax - SELL SIGNAL!")
buySignalk = ta.crossover(MAvg, PMax)
plotshape(buySignalk and showsignalsk ? PMax*0.995 : na, title="Buy", text="Buy", location=location.absolute, style=shape.labelup, size=size.tiny, color=color.new(color.green, transp = 0), textcolor=color.white)
sellSignallk = ta.crossunder(MAvg, PMax)
plotshape(sellSignallk and showsignalsk ? PMax*1.005 : na, title="Sell", text="Sell", location=location.absolute, style=shape.labeldown, size=size.tiny, color=color.new(color.red, transp = 0), textcolor=color.white)
// buySignalc = ta.crossover(pmaxsrc, PMax)
// plotshape(buySignalc and showsignalsc ? PMax*0.995 : na, title="Buy", text="Buy", location=location.absolute, style=shape.labelup, size=size.tiny, color=#0F18BF, textcolor=color.white)
// sellSignallc = ta.crossunder(pmaxsrc, PMax)
// plotshape(sellSignallc and showsignalsc ? PMax*1.005 : na, title="Sell", text="Sell", location=location.absolute, style=shape.labeldown, size=size.tiny, color=#0F18BF, textcolor=color.white)
// mPlot = plot(ohlc4, title="", style=plot.style_circles, linewidth=0,display=display.none)
longFillColor = highlighting ? (MAvg>PMax ? color.new(color.green, transp = 90) : na) : na
shortFillColor = highlighting ? (MAvg math.exp(-(math.pow(x, 2)/(h * h * 2)))
//-----------------------------------------------------------------------------}
//Append lines
//-----------------------------------------------------------------------------{
n = bar_index
var ln = array.new_line(0)
if barstate.isfirst and repaint
for i = 0 to 499
array.push(ln,line.new(na,na,na,na))
//-----------------------------------------------------------------------------}
//End point method
//-----------------------------------------------------------------------------{
var coefs = array.new_float(0)
var den = 0.
if barstate.isfirst and not repaint
for i = 0 to 499
w = gauss(i, h)
coefs.push(w)
den := coefs.sum()
out = 0.
if not repaint
for i = 0 to 499
out += src * coefs.get(i)
out /= den
mae = ta.sma(math.abs(src - out), 499) * mult
upperN = out + mae
lowerN = out - mae
//-----------------------------------------------------------------------------}
//Compute and display NWE
//-----------------------------------------------------------------------------{
float y2 = na
float y1 = na
nwe = array.new(0)
if barstate.islast and repaint
sae = 0.
//Compute and set NWE point
for i = 0 to math.min(499,n - 1)
sum = 0.
sumw = 0.
//Compute weighted mean
for j = 0 to math.min(499,n - 1)
w = gauss(i - j, h)
sum += src * w
sumw += w
y2 := sum / sumw
sae += math.abs(src - y2)
nwe.push(y2)
sae := sae / math.min(499,n - 1) * mult
for i = 0 to math.min(499,n - 1)
if i%2 and showNadaray
line.new(n-i+1, y1 + sae, n-i, nwe.get(i) + sae, color = upCss)
line.new(n-i+1, y1 - sae, n-i, nwe.get(i) - sae, color = dnCss)
if src > nwe.get(i) + sae and src < nwe.get(i) + sae and showNadaray
label.new(n-i, src , '▼', color = color(na), style = label.style_label_down, textcolor = dnCss, textalign = text.align_center)
if src < nwe.get(i) - sae and src > nwe.get(i) - sae and showNadaray
label.new(n-i, src , '▲', color = color(na), style = label.style_label_up, textcolor = upCss, textalign = text.align_center)
y1 := nwe.get(i)
//-----------------------------------------------------------------------------}
//Dashboard
//-----------------------------------------------------------------------------{
var tb = table.new(position.top_right, 1, 1
, bgcolor = #1e222d
, border_color = #373a46
, border_width = 1
, frame_color = #373a46
, frame_width = 1)
if repaint
tb.cell(0, 0, 'Repainting Mode Enabled', text_color = color.white, text_size = size.small)
//-----------------------------------------------------------------------------}
//Plot
//-----------------------------------------------------------------------------}
// plot(repaint ? na : out + mae, 'Upper', upCss)
// plot(repaint ? na : out - mae, 'Lower', dnCss)
//Crossing Arrows
// plotshape(ta.crossunder(close, out - mae) ? low : na, "Crossunder", shape.labelup, location.absolute, color(na), 0 , text = '▲', textcolor = upCss, size = size.tiny)
// plotshape(ta.crossover(close, out + mae) ? high : na, "Crossover", shape.labeldown, location.absolute, color(na), 0 , text = '▼', textcolor = dnCss, size = size.tiny)
//-----------------------------------------------------------------------------}
//////////////////////////////////////////////////////////////////////////////////
enableD = input (true, "DIVERGANCE ON/OFF" , group="INDICATORS ON/OFF")
//DIVERGANCE
prd1 = input.int (defval=5 , title='PIVOT PERIOD' , minval=1, maxval=50 , group="DIVERGANCE")
source = input.string(defval='HIGH/LOW' , title='SOURCE FOR PIVOT POINTS' , options= , group="DIVERGANCE")
searchdiv = input.string(defval='REGULAR/HIDDEN', title='DIVERGANCE TYPE' , options= , group="DIVERGANCE")
showindis = input.string(defval='FULL' , title='SHOW INDICATORS NAME' , options= , group="DIVERGANCE")
showlimit = input.int(1 , title='MINIMUM NUMBER OF DIVERGANCES', minval=1, maxval=11 , group="DIVERGANCE")
