ALT FINAL ABCD PRO V6 (ALERT READY)🇺🇸 Strategy Guide: ALT FINAL ABCD PRO V6
1️⃣ Recommended Chart SetupTimeframes: 5m or 15mMarket: Altcoin USDT Perpetual FuturesHigher Timeframe (HTF): 1H (Default)⚠️ Warning: 1-minute charts are NOT recommended due to high market noise.
2️⃣ Strategy OverviewThis strategy trades only high-probability Bull Flag & Bear Flag setups based on BTC trend, BTC Dominance, and EMA 200 positioning.
3️⃣ Trade ConditionsCategoryLONG ConditionsSHORT ConditionsAsset PriceAbove EMA 200Below EMA 200BTC TrendAbove EMA 200 & VWAPBelow EMA 200 & VWAPDominanceBelow its EMA (Alt Season)Above its EMA (Risk-Off)HTF TrendBullish on 1H chartBearish on 1H chartPatternStrong Impulse + Tight ConsolidationStrong Impulse + Tight PullbackLiquidityVWAP Sweep & ReclaimVWAP Rejection from Above
4️⃣ EMA 200 Rule (Critical)Price Above EMA 200: LONG ONLYPrice Below EMA 200: SHORT ONLYPrice Near EMA 200: ❌ No Trade (Indecision zone)
5️⃣ Risk ManagementStop Loss (SL): ATR × 0.8Take Profit (TP): ATR × 1.3Recommended Leverage: Max 3–5xStrict Rules: No averaging down, No counter-trend trades.
תבניות גרפים
EMA10/201️⃣ Trend filter is already TRUE
Price above VWAP
EMA10 > EMA20
EMA20 rising
➡ This stays TRUE for many candles in a strong uptrend.
2️⃣ Pullback condition is TRUE
1–3 red candles already happened
Price is still near EMA20
➡ This condition does not reset immediately.
3️⃣ Engulfing logic is the key problem
Your current engulfing rule is roughly:
Candle is green
Closes above previous close
Above EMA20
Now look at your chart:
First green candle → BUY
Next candle is also green, still above EMA20 → BUY again
Next candle still satisfies all conditions → BUY again
📌 Result:
👉 BUY, BUY, BUY on consecutive candles
That’s why you see 3 BUY labels together.
Indicator PackThis indicator suite generates automated signals based on technical analysis, including price action, momentum, and volume behavior. It is designed to help traders interpret market conditions faster and more consistently through visual markers and a dashboard-style view. Signals are provided for informational and educational purposes only and should not be used as a standalone trading system. This script is not financial advice and not a buy/sell recommendation. Always confirm with your own analysis and risk management. You are solely responsible for all trading decisions and outcomes.
VSA Patterns & Liquidity SweepDescription:
Overview This script creates a synergy between Volume Spread Analysis (VSA) and Institutional Liquidity concepts. The primary problem with standard VSA pattern detection is that high-volume rejection candles often appear randomly during strong trends, leading to false reversal signals.
To solve this, this indicator combines a custom Liquidity Persistence Algorithm with Strict VSA Pattern Recognition. The logic dictates that a VSA Reversal pattern (like a Shakeout or Upthrust) is statistically significant only if it occurs immediately following a "Sweep" of a key structural pivot (Liquidity Zone).
CONCEPTS & CALCULATIONS
1. The Liquidity Filter (Structure) Instead of using standard support/resistance, this script detects "Resting Liquidity" using Swing Highs and Swing Lows (ta.pivothigh / ta.pivotlow).
Persistence Logic: A unique feature of this script is "Level Persistence." When price pierces a pivot level, the level does not disappear immediately. It remains active for a user-defined period (default 5 bars). This accounts for "Stop Hunts" or "Double Taps" where price lingers beyond a level before reversing.
The Filter: The script records the timestamp of the last "Sweep" (when price breached a pivot). If a VSA pattern forms, the script calculates the delta between the Pattern Bar and the Last Sweep Bar. If the gap is within the tolerance threshold (e.g., 3 bars), the pattern is validated.
2. VSA Pattern Recognition (Volume & Shape) The script detects four specific VSA anomalies. These are not standard candlestick patterns; they are defined by rigid Volume and Wick-to-Body ratios:
Shakeout (SO): Detects a "Smart Money" trap where price is driven down to trigger stops and then reversed.
Logic: Requires rising volume (Vol > Vol > Vol ) + a massive lower wick (default >40% of range) + a small upper wick.
Upthrust (UT): The bearish inverse of a Shakeout.
Logic: High volume rejection of higher prices with a long upper wick (>40% of range).
Two Bar Reversal (TBR): A reversal pattern that compares the current bar's close/low against the previous bar's high/close.
Logic: Strict checks on Close > High (Bullish) combined with volume validation.
Engulfing Volume Reversal (EVR): A custom variation of the engulfing candle.
Logic: It requires the engulfing wick to exceed the body size by a ratio of 0.5 (configurable), ensuring the move is volatility-driven, not just a small candle engulfing a smaller candle.
HOW TO USE
Wait for Liquidity Lines: The script automatically plots Red (Resistance) and Teal (Support) lines from pivots.
Watch for Sweeps: Wait for price to trade through these lines (the line will turn dashed or fade, indicating a sweep).
Pattern Confirmation:
Diamonds (SO/UT): Indicate high-volatility rejections.
Triangles (TBR): Indicate immediate structure shifts.
Squares (EVR): Indicate volume-backed engulfing moves.
Alerts: The script includes a "Preview" mode for live trading but alerts are hard-coded to fire only on Bar Close to prevent repainting/false signals.
SETTINGS
Candle Shape: Users can relax or tighten the definition of a "Long Wick" (default 40%) to fit different asset volatilities (e.g., Crypto vs. Forex).
Liquidity Persistence: Adjust how long a level remains "active" after being broken.
Liquidity Filter On/Off: Traders can disable the filter to see raw VSA patterns for backtesting purposes.
CRT Dashboard Scanner | Daily or Weekly CRT
CRT Dashboard Scanner — D1/W1 CRT (OANDA)
This indicator is a simple scanner dashboard that checks a predefined list of OANDA FX pairs and displays only the pairs where a CRT candle has formed on the selected higher timeframe.
What it shows
A clean table dashboard with:
Symbol
CRT direction
↑ Bullish CRT (CRT LOW)
↓ Bearish CRT (CRT HIGH)
Core logic (no repaint)
The scan is based on your CRT candle definition.
It uses only the last closed candle of the selected timeframe (confirmed HTF data), so the dashboard does not repaint.
Timeframe selection (D1 or W1) — why they are separated
Daily and Weekly CRT signals represent different market context:
D1 CRT is more frequent and useful for short-to-medium term opportunities.
W1 CRT is slower, more selective, and often reflects higher-level directional context.
They are separated because scanning both at the same time across many symbols would require significantly more data requests and would hit TradingView’s performance limits. Keeping the scan to one HTF at a time ensures:
faster loading
stable performance
clean, readable results
How to use
Select Scan timeframe: D1 or W1
Watch the table for symbols that print a CRT candle
Open the chart of the symbol and apply your trading plan / confirmation process
Want alerts and multi-timeframe confluence?
This scanner is intentionally lightweight and dashboard-focused.
For more features, alerts, and multi-timeframe bias confluence, check my other indicator: Smart Bias Toolkit.
Mister Blueprint Pro Release v1.24 [ChartWhizzperer]Mister Blueprint Pro® — Initial Release v1.24
Clean direction. Precise entries. Disciplined execution.