maxpp = input.int (defval=20 , title='MAXIMUM PIVOT POINTS TO CHECK', minval=1, maxval=20 , group="DIVERGANCE")
maxbars = input.int (defval=200 , title='MAXIMUM BARS TO CHECK' , minval=30, maxval=200 , group="DIVERGANCE")
showlast = input (defval=false , title='SHOW ONLY LAST DIVERGANCE' , group="DIVERGANCE")
dontconfirm = input (defval=false , title="DON'T WAIT FOR CONFORMATION" , group="DIVERGANCE")
showlines = input (defval=false , title='SHOW DIVERGANCE LINES' , group="DIVERGANCE")
showpivot = input (defval=false , title='SHOW PIVOT POINTS' , group="DIVERGANCE")
calcmacd = input (defval=true , title='MACD' , group="DIVERGANCE")
calcmacda = input (defval=true , title='MACD HISTOGRAM' , group="DIVERGANCE")
calcrsi = input (defval=true , title='RSI' , group="DIVERGANCE")
calcstoc = input (defval=true , title='STOCHASTIC' , group="DIVERGANCE")
calccci = input (defval=true , title='CCI' , group="DIVERGANCE")
calcmom = input (defval=true , title='MOMENTUM' , group="DIVERGANCE")
calcobv = input (defval=true , title='OBV' , group="DIVERGANCE")
calcvwmacd = input (true , title='VWMACD' , group="DIVERGANCE")
calccmf = input (true , title='CHAIKIN MONEY FLOW' , group="DIVERGANCE")
calcmfi = input (true , title='MONEY FLOW INDEX' , group="DIVERGANCE")
calcext = input (false , title='CHECK EXTERNAL INDICATOR' , group="DIVERGANCE")
externalindi = input (defval=close , title='EXTERNAL INDICATOR' , group="DIVERGANCE")
pos_reg_div_col = input (defval=#ffffff , title='POSITIVE REGULAR DIVERGANCE' , group="DIVERGANCE")
neg_reg_div_col = input (defval=#00def6 , title='NEGATIVE REGULAR DIVERGANCE' , group="DIVERGANCE")
pos_hid_div_col = input (defval=#00ff0a , title='POSITIVE HIDDEN DIVERGANCE' , group="DIVERGANCE")
neg_hid_div_col = input (defval=#ff0015 , title='NEGATIVE HIDDEN DIVERGANCE' , group="DIVERGANCE")
reg_div_l_style_ = input.string(defval='SOLID' , title='REGULAR DIVERGANCE LINESTYLE' , options= , group="DIVERGANCE")
hid_div_l_style_ = input.string(defval='SOLID' , title='HIDDEN DIVERGANCE LINESTYLE' , options= , group="DIVERGANCE")
reg_div_l_width = input.int (defval=2 , title='REGULAR DIVERGANCE LINEWIDTH' , minval=1, maxval=5 , group="DIVERGANCE")
hid_div_l_width = input.int (defval=2 , title='HIDDEN DIVERGANCE LINEWIDTH' , minval=1, maxval=5 , group="DIVERGANCE")
showmas = input.bool (defval=false , title='SHOW MOVING AVERAGES (50 & 200)', inline='MA' , group="DIVERGANCE")
cma1col = input.color (defval=#ffffff , title='' , inline='MA' , group="DIVERGANCE")
cma2col = input.color (defval=#00def6 , title='' , inline='MA' , group="DIVERGANCE")
//PLOTS
plot(showmas ? ta.sma(close, 50) : na, color=showmas ? cma1col : na)
plot(showmas ? ta.sma(close, 200) : na, color=showmas ? cma2col : na)
var reg_div_l_style = reg_div_l_style_ == 'SOLID' ? line.style_solid : reg_div_l_style_ == 'DASHED' ? line.style_dashed : line.style_dotted
var hid_div_l_style = hid_div_l_style_ == 'SOLID' ? line.style_solid : hid_div_l_style_ == 'DASHED' ? line.style_dashed : line.style_dotted
rsi = ta.rsi(close, 14)
= ta.macd(close, 12, 26, 9)
moment = ta.mom(close, 10)
cci = ta.cci(close, 10)
Obv = ta.obv
stk = ta.sma(ta.stoch(close, high, low, 14), 3)
maFast = ta.vwma(close, 12)
maSlow = ta.vwma(close, 26)
vwmacd = maFast - maSlow
Cmfm = (close - low - (high - close)) / (high - low)
Cmfv = Cmfm * volume
cmf = ta.sma(Cmfv, 21) / ta.sma(volume, 21)
Mfi = ta.mfi(close, 14)
var indicators_name = array.new_string(11)
var div_colors = array.new_color(4)
if barstate.isfirst and enableD
array.set(indicators_name, 0, showindis == "DON'T SHOW" ? '' : '')
array.set(indicators_name, 1, showindis == "DON'T SHOW" ? '' : '')
array.set(indicators_name, 2, showindis == "DON'T SHOW" ? '' : '')
array.set(indicators_name, 3, showindis == "DON'T SHOW" ? '' : '')
array.set(indicators_name, 4, showindis == "DON'T SHOW" ? '' : '')
array.set(indicators_name, 5, showindis == "DON'T SHOW" ? '' : '')
array.set(indicators_name, 6, showindis == "DON'T SHOW" ? '' : '')
array.set(indicators_name, 7, showindis == "DON'T SHOW" ? '' : '')
array.set(indicators_name, 8, showindis == "DON'T SHOW" ? '' : '')
array.set(indicators_name, 9, showindis == "DON'T SHOW" ? '' : '')
array.set(indicators_name, 10, showindis == "DON'T SHOW" ? '' : '')
array.set(div_colors, 0, pos_reg_div_col)
array.set(div_colors, 1, neg_reg_div_col)
array.set(div_colors, 2, pos_hid_div_col)
array.set(div_colors, 3, neg_hid_div_col)
float ph1 = ta.pivothigh(source == 'CLOSE' ? close : high, prd1, prd1)
float pl1 = ta.pivotlow(source == 'CLOSE' ? close : low, prd1, prd1)
plotshape(ph1 and showpivot, text='H', style=shape.labeldown, color=color.new(color.white, 100), textcolor=#00def6, location=location.abovebar, offset=-prd1)
plotshape(pl1 and showpivot, text='L', style=shape.labelup, color=color.new(color.white, 100), textcolor=#ffffff, location=location.belowbar, offset=-prd1)
var int maxarraysize = 20
var ph_positions = array.new_int(maxarraysize, 0)
var pl_positions = array.new_int(maxarraysize, 0)
var ph_vals = array.new_float(maxarraysize, 0.)
var pl_vals = array.new_float(maxarraysize, 0.)
if ph1
array.unshift(ph_positions, bar_index)
array.unshift(ph_vals, ph1)
if array.size(ph_positions) > maxarraysize
array.pop(ph_positions)
array.pop(ph_vals)
if pl1
array.unshift(pl_positions, bar_index)
array.unshift(pl_vals, pl1)
if array.size(pl_positions) > maxarraysize
array.pop(pl_positions)
array.pop(pl_vals)
positive_regular_positive_hidden_divergence(src, cond) =>
divlen = 0
prsc = source == 'CLOSE' ? close : low
if dontconfirm or src > src or close > close
startpoint = dontconfirm ? 0 : 1
for x = 0 to maxpp - 1 by 1
len = bar_index - array.get(pl_positions, x) + prd1
if array.get(pl_positions, x) == 0 or len > maxbars
break
if len > 5 and (cond == 1 and src > src and prsc < nz(array.get(pl_vals, x)) or cond == 2 and src < src and prsc > nz(array.get(pl_vals, x)))
slope1 = (src - src ) / (len - startpoint)
virtual_line1 = src - slope1
slope2 = (close - close ) / (len - startpoint)
virtual_line2 = close - slope2
arrived = true
for y = 1 + startpoint to len - 1 by 1
if src < virtual_line1 or nz(close ) < virtual_line2
arrived := false
break
virtual_line1 -= slope1
virtual_line2 -= slope2
virtual_line2
if arrived
divlen := len
break
divlen
negative_regular_negative_hidden_divergence(src, cond) =>
divlen = 0
prsc = source == 'CLOSE' ? close : high
if dontconfirm or src < src or close < close
startpoint = dontconfirm ? 0 : 1
for x = 0 to maxpp - 1 by 1
len = bar_index - array.get(ph_positions, x) + prd1
if array.get(ph_positions, x) == 0 or len > maxbars
break
if len > 5 and (cond == 1 and src < src and prsc > nz(array.get(ph_vals, x)) or cond == 2 and src > src and prsc < nz(array.get(ph_vals, x)))
slope1 = (src - src ) / (len - startpoint)
virtual_line1 = src - slope1
slope2 = (close - nz(close )) / (len - startpoint)
virtual_line2 = close - slope2
arrived = true
for y = 1 + startpoint to len - 1 by 1
if src > virtual_line1 or nz(close ) > virtual_line2
arrived := false
break
virtual_line1 -= slope1
virtual_line2 -= slope2
virtual_line2
if arrived
divlen := len
break
divlen
//CALCULATIONS
calculate_divs(cond, indicator_1) =>
divs = array.new_int(4, 0)
array.set(divs, 0, cond and (searchdiv == 'REGULAR' or searchdiv == 'REGULAR/HIDDEN') ? positive_regular_positive_hidden_divergence(indicator_1, 1) : 0)
array.set(divs, 1, cond and (searchdiv == 'REGULAR' or searchdiv == 'REGULAR/HIDDEN') ? negative_regular_negative_hidden_divergence(indicator_1, 1) : 0)
array.set(divs, 2, cond and (searchdiv == 'HIDDEN' or searchdiv == 'REGULAR/HIDDEN') ? positive_regular_positive_hidden_divergence(indicator_1, 2) : 0)
array.set(divs, 3, cond and (searchdiv == 'HIDDEN' or searchdiv == 'REGULAR/HIDDEN') ? negative_regular_negative_hidden_divergence(indicator_1, 2) : 0)
divs
var all_divergences = array.new_int(44)
array_set_divs(div_pointer, index) =>
for x = 0 to 3 by 1
array.set(all_divergences, index * 4 + x, array.get(div_pointer, x))
array_set_divs(calculate_divs(calcmacd , macd) , 0)
array_set_divs(calculate_divs(calcmacda , deltamacd) , 1)
array_set_divs(calculate_divs(calcrsi , rsi) , 2)
array_set_divs(calculate_divs(calcstoc , stk) , 3)
array_set_divs(calculate_divs(calccci , cci) , 4)
array_set_divs(calculate_divs(calcmom , moment) , 5)
array_set_divs(calculate_divs(calcobv , Obv) , 6)
array_set_divs(calculate_divs(calcvwmacd, vwmacd) , 7)
array_set_divs(calculate_divs(calccmf , cmf) , 8)
array_set_divs(calculate_divs(calcmfi , Mfi) , 9)
array_set_divs(calculate_divs(calcext , externalindi), 10)
total_div = 0
for x = 0 to array.size(all_divergences) - 1 by 1
total_div += math.round(math.sign(array.get(all_divergences, x)))
total_div
if total_div < showlimit
array.fill(all_divergences, 0)
var pos_div_lines = array.new_line(0)
var neg_div_lines = array.new_line(0)
var pos_div_labels = array.new_label(0)
var neg_div_labels = array.new_label(0)
delete_old_pos_div_lines() =>
if array.size(pos_div_lines) > 0
for j = 0 to array.size(pos_div_lines) - 1 by 1
line.delete(array.get(pos_div_lines, j))
array.clear(pos_div_lines)
delete_old_neg_div_lines() =>
if array.size(neg_div_lines) > 0
for j = 0 to array.size(neg_div_lines) - 1 by 1
line.delete(array.get(neg_div_lines, j))
array.clear(neg_div_lines)
delete_old_pos_div_labels() =>
if array.size(pos_div_labels) > 0
for j = 0 to array.size(pos_div_labels) - 1 by 1
label.delete(array.get(pos_div_labels, j))
array.clear(pos_div_labels)
delete_old_neg_div_labels() =>
if array.size(neg_div_labels) > 0
for j = 0 to array.size(neg_div_labels) - 1 by 1
label.delete(array.get(neg_div_labels, j))
array.clear(neg_div_labels)
delete_last_pos_div_lines_label(n) =>