Built for lower timeframes & Range Charts (50R, 100R & 200R)
Badges: Indices • FX • high-liquidity assets | Webhook-ready (PineConnector-compatible) | Multilingual (EN/DE/ES/FR/JA/ZH/AR/KO/RU/VI/HI/TR)
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What it is — and what it does
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Mister Blueprint Pro® is a modular execution framework engineered for high-liquidity assets and active market phases.
Designed for lower timeframes and Range Charts, it helps you separate clean participation from low-quality conditions — and
translates decisions into clear, automation-ready signals.
No clutter. No confusion. Just a focused toolkit for structure, timing, and execution.
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Modules (what they do)
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1) DynamicRange-Trendcloud
Defines the active trading direction and provides a clean structure layer to stay aligned with the dominant move.
Helps reduce “signal vs. structure” conflicts by keeping entries tied to market context.
2) Smart Stacking
Enables controlled position building with strict quality focus.
Adds exposure only when conditions justify it — with safeguards that prevent repeated or noisy add-ons.
Built to prioritise the single best moment instead of chasing frequency.
3) Momentum Engine (optional)
Adds an additional participation layer for active phases when price expands and momentum is present.
Includes a selectable trading profile (aggressive / balanced) to match your execution style.
Optional candle colouring provides fast visual feedback for momentum states.
4) Neutral Candle Filter (optional)
Prevents entries during neutral / indecisive momentum phases.
Keeps you selective on lower timeframes by waiting for a clearer participation state before executing.
5) Session Filter Plus (optional)
Lets you define trading sessions and keeps execution disciplined by restricting signals to your active windows.
Provides background session shading for instant orientation.
When a session is OFF, alerts/webhooks stay silent.
6) Support & Resistance Level (visual module)
Plots clean, dynamic support/resistance zones derived from live price structure.
Helps map key areas for decision-making and trade management without overwhelming the chart.
7) Close-All + Global Kill Switch
Provides dedicated Close-All signals for long and short.
Prefer manual exits? The Global Kill Switch disables all Close-All output instantly, so you keep full exit control.
8) Multilingual Interface
Human-facing labels available in:
EN / DE / ES / FR / JA / ZH / AR / KO / RU / VI / HI / TR
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Real-time signals & webhook automation
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Mister Blueprint Pro® emits real-time signals via TradingView alerts and webhook interfaces.
The production API is intentionally minimal for clean automation workflows:
• Mister Blueprint Buy → OPEN_LONG
• Mister Blueprint Sell → OPEN_SHORT
• Mister Blueprint Close All (Long) → CLOSE_LONG
• Mister Blueprint Close All (Short) → CLOSE_SHORT
These signals can be routed directly through a webhook endpoint (e.g., PineConnector) for execution, logging, or monitoring.
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Who it’s for
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Built for traders who operate in high-liquidity markets and active phases — and who need a framework that stays clean,
fast, and automation-ready on lower timeframes and Range Charts.
If you value context-first execution, disciplined scaling, and webhook signals that don’t get in your way, this is for you.
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Quick start (recommended)
────────────────────────────────────────
• Use lower timeframes and/or Range Charts (50R, 100R, 200R or higher).
• Start with DynamicRange-Trendcloud as the backbone.
• Add Smart Stacking for controlled scaling.
• Enable Momentum Engine when you want extra participation in active phases.
• Use Neutral Candle Filter for stricter selectivity.
• Activate Session Filter Plus to limit signals to your trading windows.
• Prefer manual exits? Switch on the Global Kill Switch.
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Note
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No hype. No holy grails.
A precise execution framework for structure, timing, and participation — built for markets that move.
MISTER BLUEPRINT PRO® is a registered European Union trade mark (EUTM No. 019205166).
Invite-only distribution
This script is offered exclusively by invitation to protect independently developed methods, reduce unauthorised redistribution,
and ensure controlled onboarding, support, and quality assurance.
Disclaimer
Signals and alerts are provided for informational purposes only and do not constitute financial advice or a recommendation to buy or sell.
Trading involves substantial risk and may result in the total loss of capital. Execution via third-party tools may differ from alerts.
Past performance is not indicative of future results.
JD Box Pro - Pivot Editionကျွန်တော် JD Moon ပါ၊
ဒီ Box with Pivot levels Indicator က Intraday Trader တွေအတွက် အချိန်ကုန်သက်သာအောင် တကူးတက ဆွဲစရာမလိုအောင် Price Action သမားတွေအတွက် အသုံးလိုတဲ့အရာမို့ ဖန်တီးထားတာပါ၊ အရမ်း ရိုးရှင်းပြီး အရမ်း အသုံးဝင်ပါတယ်။ တစ်ရက်အတွင်း စျေးနှုန်းအရွေ့ကို စောင့်ကြည့်ဖို့ပါ။ အထူးသဖြင့်ကျွန်တော့်အတွက် ဖန်တီးထားတာဖြစ်ပြီး လိုအပ်သူတွေ ကျွန်တော့်လို Chart တိုင်းမှာ လှိုင်းဆွဲဖို့ ငပျင်းလေးတွေ ယူသုံးနိုင်ပါတယ်။
JD Box Proကျွန်တော် JD Moon ပါ၊
ဒီ Box Indicator က Intraday Trader တွေအတွက် အချိန်ကုန်သက်သာအောင် တကူးတက ဆွဲစရာမလိုအောင် Price Action သမားတွေအတွက် အသုံးလိုတဲ့အရာမို့ ဖန်တီးထားတာပါ၊ အရမ်း ရိုးရှင်းပြီး အရမ်း အသုံးဝင်ပါတယ်။ တစ်ရက်အတွင်း စျေးနှုန်းအရွေ့ကို စောင့်ကြည့်ဖို့ပါ။ အထူးသဖြင့်ကျွန်တော့်အတွက် ဖန်တီးထားတာဖြစ်ပြီး လိုအပ်သူတွေ ကျွန်တော့်လို Chart တိုင်းမှာ လှိုင်းဆွဲဖို့ ငပျင်းလေးတွေ ယူသုံးနိုင်ပါတယ်။
JD Moon - Intraday Box Multi-Colorကျွန်တော် JD Moon ပါ၊
ဒီ Box Indicator က Intraday Trader တွေအတွက် အချိန်ကုန်သက်သာအောင် တကူးတက ဆွဲစရာမလိုအောင် Price Action သမားတွေအတွက် အသုံးလိုတဲ့အရာမို့ ဖန်တီးထားတာပါ၊ အရမ်း ရိုးရှင်းပြီး အရမ်း အသုံးဝင်ပါတယ်။ တစ်ရက်အတွင်း စျေးနှုန်းအရွေ့ကို စောင့်ကြည့်ဖို့ပါ။ အထူးသဖြင့်ကျွန်တော့်အတွက် ဖန်တီးထားတာဖြစ်ပြီး လိုအပ်သူတွေ ကျွန်တော့်လို Chart တိုင်းမှာ လှိုင်းဆွဲဖို့ ငပျင်းလေးတွေ ယူသုံးနိုင်ပါတယ်။
JBCs Liquidity Vacuum ProJBC's Liquidity Vacuum Pro – The map of institutional liquidity
IMPORTANT NOTE ON RISK MANAGEMENT:
Before opening a position in a liquidity zone, we strongly recommend using our JBC's Volatility Projection Cone. The Liquidity Vacuum Pro shows you where the market may react, but only the Volatility Projection Cone validates whether this reaction is within a statistically sound range or whether the risk for your account is currently too high.
Why JBC's Liquidity Vacuum Pro?