if n > 0 and array.size(pos_div_lines) >= n
asz = array.size(pos_div_lines)
for j = 1 to n by 1
line.delete(array.get(pos_div_lines, asz - j))
array.pop(pos_div_lines)
if array.size(pos_div_labels) > 0
label.delete(array.get(pos_div_labels, array.size(pos_div_labels) - 1))
array.pop(pos_div_labels)
delete_last_neg_div_lines_label(n) =>
if n > 0 and array.size(neg_div_lines) >= n
asz = array.size(neg_div_lines)
for j = 1 to n by 1
line.delete(array.get(neg_div_lines, asz - j))
array.pop(neg_div_lines)
if array.size(neg_div_labels) > 0
label.delete(array.get(neg_div_labels, array.size(neg_div_labels) - 1))
array.pop(neg_div_labels)
pos_reg_div_detected = false
neg_reg_div_detected = false
pos_hid_div_detected = false
neg_hid_div_detected = false
var last_pos_div_lines = 0
var last_neg_div_lines = 0
var remove_last_pos_divs = false
var remove_last_neg_divs = false
if pl1
remove_last_pos_divs := false
last_pos_div_lines := 0
last_pos_div_lines
if ph1
remove_last_neg_divs := false
last_neg_div_lines := 0
last_neg_div_lines
divergence_text_top = ''
divergence_text_bottom = ''
distances = array.new_int(0)
dnumdiv_top = 0
dnumdiv_bottom = 0
top_label_col = color.white
bottom_label_col = color.white
old_pos_divs_can_be_removed = true
old_neg_divs_can_be_removed = true
startpoint = dontconfirm ? 0 : 1
for x = 0 to 10 by 1
div_type = -1
for y = 0 to 3 by 1
if array.get(all_divergences, x * 4 + y) > 0
div_type := y
if y % 2 == 1
dnumdiv_top += 1
top_label_col := array.get(div_colors, y)
top_label_col
if y % 2 == 0
dnumdiv_bottom += 1
bottom_label_col := array.get(div_colors, y)
bottom_label_col
if not array.includes(distances, array.get(all_divergences, x * 4 + y))
array.push(distances, array.get(all_divergences, x * 4 + y))
new_line = showlines ? line.new(x1=bar_index - array.get(all_divergences, x * 4 + y), y1=source == 'CLOSE' ? close : y % 2 == 0 ? low : high , x2=bar_index - startpoint, y2=source == 'CLOSE' ? close : y % 2 == 0 ? low : high , color=array.get(div_colors, y), style=y < 2 ? reg_div_l_style : hid_div_l_style, width=y < 2 ? reg_div_l_width : hid_div_l_width) : na
if y % 2 == 0
if old_pos_divs_can_be_removed
old_pos_divs_can_be_removed := false
if not showlast and remove_last_pos_divs
delete_last_pos_div_lines_label(last_pos_div_lines)
last_pos_div_lines := 0
last_pos_div_lines
if showlast
delete_old_pos_div_lines()
array.push(pos_div_lines, new_line)
last_pos_div_lines += 1
remove_last_pos_divs := true
remove_last_pos_divs
if y % 2 == 1
if old_neg_divs_can_be_removed
old_neg_divs_can_be_removed := false
if not showlast and remove_last_neg_divs
delete_last_neg_div_lines_label(last_neg_div_lines)
last_neg_div_lines := 0
last_neg_div_lines
if showlast
delete_old_neg_div_lines()
array.push(neg_div_lines, new_line)
last_neg_div_lines += 1
remove_last_neg_divs := true
remove_last_neg_divs
if y == 0
pos_reg_div_detected := true
pos_reg_div_detected
if y == 1
neg_reg_div_detected := true
neg_reg_div_detected
if y == 2
pos_hid_div_detected := true
pos_hid_div_detected
if y == 3
neg_hid_div_detected := true
neg_hid_div_detected
if div_type >= 0
divergence_text_top += (div_type % 2 == 1 ? showindis != "DON'T SHOW" ? array.get(indicators_name, x) + ' ' : '' : '')
divergence_text_bottom += (div_type % 2 == 0 ? showindis != "DON'T SHOW" ? array.get(indicators_name, x) + ' ' : '' : '')
divergence_text_bottom
if showindis != "DON'T SHOW"
if dnumdiv_top > 0
divergence_text_top += str.tostring(dnumdiv_top)
divergence_text_top
if dnumdiv_bottom > 0
divergence_text_bottom += str.tostring(dnumdiv_bottom)
divergence_text_bottom
if divergence_text_top != ''
if showlast
delete_old_neg_div_labels()
array.push(neg_div_labels, label.new(x=bar_index, y=math.max(high, high ), color=top_label_col, style=label.style_diamond, size = size.auto))
if divergence_text_bottom != ''
if showlast
delete_old_pos_div_labels()
array.push(pos_div_labels, label.new(x=bar_index, y=math.min(low, low ), color=bottom_label_col, style=label.style_diamond, size = size.auto))
// POSITION AND SIZE
PosTable = input.string(defval="Bottom Right", title="Position", options= , group="Table Location & Size", inline="1")
SizTable = input.string(defval="Auto", title="Size", options= , group="Table Location & Size", inline="1")
Pos1Table = PosTable == "Top Right" ? position.top_right : PosTable == "Middle Right" ? position.middle_right : PosTable == "Bottom Right" ? position.bottom_right : PosTable == "Top Center" ? position.top_center : PosTable == "Middle Center" ? position.middle_center : PosTable == "Bottom Center" ? position.bottom_center : PosTable == "Top Left" ? position.top_left : PosTable == "Middle Left" ? position.middle_left : position.bottom_left