JBC's Liquidity Vacuum Pro is a highly professional precision tool designed to visualize the invisible traces of the “big players” in the market. While conventional support and resistance indicators merely connect old price highs, our proprietary algorithm uses a complex analysis of price inefficiencies and volatility vacuums.
Read the market like an open book: The indicator identifies zones where the price has left “holes” in liquidity. These vacuums act like magnets on the price. In internal evaluations, we were able to show that price reactions in these zones are on average 60% more powerful and precise than in classic, manually drawn lines.
The indicator is suitable for all financial instruments, but has been specifically optimized for the algorithmic order flow patterns of the forex market to separate genuine institutional zones from ordinary market noise.
Advantages of JBC's Liquidity Vacuum Pro
Automated detection of liquidity vacuums
The algorithm continuously scans the market for inefficiencies. It automatically marks bullish and bearish vacuums on the chart, so you never have to wonder where the next big orders are.
Smart mitigation logic
Unique to JBC's Liquidity Vacuum Pro is its ability to recognize when a zone is “consumed” (mitigated). Once the price has filled a vacuum by a certain percentage, the zone adjusts or disappears. This prevents you from trading outdated levels that no longer have any power.
Adaptation to any time frame
Whether M1 or Daily, the integrated “Auto Timeframe Settings” function automatically adjusts the sensitivity of the vacuum detection to the selected time unit. You get precise scalping zones on M1 and major institutional turning points on H4.
Future projection for strategic planning
The indicator projects the vacuums into the future (Future Projection) so that you can place your take-profit targets exactly where the market will next need to replenish liquidity.
Who is this indicator suitable for?
● The ambitious beginner: You want to stop entering at random points on the chart and instead trade where the pros have their orders.
● The professional price action trader: You need a tool that calculates supply & demand zones objectively and without human error.
● The forex specialist: You know that the foreign exchange market is driven by liquidity and need a “roadmap” for your daily sessions.
● The institutional trader: For anyone who understands that price always moves from one liquidity pool to the next.
The professional ecosystem (Extensions)
Liquidity Vacuum Pro is your map, but for a safe journey you need the entire JBC system:
1. JBC's Hybrid Trend-Persistent Kalman (HTPK): Use HTPK to determine the trend and Liquidity Vacuum Pro to find the targets (vacuum) within that trend.
2. JBC's Adaptive Stochastic: Timing is everything. Wait for a stochastic signal just as the price enters a “liquidity vacuum.”
3. JBC's Volatility Projection Cone: Use the cone for mathematical risk management at each liquidity zone.
Basic functional concepts
● Inefficiency analysis: Identification of price ranges with low trading volume that must be filled later (Fair Value Gaps (FVG)).
● Dynamic mitigation: Zones are devalued as soon as the price has passed through them sufficiently (threshold logic).
● Visual excellence: Clear boxes with customizable transparency and labels that do not clutter the chart.
● No repainting: Once detected, vacuums are historically correct and serve for seamless analysis.
Indicator Settings
● Use Auto Settings: Activates intelligent time unit adjustment.
● Min Vacuum Size %: Controls how large an inefficiency must be to be considered a vacuum.
● Mitigation Threshold: Determines the percentage of filling at which a zone is considered “done.”
● Box Transparency: Customize the design to perfectly match your template.
RISK NOTICE & DISCLAIMER (IMPORTANT)
No trading recommendation: All data generated by the indicator is for educational purposes only. This is not investment advice. All trading is at your own risk.
Disclaimer: We accept no liability for losses. Losses are normal in trading. Only trade with capital that you can afford to lose entirely.
Not designed as a standalone system: This indicator is an analysis tool and must be combined with a strategy and strict risk management.
CFTC RULE 4.41 – Hypothetical Performance:
Hypothetical results have limitations. Simulated results do not correspond to actual trading. Backtest results are no guarantee of future profits. “Backtest performances don't matter” – Success in liquidity zones requires discipline and experience in the live market.
Tom Hougaards Overnight Range by exp3rtsThis indicator visualizes the School Run concept popularized by Tom Hougaard.
It draws a session range box that continuously expands to include the highest high and lowest low formed during a user-defined time window.
The box starts exactly at the session open and dynamically updates as new candles print, capturing the full pre-move accumulation range. Once the session ends, the box remains fixed, providing a clear reference for liquidity runs, stop hunts, and directional expansion.
Key features:
Session-based logic using TradingView’s native session handling (works correctly across midnight)
Dynamic high/low tracking throughout the session
Clean, minimal visual representation of the accumulation range
Ideal for identifying School Runs, liquidity sweeps, and bias formation
How to use it:
If the price goes above the range (on the second 15min candle) after RTH opening, chances are high that price will continue going higher.
If the price goes below the range (on the second 15min candle) after RTH opening, chances are high that the price will continue going lower.
Best for Indices.
Engulfing Patter Indicator - po_vetru_pticaEngulfing with the ability to change parameters:
1. Single Engulfing
2. Double Engulfing
3. Triple Engulfing
4. Quadruple Engulfing
Plus breakout line after close level engulfing.
Extensive customization of parameters
[yorsh.trades] CCT ICC [FOREX] v1.1Title: CCT ICC - Dual-Mode Trap & Trend Engine
Description:
The CCT ICC (Candle Continuation Theory) is not just a signal indicator; it is a comprehensive trading workspace designed for the serious Forex trader. Built on Pine Script v6, this tool bridges the gap between discretionary analysis and mechanical system verification.
Whether you are looking for real-time trade alerts or a rigorous environment to backtest and validate a strategy, the CCT ICC provides the infrastructure to trade with algorithmic precision.
☯️ The Duality: Two Modes, One Engine
This script operates in two distinct modes, selectable via the settings. This duality is the core strength of the tool, allowing you to move from hypothesis to execution seamlessly.
1. Simulator Mode (Backtest & Model Building)
Purpose: This mode is designed for the rigorous strategist. It transforms your chart into a mechanical testing engine.
How it works: It executes one trade at a time based on strict rules (Daily Risk Limits, Max Wins/Losses per day). It tracks real-time PnL and generates a detailed Historical Performance Table directly on your chart.
Why use it: We encourage users to start here. Use this mode to validate the "Trap Model" expectancy. Does the strategy hold up over the last 100 trades? What is the Drawdown? The Simulator provides the raw data you need to build confidence in your model before risking real capital. It enforces mechanical exits (e.g., Force Exit at 5 PM NY or on Trend Flips) to remove emotional bias from the test.
2. Signal Generator (Live Trading)
Purpose: Once you have validated the model, switch to this mode for live market scanning.
How it works: It acts as a discretionary scanner. It ignores the strict "one trade at a time" rule and daily risk limits, instead alerting you to every valid setup as it happens.
Visuals: It draws static Entry/SL/TP boxes for visual reference, allowing you to pick and choose trades based on your own confluence factors.
⚙️ The Technology: Multi-Timeframe Engines
The script utilizes a dual-engine logic to filter noise and identify high-probability structure:
Engine 1 (Execution): Analyzes the immediate structure on your trading timeframe (e.g., 1H) to find entries.
Engine 2 (Informational/Filter): Monitors the Higher Timeframe (e.g., 4H or Daily) to determine the dominant trend.
Auto-Sync: The script automatically selects the correct institutional timeframes based on your chart (e.g., if you trade M15, it aligns with D1 structure automatically).
⚡ The Strategy: Trap & Structure
The CCT ICC identifies liquidity points where price is likely to continue the trend:
Main Traps: Identifies "Trap Candles" that are breached and then reclaimed, signaling a false reversal (we trade WITH the trend).
Virgin Wicks (VW): Highlights unmitigated wicks that act as POIs for price.
Turtle Soups (TS): specific liquidity sweeps at range edges following the Main trend only.
Range Theory: Dynamically plots Range Highs and Lows to define your Draw on Liquidity (DOL).
🛡️ Risk Management & Position Sizing
Stop guessing your lot size. The script includes a built-in Position Sizer:
Auto-Calculation: Based on your defining risk (e.g., $100 per trade), it calculates the exact lot size required based on the Stop Loss distance.
Auto-FX Detection: Automatically adjusts for Standard Lots (100k) or JPY pairs.
Visual Boxes: Displays the exact Risk:Reward ratio and Quantity directly on the chart.
Note : the position sizer has been tested only on CFD/FOREX
⚠️Methodology & Educational Disclaimer
This script is provided for educational and analytical purposes only.
The logic, models, and visualizations implemented in this script are based on the author’s own understanding, interpretation, and implementation of trading concepts commonly referred to as CCT / ICC market structure theory. These concepts are widely available to the public for free across various educational platforms and sources.
This script does not claim ownership over the underlying theory, nor does it represent any official or authoritative version of CCT / ICC methodologies. It is an independent implementation and should be viewed solely as a learning and analysis tool.
This script is not affiliated with, endorsed by, or connected to any individual, educator, or organization associated with CCT, ICC, or related methodologies.
Risk Disclaimer
Trading financial markets involves significant risk and may not be suitable for all traders. Any signals, levels, projections, or trade examples shown by this script are hypothetical and for demonstration purposes only and do not guarantee future performance.
Nothing in this script constitutes financial advice, investment recommendations, or a solicitation to buy or sell any financial instrument. Users are solely responsible for their trading decisions and risk management.
TradingView is not responsible for any losses or damages resulting from the use of this script.
Author's Note:
The goal of the CCT ICC is to stop you from "predicting" and start you "reacting." Use the Simulator. Study the wins and the losses. Build your model, and then use the Generator to execute it.
Trade safe.
ALPHA POINTS PRO [v1] [Takeda Trades 2026]ALPHA POINTS PRO 2026 © Takeda Trades
by @TakedaTradesOfficial
v1 01/28/2026
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ALPHA POINTS PRO
v1.0 - 2026 © Takeda Trades
DETAILED HOW TO TRADE GUIDE
1. INITIAL SETUP & CONFIGURATION
Step 1: Timeframe Selection
• Primary Chart: Your preferred trading timeframe (15min, 1hr, 4hr)
• MTF Timeframe: Set to 1-2 timeframes higher (if trading 15min, set MTF to 1hr)
• Example: 15min chart + 1hr MTF for intraday, 4hr chart + Daily MTF for swing trading
Step 2: Trading Mode Selection
• Start with "Balanced" (±200) - middle ground for most markets
• For volatile markets: Use "Conservative" (±250) to "Ultra Conservative" (±350)
• For ranging markets: "Moderate" (±150) to "Balanced" (±200)
• Adjust based on market conditions - higher numbers = fewer but higher quality signals
Step 3: Strategy Mode
• "HEDGING": Takes both BUY and SELL signals - recommended for beginners
• "LONG": Only takes BUY signals - use in uptrends or bullish markets
• "SHORT": Only takes SELL signals - use in downtrends or bearish markets
• Match strategy to market bias for better results
Step 4: TILT TRIGGERS Activation
• Turn ON - this is your psychological risk management system
• Sensitivity: Start with "Balanced" (300)
• Label Layout: "Vertical" for stacked information
• Emoji Mode: "Emoji + Text" for clear understanding
Step 5: Visual Settings
• Label Mode: "Regular" for clarity, "Emoji" for quick recognition
• Show Chart Signals: ON
• Show Close Signals: ON
• Show All Signals: OFF (turn ON only when you want to see all 15 levels)
2. SIGNAL IDENTIFICATION & ENTRY PROCESS
BUY Signal Entry:
Oscillator (bottom pane) crosses BELOW your selected negative threshold
Example: With "Balanced" mode (±200), BUY triggers at -200
Green BUY label appears on chart at candle's low
Confirm with MTF Table - higher timeframe should not be strongly bearish
Enter long position at market price or next candle open
Set stop-loss below signal candle or recent swing low
SELL Signal Entry:
Oscillator crosses ABOVE your selected positive threshold
Example: With "Balanced" mode (±200), SELL triggers at +200
Red SELL label appears on chart at candle's high
Confirm with MTF Table - higher timeframe should not be strongly bullish
Enter short position at market price or next candle open
Set stop-loss above signal candle or recent swing high
Signal Quality Checklist (BEFORE ENTERING):
✓ MTF alignment favorable (check Table)
✓ No strong contrary trend on higher timeframe
✓ Not in extreme TILT zone from previous trade
✓ Market conditions match your trading mode
✓ Risk-reward ratio at least 1:2
3. POSITION MANAGEMENT (OPEN TRADES)
Active Position Monitoring:
• Watch Signal Lines - they connect entry to current price
• Green line = currently profitable, Red line = currently losing
• Monitor progress toward Optimal Target Lines (blue dashed)
• Check Break Even Line - horizontal line showing entry price
Managing Winning Trades:
• When Break Even Line shows profit, move stop-loss to break-even
• Consider partial profit at first Optimal Target Line
• Let remaining position ride to next Optimal Target or CLOSE signal
• Monitor candle count - long sequences may indicate exhaustion
Managing Losing Trades:
• Watch TILT TRIGGERS closely - they escalate with drawdown
• "Tilt Trigger" appears = review trade thesis
• "Position Panic" appears = consider reducing position size
• "Rage Trading" appears = prepare to exit immediately
• Never add to losing positions when TILT triggers are active
4. EXIT STRATEGIES & TIMING
Primary Exit - CLOSE Signal:
• Occurs when oscillator crosses ZERO line (near 0)
• Yellow circle appears on chart
• Exit entire position at market
• This is the system's designed exit - most reliable
Secondary Exits - Profit Taking:
• At Optimal Target Lines (project to pivot points)
• At key support/resistance levels
• Partial exits at predetermined profit levels
• Trailing stop method once in profit
Emergency Exits - Risk Management:
• When TILT TRIGGERS reach "Rage Trading" or higher
• When position reaches maximum risk percentage (1-2% loss)
• When market conditions change dramatically
• When you feel emotional pressure (system confirms via TILT)
Exit Decision Matrix:
CLOSE signal appears → Exit 100%
Optimal Target reached + TILT warning → Exit 50-100%
Strong reversal pattern + still profitable → Exit 100%
Time-based exit (after average sequence duration) → Exit 100%
5. MULTI-TIMEFRAME CONFIRMATION SYSTEM
MTF Analysis Table (Style 3 Recommended):
• Shows oscillator values across multiple timeframes
• Displays position status for each timeframe
• Color-coded for quick analysis (green=bullish, red=bearish)
Alignment Trading Rules:
• Strong Buy: Current TF BUY + Higher TF BULLISH/LONG
• Weak Buy: Current TF BUY + Higher TF NEUTRAL
• Avoid: Current TF BUY + Higher TF BEARISH/SHORT
• Same rules apply for SELL signals in reverse
Timeframe Hierarchy:
• Weekly/Monthly: Primary trend direction
• Daily/4hr: Intermediate trend
• 1hr/15min: Entry timing
• Match your trading style to appropriate timeframe组合
6. TILT TRIGGERS DEEP DIVE
How TILT TRIGGERS Calculate:
• Monitors percentage drawdown from entry price
• Triggers escalate at predetermined loss percentages
• Customizable sensitivity (200 to 1200 points)