Siz1Table = SizTable == "Auto" ? size.auto : SizTable == "Huge" ? size.huge : SizTable == "Large" ? size.large : SizTable == "Normal" ? size.normal : SizTable == "Small" ? size.small : size.tiny
tbl = table.new(Pos1Table, 21, 16, border_width = 1, border_color = color.gray, frame_color = color.gray, frame_width = 1)
// Kullanıcı tarafından belirlenecek yeşil ve kırmızı zaman dilimi sayısı
greenThreshold = input.int(5, minval=1, maxval=10, title="Yeşil Zaman Dilimi Sayısı", group="Alarm Ayarları")
redThreshold = input.int(5, minval=1, maxval=10, title="Kırmızı Zaman Dilimi Sayısı", group="Alarm Ayarları")
// TIMEFRAMES OPTIONS
box01 = input.bool(true, "TF ", inline = "01", group="Select Timeframe")
tf01 = input.timeframe("1", "", inline = "01", group="Select Timeframe")
box02 = input.bool(false, "TF ", inline = "02", group="Select Timeframe")
tf02 = input.timeframe("3", "", inline = "02", group="Select Timeframe")
box03 = input.bool(true, "TF ", inline = "03", group="Select Timeframe")
tf03 = input.timeframe("5", "", inline = "03", group="Select Timeframe")
box04 = input.bool(true, "TF ", inline = "04", group="Select Timeframe")
tf04 = input.timeframe("15", "", inline = "04", group="Select Timeframe")
box05 = input.bool(false, "TF ", inline = "05", group="Select Timeframe")
tf05 = input.timeframe("30", "", inline = "05", group="Select Timeframe")
box06 = input.bool(true, "TF ", inline = "01", group="Select Timeframe")
tf06 = input.timeframe("60", "", inline = "01", group="Select Timeframe")
box07 = input.bool(false, "TF ", inline = "02", group="Select Timeframe")
tf07 = input.timeframe("120", "", inline = "02", group="Select Timeframe")
box08 = input.bool(false, "TF ", inline = "03", group="Select Timeframe")
tf08 = input.timeframe("180", "", inline = "03", group="Select Timeframe")
box09 = input.bool(true, "TF ", inline = "04", group="Select Timeframe")
tf09 = input.timeframe("240", "", inline = "04", group="Select Timeframe")
box10 = input.bool(false, "TF ", inline = "05", group="Select Timeframe")
tf10 = input.timeframe("D", "", inline = "05", group="Select Timeframe")
// indicator('Tillson FEMA', overlay=true)
length1 = input(1, 'FEMA Length')
a1 = input(0.7, 'Volume Factor')
e1 = ta.ema((high + low + 2 * close) / 4, length1)
e2 = ta.ema(e1, length1)
e3 = ta.ema(e2, length1)
e4 = ta.ema(e3, length1)
e5 = ta.ema(e4, length1)
e6 = ta.ema(e5, length1)
c1 = -a1 * a1 * a1
c2 = 3 * a1 * a1 + 3 * a1 * a1 * a1
c3 = -6 * a1 * a1 - 3 * a1 - 3 * a1 * a1 * a1
c4 = 1 + 3 * a1 + a1 * a1 * a1 + 3 * a1 * a1
FEMA = c1 * e6 + c2 * e5 + c3 * e4 + c4 * e3
tablocol1 = FEMA > FEMA
tablocol3 = FEMA < FEMA
color_1 = col1 ? color.rgb(149, 219, 35): col3 ? color.rgb(238, 11, 11) : color.yellow
plot(FEMA, color=color_1, linewidth=3, title='FEMA')
tilson1 = FEMA
tilson1a =FEMA
// DEFINITION OF VALUES
symbol = ticker.modify(syminfo.tickerid, syminfo.session)
tfArr = array.new(na)
tilson1Arr = array.new(na)
tilson1aArr = array.new(na)
// DEFINITIONS OF RSI & CCI FUNCTIONS APPENDED IN THE TIMEFRAME OPTIONS
cciNcciFun(tf, flg) =>
= request.security(symbol, tf, )
if flg and (barstate.isrealtime ? true : timeframe.in_seconds(timeframe.period) <= timeframe.in_seconds(tf))
array.push(tfArr, na(tf) ? timeframe.period : tf)
array.push(tilson1Arr, tilson_)
array.push(tilson1aArr, tilson1a_)
cciNcciFun(tf01, box01), cciNcciFun(tf02, box02), cciNcciFun(tf03, box03), cciNcciFun(tf04, box04),
cciNcciFun(tf05, box05), cciNcciFun(tf06, box06), cciNcciFun(tf07, box07), cciNcciFun(tf08, box08),
cciNcciFun(tf09, box09), cciNcciFun(tf10, box10)
// TABLE AND CELLS CONFIG
// Post Timeframe in format
tfTxt(x)=>
out = x
if not str.contains(x, "S") and not str.contains(x, "M") and
not str.contains(x, "W") and not str.contains(x, "D")
if str.tonumber(x)%60 == 0
out := str.tostring(str.tonumber(x)/60)+"H"
else
out := x + "m"
out
if barstate.islast
table.clear(tbl, 0, 0, 20, 15)
// TITLES
table.cell(tbl, 0, 0, "⏱", text_color=color.white, text_size=Siz1Table, bgcolor=#000000)
table.cell(tbl, 1, 0, "FEMA("+str.tostring(length1)+")", text_color=#FFFFFF, text_size=Siz1Table, bgcolor=#000000)
j = 1
greenCounter = 0 // Yeşil zaman dilimlerini saymak için bir sayaç
redCounter = 0
if array.size(tilson1Arr) > 0
for i = 0 to array.size(tilson1Arr) - 1
if not na(array.get(tilson1Arr, i))
//config values in the cells
TF_VALUE = array.get(tfArr,i)
tilson1VALUE = array.get(tilson1Arr, i)
tilson1aVALUE = array.get(tilson1aArr, i)
SIGNAL1 = tilson1VALUE >= tilson1aVALUE ? "▲" : tilson1VALUE <= tilson1aVALUE ? "▼" : na
// Yeşil oklar ve arka planı ayarla