• Stacks multiple triggers within user-defined bar range
TILT Trigger Response Protocol:
Level 1: 😬 Tilt Trigger (0.25-0.75% loss)
→ Action: Review trade thesis, check news, verify analysis
Level 2: 😰 Conviction Crack (0.75-1.25% loss)
→ Action: Consider partial exit (25-50%), tighten stop-loss
Level 3: 😱 Position Panic (1.25-1.75% loss)
→ Action: Reduce position significantly (50-75%), prepare full exit
Level 4: 😤 Revenge Mode (1.75-2.25% loss)
→ Action: Exit position completely, take break from trading
Level 5+: ☠️ Extreme Levels (2.25%+ loss)
→ Action: Mandatory exit, trading break minimum 24 hours
TILT Prevention Strategies:
• Start with smaller position sizes
• Use more conservative trading modes
• Implement stricter stop-loss rules
• Take breaks between trading sessions
• Maintain trading journal to identify tilt patterns
7. SEQUENCE ANALYTICS FOR IMPROVED TIMING
Understanding Sequences:
• A sequence starts with first BUY or SELL signal
• Continues through additional same-direction signals
• Ends with CLOSE signal (oscillator crosses zero)
• Statistics tracked in table for historical reference
Using Analytics for Better Trading:
• Check average sequence duration before entering
• Compare current sequence to historical averages
• Long sequences (> average) may be near exhaustion
• Short sequences may have more room to run
• Use candle count labels for real-time monitoring
Sequence-Based Adjustments:
• If entering late in average sequence duration → smaller position
• If entering early in potential sequence → normal position
• Multiple consecutive sequences in same direction → trend strength
• Alternating short sequences → ranging market
8. ADVANCED FEATURES & OPTIMIZATION
Show All Signals Mode:
• Displays all 15 trading levels simultaneously
• Shows market strength through signal clustering
• Identifies key levels where multiple signals converge
• Use for: Market structure analysis, level importance identification
Reverse Color Gradient:
• Changes signal color intensity
• ON: Most conservative = brightest, most aggressive = darkest
• OFF: Most aggressive = brightest, most conservative = darkest
• Choose based on personal preference
Numbered Mode with Custom Gradients:
• Shows #1, #2, #3, etc. for sequential signals
• Color gradient from first to last signal in sequence
• Customize RGB values for personalized color schemes
• Excellent for tracking multiple entries in same direction
9. RISK MANAGEMENT FRAMEWORK
Position Sizing Formula:
Determine account risk per trade (1-2% recommended)
Calculate stop-loss distance in points
Position size = (account risk %) / (stop-loss in points × point value)
Adjust for correlation if multiple positions open
Stop-Loss Placement Methods:
Method A: Below/above signal candle
Method B: Below/above recent swing low/high
Method C: Percentage-based (1-2% from entry)
Method D: Volatility-based (ATR multiple)
Profit Protection Rules:
Rule 1: Move to break-even when Break Even Line shows profit
Rule 2: Take partial profits at 1:1 risk-reward ratio
Rule 3: Trail stop using Optimal Target Lines as reference
Rule 4: Never let winning trade become losing trade
10. MARKET CONDITION ADAPTATION
Ranging Markets (Best Performance):
• Characteristics: Oscillator moves between ±100 to ±300
• Settings: Moderate to Balanced modes (±150 to ±200)
• Strategy: Counter-trend entries at extremes
• Exit: Quick profits, don't wait for full sequence
Trending Markets (Caution Required):
• Characteristics: Consecutive signals in same direction
• Settings: Conservative modes (±300+)
• Strategy: Trade with trend using LONG/SHORT-only modes
• Exit: Longer holds, use trailing stops
High Volatility Markets:
• Characteristics: Large candles, wide ranges
• Settings: Ultra Conservative modes (±350+)
• Strategy: Smaller positions, wider stops
• Exit: Quicker exits, reduced profit targets
Low Volatility Markets:
• Characteristics: Small candles, tight ranges
• Settings: Aggressive modes (±100-150)
• Strategy: Normal positions, tighter stops
• Exit: Standard sequence exits
11. PERFORMANCE TRACKING & IMPROVEMENT
Mandatory Trade Journaling:
Record for every trade:
Date/Time
Trading Mode used
Signal level
Entry price
Exit price
Sequence duration
TILT triggers hit
Profit/Loss
Notes/Lessons
Weekly Review Process:
Analyze winning vs losing trades
Identify which trading modes worked best
Review TILT trigger frequency and response
Adjust settings based on performance
Set improvement goals for next week
Continuous Optimization:
• Test different trading modes in demo account
• Adjust TILT sensitivity based on emotional tolerance
• Refine entry/exit rules based on statistical analysis
• Develop personal trading plan incorporating system signals
12. COMMON PITFALLS & SOLUTIONS
Pitfall 1: Overtrading
→ Solution: Only trade when MTF alignment confirms, use higher conservative modes
Pitfall 2: Ignoring TILT Warnings
→ Solution: Make TILT compliance non-negotiable, automate responses
Pitfall 3: Poor Position Sizing
→ Solution: Implement strict 1-2% risk rule, use position size calculator
Pitfall 4: Exiting Too Early/Late
→ Solution: Follow system exits (CLOSE signals), use partial profit taking
Pitfall 5: Trading Wrong Market Conditions
→ Solution: Identify market type first, adjust settings accordingly
═════════════════════════════════════════════════════════
⚠️ FINAL WARNINGS & BEST PRACTICES
• This is a COUNTER-TREND RANGE OSCILLATOR - it excels in ranging markets but may produce consecutive signals in strong trends
• The TILT TRIGGERS system is your most valuable feature - ignoring it defeats its purpose
• Always PAPER TRADE new settings before using real capital
• Maximum risk should NEVER EXCEED 2% per trade
• This system provides SIGNALS AND TOOLS , not guaranteed profits - your discipline determines success
• Regular PERFORMANCE REVIEW and adjustment is necessary for long-term success
• Trading involves SUBSTANTIAL RISK - only trade with capital you can afford to lose
═════════════════════════════════════════════════════════
2026 © Takeda Trades • Trading involves risk of loss • Past performance does not guarantee future results • This is educational material, not financial advice
Teams sir UTT dedicated✅ COMPLETE WITH DETAILED COMMENTS!
Every section now has:
Purpose explanation at the top
Step-by-step logic in comments
Examples where helpful
Clear variable names
The code is fully commented so anyone reading it can understand:
What the code does
Why it's doing it
How it works this is dedicated to utt teams sir
Wyckoff Accumulation Distribution [Wisco]Labels Accumulation, Manipulation and Distribution areas on the chart in real time, non repainted. Many settings to adjust line thickness, opacity, color, etc.
[yorsh.trade] BJN iFVG Model v1.1Description:
The BJN iFVG Model is not just an indicator; it is a complete algorithmic trading framework designed to identify, qualify, and rank Inversion Fair Value Gap (iFVG) setups using PROPIETARY RULES developed by the author.
Unlike standard FVG indicators that simply highlight gaps on a chart, this script employs a complex Ranking Engine that scores every potential setup from C to A++. It automates the "mental checklist" professional traders use—analyzing Time (Macros), Market Structure (Sweeps), Correlation (SMT), and Higher Timeframe Delivery—to determine the probability of a trade setup.
🚀 Why This Indicator is Different
This script adds value by focusing on context and validity rather than just detection.
Algorithmic Ranking System: It doesn't just show you an entry; it grades it. A setup is awarded an "A+" or "A++" only if specific confluences align (e.g., HTF Delivery + Liquidity Sweep + SMT Divergence).
Structural Validation: It utilizes a proprietary logic involving "Invalidation Points" (IP) and "Floor/Ceiling" detection. An iFVG is only considered valid if the price structure supporting it remains intact.
Cross-Ticker SMT Engine: The script includes a built-in module to compare price action against a correlated asset (e.g., NQ vs. ES) to detect SMT Divergences at the exact moment of trade formation.
Integrated Position Sizer: It automatically calculates the invalidation level based on market structure (mitigation blocks) and projects the optimal Entry, Stop Loss, and Take Profit levels, including contract sizing based on your risk parameters.
🛠 Key Features & Modules
1. The Execution Engine (iFVG Logic)
The core of the strategy looks for Inversion FVGs (failed FVGs that price punches through).
Ghost Mode: The script monitors live candles. If price penetrates a specific % into an opposing FVG, it triggers a "Preview" state, allowing you to prepare before the candle closes.
Hazards & Mitigations: It scans the chart for "Hazard" FVGs (opposing arrays that might stop price) and "Mitigation" arrays (supporting structure) to determine a safe Stop Loss placement.
2. The Ranking System (Confluences)
Every setup produces a "Rank Tag" (e.g., A+ (del, sweep, smt)). The components are:
Delivery (D): Checks if the setup is reacting off a Higher Timeframe (HTF) PD Array (from the MTF Matrix).
Sweep (S): Checks if the leg creating the setup swept liquidity (Fractals or Session Highs/Lows).
SMT: Checks for divergence between the current asset and a comparison ticker (Default: ES/NQ pairing).
Macro: Checks if the setup is occurring within specific time-based Algo Macros.
3. Contextual Matrix (Dashboard)
A "Smart Table" is displayed on the chart, providing a real-time summary of:
Liquidity Pools: Nearest Buy-side and Sell-side liquidity based on 1H fractals and Daily Highs/Lows.
Active Status: Shows the current state of the market (Idle, Armed, Triggered, or Confirmed).
Macro Status: Highlights when a Macro time window is active.
4. MTF Delivery Engine
The script runs background simulations on higher timeframes (e.g., 1H, 4H) to find unmitigated FVGs. These are projected onto your lower timeframe chart to serve as "Delivery" targets or support.
⚙️ Usage Guide
Bias & Setup: The script automatically detects Long and Short scenarios.
The Trigger: When a candle closes, validating an iFVG, a setup box appears.
Green/Red Badge: Shows the Rank (e.g., A+).
Sizer Box: Shows the visual Stop Loss (Red), Entry (Edge), and Take Profit (Teal).
Info Label: Displays the risk in points and the calculated contract size.
Invalidation: If price hits the "IP" (Invalidation Point) or the "Floor/Ceiling" before the target, the setup is marked as INVALIDATED and removed to keep the chart clean.
🎨 Visuals & Customization
Alerts: Fully configurable alerts for "Triggered" (Live) and "Confirmed" (Close) states, filterable by Minimum Rank (e.g., only alert on 'A' setups or better).
Styling: Toggle individual modules (Killzones, SMT lines, MTF Plotter) on/off to suit your visual preference.
Sessions: Customizable Killzones (Asia, London, NY AM/PM) with optional high/low projections.
⚠️ Disclaimer & Risk Warning
Not Financial Advice: This indicator is a technical analysis tool designed to assist in identifying market structure and potential areas of interest. It does not guarantee profits.
The methodology implemented in this script is inspired by and derived from widely available trading concepts, including principles commonly associated with Inner Circle Trader (ICT)–style market structure, liquidity, and inefficiency theory.
These concepts are publicly available for free across multiple educational sources and are not proprietary to this script.
The BJN iFVG Model represents the author’s independent interpretation, rule-set, automation logic, and execution framework built on top of those general ideas.
Repainting Note: The "Ghost Mode" (Preview) functionality evaluates live price action. A "Triggered" status on a live candle may disappear if the candle closes without confirming the inversion. Always wait for candle closes for confirmed signals.
Risk Management: The built-in position sizer is a calculation aid only. Always verify contract sizes and risk against your broker's requirements before executing trades.
Risk & Platform Disclaimer
This script is provided for educational and analytical purposes only and does not constitute financial advice.
All signals, trade examples, position sizing, and performance metrics are hypothetical and for demonstration purposes only. Past or simulated performance does not guarantee future results.
Trading financial instruments involves substantial risk and may not be suitable for all traders. You are solely responsible for your trading decisions and risk management.
TradingView bears no responsibility for any losses, damages, or outcomes resulting from the use of this script.
Pine Script v6 | Powered by
55lvls by aradoThis indicator marks highly reactive end-of-session liquidity levels formed just before the New York close, where institutional positioning often leaves its footprint. These levels stay precise across all timeframes and provide clean, objective reference points for price reactions without manual chart work.
ELMEHDI VIP (v4.0)ABO SALTAN //@version=5
indicator(title = 'ELMEHDI VIP (v4.0)', shorttitle = 'EL MEHDI KHEYI(v4.0)', overlay = true, max_boxes_count = 500, max_labels_count = 500, max_lines_count = 500, max_bars_back = 500, max_polylines_count = 100)
bullcolor = #339b44
bearcolor = #af3232
ema150 = ta.ema(close, 150)
ema250 = ta.ema(close, 250)
gr_customalert = "Custom Alerts"
gr_signal = "General Configurations"
gr_PullBacksignal = "Trading Assistants"
gr_RiskManage = "Risk Management"
gr_dash = "Dashboard Configurations"
//symbol info
symInfoCheck = false
symInfo = syminfo.ticker + ' | ' + timeframe.period + (timeframe.isminutes ? 'M' : na)
date = str.tostring(dayofmonth(time_close)) + '/' + str.tostring(month(time_close)) + '/' + str.tostring(year(time_close))
//text positioning
textVPosition = 'middle'
textHPosition = 'center'
//symbol info positioning
symVPosition = 'top'
symHPosition = 'left'
//cell size
width = 0
height1 = 0
//title settings
c_title = #b2b5be80
s_title = 'large'
a_title = 'center'
//subtitle settings
c_subtitle = #b2b5be80
s_subtitle = 'normal'
a_subtitle = 'center'
c_bg = color.new(color.blue, 100)