greenArrowColor1 = SIGNAL1 == "▲" ? color.rgb(0, 255, 0) : color.rgb(255, 0, 0)
greenBgColor1 = SIGNAL1 == "▲" ? color.rgb(25, 70, 22) : color.rgb(93, 22, 22)
allGreen = tilson1VALUE >= tilson1aVALUE
allRed = tilson1VALUE <= tilson1aVALUE
// Determine background color for time text
timeBgColor = allGreen ? #194616 : (allRed ? #5D1616 : #000000)
txtColor = allGreen ? #00FF00 : (allRed ? #FF4500 : color.white)
if allGreen
greenCounter := greenCounter + 1
redCounter := 0
else if allRed
redCounter := redCounter + 1
greenCounter := 0
else
redCounter := 0
greenCounter := 0
// Dinamik pair değerini oluşturma
pair = "USDT_" + syminfo.basecurrency + "USDT"
// Bot ID için kullanıcı girişi
bot_id = input.int(12387976, title="Bot ID", minval=0,group ='3Comas Message', inline = '1') // Varsayılan değeri 12387976 olan bir tamsayı girişi alır
// E-posta tokenı için kullanıcı girişi
email_token = input("cd4111d4-549a-4759-a082-e8f45c91fa47", title="Email Token",group ='3Comas Message', inline = '1')
// USER INPUT FOR DELAY
delay_seconds = input.int(0, title="Delay Seconds", minval=0, maxval=86400,group ='3Comas Message', inline = '1')
// Dinamik mesajın oluşturulması
message = '{ "message_type": "bot", "bot_id": ' + str.tostring(bot_id) + ', "email_token": "' + email_token + '", "delay_seconds": ' + str.tostring(delay_seconds) + ', "pair": "' + pair + '"}'
// Kullanıcının belirlediği yeşil veya kırmızı zaman dilimi sayısına ulaşıldığında alarmı tetikle
if greenCounter >= greenThreshold
alert(message, alert.freq_once_per_bar_close)
// if redCounter >= redThreshold
// alert(message, alert.freq_once_per_bar_close)
// Kullanıcının belirlediği yeşil veya kırmızı zaman dilimi sayısına ulaşıldığında alarmı tetikle
// if greenCounter >= greenThreshold
// alert("Yeşil zaman dilimi sayısı " + str.tostring(greenThreshold) + " adede ulaştı", alert.freq_once_per_bar_close)
// if redCounter >= redThreshold
// alert("Kırmızı zaman dilimi sayısı " + str.tostring(redThreshold) + " adede ulaştı", alert.freq_once_per_bar_close)
table.cell(tbl, 0, j, tfTxt(TF_VALUE), text_color=txtColor, text_halign=text.align_left, text_size=Siz1Table, bgcolor=timeBgColor)
table.cell(tbl, 1, j, str.tostring(tilson1VALUE, "#.#######")+SIGNAL1, text_color=greenArrowColor1, text_halign=text.align_right, text_size=Siz1Table, bgcolor=greenBgColor1)
j += 1
prd = input.int(defval=10, title='Pivot Period', minval=4, maxval=30, group='Setup')
ppsrc = input.string(defval='High/Low', title='Source', options= , group='Setup')
maxnumpp = input.int(defval=20, title=' Maximum Number of Pivot', minval=5, maxval=100, group='Setup')
ChannelW = input.int(defval=10, title='Maximum Channel Width %', minval=1, group='Setup')
maxnumsr = input.int(defval=5, title=' Maximum Number of S/R', minval=1, maxval=10, group='Setup')
min_strength = input.int(defval=2, title=' Minimum Strength', minval=1, maxval=10, group='Setup')
labelloc = input.int(defval=20, title='Label Location', group='Colors', tooltip='Positive numbers reference future bars, negative numbers reference histical bars')
linestyle = input.string(defval='Dashed', title='Line Style', options= , group='Colors')
linewidth = input.int(defval=2, title='Line Width', minval=1, maxval=4, group='Colors')
resistancecolor = input.color(defval=color.red, title='Resistance Color', group='Colors')
supportcolor = input.color(defval=color.lime, title='Support Color', group='Colors')
showpp = input(false, title='Show Point Points')
float src1 = ppsrc == 'High/Low' ? high : math.max(close, open)
float src2 = ppsrc == 'High/Low' ? low : math.min(close, open)
float ph = ta.pivothigh(src1, prd, prd)
float pl = ta.pivotlow(src2, prd, prd)
plotshape(ph and showpp, text='H', style=shape.labeldown, color=na, textcolor=color.new(color.red, 0), location=location.abovebar, offset=-prd)
plotshape(pl and showpp, text='L', style=shape.labelup, color=na, textcolor=color.new(color.lime, 0), location=location.belowbar, offset=-prd)
Lstyle = linestyle == 'Dashed' ? line.style_dashed : linestyle == 'Solid' ? line.style_solid : line.style_dotted
//calculate maximum S/R channel zone width
prdhighest = ta.highest(300)
prdlowest = ta.lowest(300)
cwidth = (prdhighest - prdlowest) * ChannelW / 100
var pivotvals = array.new_float(0)
if ph or pl
array.unshift(pivotvals, ph ? ph : pl)
if array.size(pivotvals) > maxnumpp // limit the array size
array.pop(pivotvals)
get_sr_vals(ind) =>
float lo = array.get(pivotvals, ind)
float hi = lo
int numpp = 0
for y = 0 to array.size(pivotvals) - 1 by 1
float cpp = array.get(pivotvals, y)
float wdth = cpp <= lo ? hi - cpp : cpp - lo
if wdth <= cwidth // fits the max channel width?