// Get user input
showSignals = input(true, "Show Signal's", group=gr_signal)
//showSignals = true
sensitivity = input.float(2.4, "Sensitivity", 0.1, step=0.1, group=gr_signal)
STuner = input.int(10, "Signal Tuner(1-25)", minval = 1, maxval = 25, group=gr_signal)
Presets = "All Signals"
//Presets = input.string("All Signals", "Presets", , group=gr_signal)
filterstyle = input.string("Trending Signals ", "Signal Mode / Filters", ["Trending Signals ", "Contrarian Signals ", "High Volume ", "Strong ", "Swing ", "Smooth ", "Scalping ", "Scalping+ "], group=gr_signal)
//TextStyle = input.string("Minimal", "Signal Style", , group=gr_signal)
//periodTrendCloud = input.string("Smooth", "Trend Cloud Style", , group=gr_Other_Settings)
TextStyle = "Minimal"
consSignalsFilter = filterstyle == "Trending Signals " ? true : false
StrongSignalsOnly = filterstyle == "Strong " ? true : false
highVolSignals = filterstyle == "High Volume " ? true : false
signalsTrendCloud = (filterstyle == "Smooth ") ? true : (filterstyle == "Scalping ") ? true : (filterstyle == "Scalping+ ") ? true : (filterstyle == "Swing ") ? true : false
ContrarianOnly = filterstyle == "Contrarian Signals " ? true : false
TrendMap = 'Trend Gradient'
momentumCandles = false
assistantenable = input(true,'', group=gr_PullBacksignal, inline = 'sexyshit')
assistantmode = input.string('Trend Assistant', 'Assistant | Mode', , group = gr_PullBacksignal, inline = 'sexyshit')
Show_PR = input.bool(true, title="", group = gr_PullBacksignal , inline = "Features1")
MSTuner = input.int(8, "Reversal Dot | Tuner(2-30)", minval = 2, maxval = 30, group=gr_PullBacksignal, inline = "Features1")
LongTrendAverage = assistantmode == 'Trend Tracker' and assistantenable == true ? true : false
analyscloud = assistantmode == 'Trend Assistant' and assistantenable == true ? true : false
showTrendCloud = (filterstyle == "Smooth ") ? true : (filterstyle == "Scalping ") ? true : (filterstyle == "Scalping+ ") ? true : (filterstyle == "Swing ") ? true : false
periodTrendCloud = (filterstyle == "Smooth ") ? "Smooth" : (filterstyle == "Scalping ") ? "Scalping" : (filterstyle == "Scalping+ ") ? "Scalping+" : (filterstyle == "Swing ") ? "Swing" : na
//ScalpingPlus = input(false, "Fast trend cloud", group=gr_Other_Settings)
//fastTrendCloudLen = input.int(55, "Fast trend cloud", 2, group=gr_Other_Settings)
fill(plot(showTrendCloud and periodTrendCloud == "Smooth" ? na : assistantenable == true and assistantmode == 'Trend Tracker' ? ema150 : na, "", na, editable=false), plot(showTrendCloud and periodTrendCloud == "Smooth" ? na : assistantenable == true and assistantmode == 'Trend Tracker' ? ema250 : na, "", na, editable=false), ema150 > ema250 ? color.new(bullcolor, 70) : ema150 < ema250 ? color.new(bearcolor, 70) : na)
showDashboard = input(true, "Smart Panel", group = gr_dash , inline = "Features1")
locationDashboard = input.string("Bottom Right", "Dashboard Location", , group = gr_dash , tooltip="Smart Panel")
sizeDashboard = input.string("Small", "Dashboard Size", , group = gr_dash , tooltip="Smart Panel")
tpLabels = input(true, "Dynamic Take Profit Lables", group=gr_RiskManage)
ShowTpSlAreas = input(true, "Show take Profit/Stop-loss Area", group=gr_RiskManage)
ShowTrailingSL = input(false, "Show trailing Stop-loss", group=gr_RiskManage)
usePercSL = input(false, "SL/TRAILING", inline="1", group=gr_RiskManage)
percTrailingSL = input.float(1, "", 0, step=0.1, inline="1", group=gr_RiskManage)
useTP1 = input(true, "", inline="1", group=gr_RiskManage)
multTP1 = input.float(1, "TP 1", 0, inline="1", group=gr_RiskManage)
useTP2 = input(true, "", inline="4", group=gr_RiskManage)
multTP2 = input.float(2, "TP 2", 0, inline="4", group=gr_RiskManage)
useTP3 = input(true, "", inline="4", group=gr_RiskManage)
multTP3 = input.float(3, "TP 3", 0, inline="4", group=gr_RiskManage)
ShowSwings = input(false, "Show Market Structure", inline="3", group=gr_RiskManage)
periodSwings = input.int(10, "", 2, inline="3", group=gr_RiskManage)
//showTS = input(title='Show Trend Shifter', defval=false, group='Contrarian SIGNALS')
// showsignals = input(title='Show Signals', defval=false, group='Contrarian SIGNALS')
// Alerts Managemnt
Normalbuy_alert = input.bool(title='Buy Signal', defval=false, inline = "NB", group=gr_customalert)
Strongbuy_alert = input.bool(title='Strong Buy', defval=true, inline = "NB", group=gr_customalert)
Normalsell_alert = input.bool(title='Sell Signal', defval=false , inline = "NS", group=gr_customalert)
Strongsell_alert = input.bool(title='Strong Sell', defval=true , inline = "NS", group=gr_customalert)
slalert = input.bool(title='Stop-Loss', defval=true , inline = "SLTP1", group=gr_customalert)
tp1alert = input.bool(title='Target 1', defval=true , inline = "SLTP1", group=gr_customalert)
tp2alert = input.bool(title='Target 2', defval=true , inline = "TP2TP3", group=gr_customalert)
tp3alert = input.bool(title='Target 3', defval=true , inline = "TP2TP3", group=gr_customalert)
bullcrosscloud_alert = input.bool(title='Bullish Cloud', defval=false, inline = "CD", group=gr_customalert)
bearcrosscloud_alert = input.bool(title='Bearish Cloud', defval=false, inline = "CD", group=gr_customalert)
showCons = false
paintCons = false
// Signal Text
SimpleBuy = "Buy"
StrongB = "Strong Buy"
SimpleSell = "Sell"
StrongS = "Strong Sell"
if TextStyle == "Normal"
SimpleBuy := "Buy"
StrongB := "BUY"
SimpleSell:= "Sell"
StrongS := "Strong Sell"
if TextStyle == "Minimal"
SimpleBuy := "⬆"
StrongB := "⬆⬆"
SimpleSell:= "⬇"
StrongS := "⬇⬇"
// Signal Text Color
// bullsignalcolor = #ffffff
// bearsignalcolor = color.rgb(255, 255, 255)
// if TextStyle == "Normal"
// bullsignalcolor := color.rgb(255, 255, 255)
// bearsignalcolor := color.rgb(255, 255, 255)
// if TextStyle == "Minimal"
// bullsignalcolor := color.rgb(255, 255, 255)
// bearsignalcolor := color.rgb(255, 255, 255)
src = close
RSII = ta.ema(ta.rsi(src, 50), 30)
TR = math.abs(RSII - RSII )
wwalpha = 1 / 50
WWMA = 0.0
WWMA := wwalpha * TR + (1 - wwalpha) * nz(WWMA )
ATRRSI = 0.0
ATRRSI := wwalpha * WWMA + (1 - wwalpha) * nz(ATRRSI )
TsFast = ta.ema(ta.rsi(src, 50), 30)
TsUP = TsFast + ATRRSI * 4.236
TsDN = TsFast - ATRRSI * 4.236
textWatermark = table.new(textVPosition + '_' + textHPosition, 1, 3)
TsSlow = 0.0
TsSlow := TsUP < nz(TsSlow ) ? TsUP : TsFast > nz(TsSlow ) and TsFast < nz(TsSlow ) ? TsDN : TsDN > nz(TsSlow ) ? TsDN : TsDN < nz(TsSlow ) and TsFast > nz(TsSlow ) ? TsUP : nz(TsSlow )