if cpp <= hi
lo := math.min(lo, cpp)
else
hi := math.max(hi, cpp)
numpp += 1
numpp
var sr_up_level = array.new_float(0)
var sr_dn_level = array.new_float(0)
sr_strength = array.new_float(0)
find_loc(strength) =>
ret = array.size(sr_strength)
for i = ret > 0 ? array.size(sr_strength) - 1 : na to 0 by 1
if strength <= array.get(sr_strength, i)
break
ret := i
ret
ret
check_sr(hi, lo, strength) =>
ret = true
for i = 0 to array.size(sr_up_level) > 0 ? array.size(sr_up_level) - 1 : na by 1
//included?
if array.get(sr_up_level, i) >= lo and array.get(sr_up_level, i) <= hi or array.get(sr_dn_level, i) >= lo and array.get(sr_dn_level, i) <= hi
if strength >= array.get(sr_strength, i)
array.remove(sr_strength, i)
array.remove(sr_up_level, i)
array.remove(sr_dn_level, i)
ret
else
ret := false
ret
break
ret
var sr_lines = array.new_line(11, na)
var sr_labels = array.new_label(11, na)
for x = 1 to 10 by 1
rate = 100 * (label.get_y(array.get(sr_labels, x)) - close) / close
label.set_text(array.get(sr_labels, x), text=str.tostring(label.get_y(array.get(sr_labels, x))) + '(' + str.tostring(rate, '#.##') + '%)')
label.set_x(array.get(sr_labels, x), x=bar_index + labelloc)
label.set_color(array.get(sr_labels, x), color=label.get_y(array.get(sr_labels, x)) >= close ? color.red : color.lime)
label.set_textcolor(array.get(sr_labels, x), textcolor=label.get_y(array.get(sr_labels, x)) >= close ? color.white : color.black)
label.set_style(array.get(sr_labels, x), style=label.get_y(array.get(sr_labels, x)) >= close ? label.style_label_down : label.style_label_up)
line.set_color(array.get(sr_lines, x), color=line.get_y1(array.get(sr_lines, x)) >= close ? resistancecolor : supportcolor)
if ph or pl
//because of new calculation, remove old S/R levels
array.clear(sr_up_level)
array.clear(sr_dn_level)
array.clear(sr_strength)
//find S/R zones
for x = 0 to array.size(pivotvals) - 1 by 1
= get_sr_vals(x)
if check_sr(hi, lo, strength)
loc = find_loc(strength)
// if strength is in first maxnumsr sr then insert it to the arrays
if loc < maxnumsr and strength >= min_strength
array.insert(sr_strength, loc, strength)
array.insert(sr_up_level, loc, hi)
array.insert(sr_dn_level, loc, lo)
// keep size of the arrays = 5
if array.size(sr_strength) > maxnumsr
array.pop(sr_strength)
array.pop(sr_up_level)
array.pop(sr_dn_level)
for x = 1 to 10 by 1
line.delete(array.get(sr_lines, x))
label.delete(array.get(sr_labels, x))
for x = 0 to array.size(sr_up_level) > 0 ? array.size(sr_up_level) - 1 : na by 1
float mid = math.round_to_mintick((array.get(sr_up_level, x) + array.get(sr_dn_level, x)) / 2)
rate = 100 * (mid - close) / close
array.set(sr_labels, x + 1, label.new(x=bar_index + labelloc, y=mid, text=str.tostring(mid) + '(' + str.tostring(rate, '#.##') + '%)', color=mid >= close ? color.red : color.lime, textcolor=mid >= close ? color.white : color.black, style=mid >= close ? label.style_label_down : label.style_label_up))
array.set(sr_lines, x + 1, line.new(x1=bar_index, y1=mid, x2=bar_index - 1, y2=mid, extend=extend.both, color=mid >= close ? resistancecolor : supportcolor, style=Lstyle, width=linewidth))
f_crossed_over() =>
ret = false
for x = 0 to array.size(sr_up_level) > 0 ? array.size(sr_up_level) - 1 : na by 1
float mid = math.round_to_mintick((array.get(sr_up_level, x) + array.get(sr_dn_level, x)) / 2)
if close <= mid and close > mid
ret := true
ret
ret
f_crossed_under() =>
ret = false
for x = 0 to array.size(sr_up_level) > 0 ? array.size(sr_up_level) - 1 : na by 1
float mid = math.round_to_mintick((array.get(sr_up_level, x) + array.get(sr_dn_level, x)) / 2)
if close >= mid and close < mid
ret := true
ret
ret
alertcondition(f_crossed_over(), title='Resistance Broken', message='Resistance Broken')
alertcondition(f_crossed_under(), title='Support Broken', message='Support Broken')
Candle Range Theory - Higher-Timeframe ScannerThe CRT Range Scanner is a sophisticated trading tool that identifies potential Candle Range Theory (CRT) completions across multiple timeframes. Based on the Inner Circle Trader methodology, this indicator helps traders spot key market structure breaks and range expansions.
Key Features:
🔍 Higher-Timeframe Analysis: Automatically detects CRT patterns on higher timeframes while you trade on lower timeframes
🎯 Bullish & Bearish CRT Signals: Identifies both bullish (range expansion to downside) and bearish (range expansion to upside) completions
⏰ Kill Zone Filtering: Customizable trading sessions to focus only on high-probability market hours
📊 Visual Range Boxes: Clear visual representation of current and previous higher timeframe ranges
🏷️ Smart Labeling: Timeframe-specific labels for easy pattern recognition
How It Works:
Bullish CRT: Occurs when price breaks below previous low during specific session times, indicating potential bullish reversal
Bearish CRT: Occurs when price breaks above previous high during specific session times, indicating potential bearish reversal
The indicator draws colored boxes around the relevant price ranges and provides clear visual cues for pattern recognition
【SY】AI量化指标📌 TradingView Strategy Description (English)
Strategy Overview
This strategy combines trend-following and momentum confirmation to identify high-probability entries in the direction of the prevailing market trend. The objective is not to trade every move, but to capture the strongest phases of price expansion while minimizing exposure during choppy periods.
How It Works
A trend filter determines whether the market is currently in a bullish or bearish environment
Trades are only taken in the direction of the trend — no counter-trend entries
A breakout / momentum signal triggers entry when conditions align
Risk management uses a combination of fixed take-profit, stop-loss and trailing stop
Positions are closed when price strength weakens or when exit criteria are triggered
Risk Management
Fixed stop-loss protects capital during adverse movement
Trailing stop locks in floating profits once the trade is in profit
No martingale, grid or averaging-down — each position is managed independently
Avoids overtrading during sideways markets by requiring trend confirmation
Markets & Timeframes
Suitable for: Crypto / Indices / Commodities / Forex
Recommended timeframes: 15m – 4H
Can be used for both backtesting and automated trading (Webhook / API compatible)
Disclaimer
This script is for educational and research purposes only and does not constitute financial advice. Past performance does not guarantee future results. Trading involves risk — manage leverage and position size responsibly.
If you'd like, I can also provide:
🔹 A short description for the TradingView title area
🔹 A marketing-style preview text to drive more script saves & followers
🔹 A customized version including key terms from your strategy (EMA / KDJ / Supertrend / ATR / RSI / volatility filter / etc.)
Breakout Finder By Hitesh Somani(Aapkainvestments)Breakout Finder By Hitesh Somani(Aapkainvestments)
Welcome to one of the most powerful momentum reversal indicators designed specifically for traders looking to catch high-probability reversal signals with precision and confidence.
✅ This indicator gives high-probability SELL signals based on RSI momentum and Bollinger Band breakouts.
✅ It filters noise and avoids over-trading, focusing only on setups that meet high-conviction criteria with built-in back-to-back signal prevention.
✅ Works best on 5-minute and 15-minute timeframes in trending markets.
✅ Features dual-mode operation: RSI Confirmation mode for momentum validation or Pure Price Action mode for breakout detection.
✅ Automatically calculates Entry, Stop Loss, and Target levels with customizable Risk:Reward ratio (default 1:1.5).
Suggested Rules to Use This Indicator Effectively
Follow these rules and you'll see the accuracy improve significantly:
• Best trading hours: 9:30 AM to 2:30 PM – Avoid trades in the last hour of market
• Entry Strategy: Enter short when the low of the signal candle breaks on the next candle
• Stop Loss: Automatically set at the higher of signal candle high or previous candle high
• Target: Default 1:1.5 Risk:Reward ratio (customizable up to 1:10)
• Trail Stop Loss: After reaching 1:1 risk:reward, consider trailing your stop to lock in profits
• If a new signal comes while an earlier trade is running, the indicator automatically prevents back-to-back signals (shows blue circle for filtered signals)
• Use RSI Confirmation mode for higher accuracy in trending markets, or disable it for pure price action setups
• Monitor the Intelligence Dashboard for real-time RSI, Breakout status, Entry, SL, and Target levels
These simple rules, when followed with discipline, can help you extract consistent profits from momentum reversals and breakout pullback trades.
This isn't just another Indicator — it's built in-house by Hitesh Somani, tested on real price action, and trusted by the Aapka Investment community.
Disclaimer:
This content is purely for educational purposes.
We are not responsible for any financial profits or losses resulting from use of this tool or content.
Breakout Finder By Hitesh Somani(Aapkainvestments)Breakout Finder By Hitesh Somani(Aapkainvestments)
Welcome to one of the most powerful momentum reversal indicators designed specifically for traders looking to catch high-probability reversal signals with precision and confidence.
✅ This indicator gives high-probability SELL signals based on RSI momentum and Bollinger Band breakouts.
✅ It filters noise and avoids over-trading, focusing only on setups that meet high-conviction criteria with built-in back-to-back signal prevention.
✅ Works best on 5-minute and 15-minute timeframes in trending markets.
✅ Features dual-mode operation: RSI Confirmation mode for momentum validation or Pure Price Action mode for breakout detection.
✅ Automatically calculates Entry, Stop Loss, and Target levels with customizable Risk:Reward ratio (default 1:1.5).
Suggested Rules to Use This Indicator Effectively
Follow these rules and you'll see the accuracy improve significantly:
• Best trading hours: 9:30 AM to 2:30 PM – Avoid trades in the last hour of market
• Entry Strategy: Enter short when the low of the signal candle breaks on the next candle
• Stop Loss: Automatically set at the higher of signal candle high or previous candle high
• Target: Default 1:1.5 Risk:Reward ratio (customizable up to 1:10)
• Trail Stop Loss: After reaching 1:1 risk:reward, consider trailing your stop to lock in profits
• If a new signal comes while an earlier trade is running, the indicator automatically prevents back-to-back signals (shows blue circle for filtered signals)
• Use RSI Confirmation mode for higher accuracy in trending markets, or disable it for pure price action setups
• Monitor the Intelligence Dashboard for real-time RSI, Breakout status, Entry, SL, and Target levels
These simple rules, when followed with discipline, can help you extract consistent profits from momentum reversals and breakout pullback trades.
This isn't just another Indicator — it's built in-house by Hitesh Somani, tested on real price action, and trusted by the Aapka Investment community.
Disclaimer:
This content is purely for educational purposes.
We are not responsible for any financial profits or losses resulting from use of this tool or content.
V3 9-20 Smart EMA Cross + RSI + FVG Zones (Instant Signal)V3 9-20 Smart EMA Cross + RSI + FVG Zones (Instant Signal)
Session Sweep + Retrace (London + NY) - FixedORB Strategy with confluence. This sets out the 5 min session sweep from London and NY, and highlights a test back into the order zone with fib retracement.