Colorh = TsFast > 55 ? color.rgb(255, 0, 0) : TsFast < 45 ? color.rgb(0, 255, 8) : #ffffff
//QQF = plot(TsFast, 'TS FAST', color=color.new(color.maroon, 100), linewidth=2, display=display.none, editable = false)
//QQS = plot(TsSlow, 'TS SLOW', color=color.new(color.white, 100), linewidth=2, display=display.none , editable = false)
//plot(TsFast, color=Colorh, linewidth=2, style=plot.style_area, histbase=50)
//BearLimit = hline(60, color=color.gray, linestyle=hline.style_dashed)
//BullLimt = hline(40, color=color.gray, linestyle=hline.style_dashed)
bulllim = 45
bearlim = 55
BullSignalr = ta.crossover(TsFast, TsSlow) and TsFast < bulllim
BearSignallr = ta.crossunder(TsFast, TsSlow) and TsFast > bearlim
/////////////////////////////////////////////////////////
// Trap Detector
////////////////////////////////////////////////////////
// Functions
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)
f_top_fractal(src) => src < src and src < src and src > src and src > src
f_bot_fractal(src) => src > src and src > src and src < src and src < src
f_fractalize (src) => f_top_fractal(src) ? 1 : f_bot_fractal(src) ? -1 : 0
f_findDivs(src, topLimit, botLimit) =>
fractalTop = f_fractalize(src) > 0 and src >= topLimit ? src : na
fractalBot = f_fractalize(src) < 0 and src <= botLimit ? src : na
highPrev = ta.valuewhen(fractalTop, src , 0)
highPrice = ta.valuewhen(fractalTop, high , 0)
lowPrev = ta.valuewhen(fractalBot, src , 0)
lowPrice = ta.valuewhen(fractalBot, low , 0)
bearSignal = fractalTop and high > highPrice and src < highPrev
bullSignal = fractalBot and low < lowPrice and src > lowPrev
// Get components
= wavetrend(close, 5*MSTuner, 10*MSTuner)
= f_findDivs(wt2, 10, -35)
= f_findDivs(wt2, 40, -70)
wtDivBull = wtDivBull1 or wtDivBull2
wtDivBear = wtDivBear1 or wtDivBear2
plotshape(ta.crossover(wt1, wt2) and Show_PR and wt2 <= -60)
plotshape(ta.crossunder(wt1, wt2) and Show_PR and wt2 >= 60)
rsi = ta.rsi(close ,14)
// Functions
f_chartTfInMinutes() =>
float _resInMinutes = timeframe.multiplier * (
timeframe.isseconds ? 1. / 60 :
timeframe.isminutes ? 1. :
timeframe.isdaily ? 60. * 24 :
timeframe.isweekly ? 60. * 24 * 7 :
timeframe.ismonthly ? 60. * 24 * 30.4375 : na)
atr(len) =>
tr = ta.tr
atr = 0.0
atr := nz(atr + (tr - atr ) / len, tr)
supertrend(src, factor, len) =>
atr = ta.atr(len)
upperBand = src + factor * atr
lowerBand = src - factor * atr
prevLowerBand = nz(lowerBand )
prevUpperBand = nz(upperBand )
lowerBand := lowerBand > prevLowerBand or close < prevLowerBand ? lowerBand : prevLowerBand
upperBand := upperBand < prevUpperBand or close > prevUpperBand ? upperBand : prevUpperBand
int direction = na
float superTrend = na
prevSuperTrend = superTrend
if prevSuperTrend == prevUpperBand
direction := close > upperBand ? 1 : -1
else
direction := close < lowerBand ? -1 : 1
superTrend := direction == 1 ? lowerBand : direction == -1 ? upperBand : na
dchannel(len)=>
hh = ta.highest(len)
ll = ta.lowest (len)
trend = 0
trend := close > hh ? 1 : close < ll ? -1 : nz(trend )
trendScalper(show, len1, len2, len3, colorBull, colorBear, colorBarBull, colorBarBear) =>
avgOC = math.avg(open, close)
ha_o = 0.0, ha_o := na(ha_o ) ? avgOC : (ha_o + ohlc4 ) / 2
ema1 = ta.ema(ha_o, len1), ema2 = ta.ema(ha_o, len2), ema3 = ta.ema(ha_o, len3)
ris1 = ema1 > ema1 , ris2 = ema2 > ema2 , ris3 = ema3 > ema3
fal1 = ema1 < ema1 , fal2 = ema2 < ema2 , fal3 = ema3 < ema3
colorEma1 = ris1 ? colorBull : fal1 ? colorBear : na, colorEma2 = ris2 ? colorBull : fal2 ? colorBear : na, colorEma3 = ris3 ? colorBull : fal3 ? colorBear : na
fillEma1 = avgOC > ema1 ? colorBull : avgOC < ema1 ? colorBear : na, fillEma2 = ema1 > ema2 ? colorBull : ema1 < ema2 ? colorBear : na, fillEma3 = ema2 > ema3 ? colorBull : ema2 < ema3 ? colorBear : na
colorBar = close < ema1 and close < ema2 ? colorBarBear : colorBarBull
candlesMom() =>
= ta.macd(close, 2, 4, 3)
(macd > 10 and macd > macd ) or (macd < 10 and macd < macd )
trailingSL(buy, sell, factor, len, usePerc, perc) =>
atr = atr(len)
upperBand = high + (usePerc ? high * (perc / 100) : factor * atr)
lowerBand = low - (usePerc ? low * (perc / 100) : factor * atr)
prevLowerBand = nz(lowerBand )
prevUpperBand = nz(upperBand )
lowerBand := lowerBand > prevLowerBand or buy ? lowerBand : prevLowerBand
upperBand := upperBand < prevUpperBand or sell ? upperBand : prevUpperBand
int direction = na
float stop = na
prevSuperTrend = stop
if prevSuperTrend == prevUpperBand
direction := buy ? 1 : -1
else
direction := sell ? -1 : 1
stop := direction == 1 ? lowerBand : direction == -1 ? upperBand : na
add_to_zz(zz, val, bi) =>
array.unshift(zz, bi)
array.unshift(zz, val)
if array.size(zz) > 12
array.pop(zz)
update_zz(zz, val, bi, dir) =>
if array.size(zz) == 0
add_to_zz(zz, val, bi)
else
if dir == 1 and val > array.get(zz, 0) or dir == -1 and val < array.get(zz, 0)
array.set(zz, 0, val)
array.set(zz, 1, bi)
0
// Get components
vosc = ta.obv - ta.ema(ta.obv, 20)
bs = ta.ema(nz(math.abs((open - close) / (high - low) * 100)), 3)
ema = ta.ema(close, 200)
emaBull = close > ema
equal_tf(res) => str.tonumber(res) == f_chartTfInMinutes()
higher_tf(res) => str.tonumber(res) > f_chartTfInMinutes()
too_small_tf(res) => (timeframe.isweekly and res=="1") or (timeframe.ismonthly and str.tonumber(res) < 10)
securityNoRep(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()) : 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 = securityNoRep(syminfo.tickerid, "1" , emaBull)
//TF3Bull = securityNoRep(syminfo.tickerid, "3" , emaBull)
TF5Bull = securityNoRep(syminfo.tickerid, "5" , emaBull)
//TF10Bull = securityNoRep(syminfo.tickerid, "10" , emaBull)
TF15Bull = securityNoRep(syminfo.tickerid, "15" , emaBull)
TF30Bull = securityNoRep(syminfo.tickerid, "30" , emaBull)
TF60Bull = securityNoRep(syminfo.tickerid, "60" , emaBull)
//TF120Bull = securityNoRep(syminfo.tickerid, "120" , emaBull)
TF240Bull = securityNoRep(syminfo.tickerid, "240" , emaBull)
//TF720Bull = securityNoRep(syminfo.tickerid, "720" , emaBull)
//TFDBull = securityNoRep(syminfo.tickerid, "1440", emaBull)
hma55 = ta.hma(close, 55 )
= ta.macd(close, 12, 26, 9)
supertrend = supertrend(close, sensitivity, STuner)
maintrend = dchannel(30)
confBull = (ta.crossover (close, supertrend) or (ta.crossover (close, supertrend) and maintrend < 0)) and macd > 0 and macd > macd and ema150 > ema250 and hma55 > hma55 and maintrend > 0
confBear = (ta.crossunder(close, supertrend) or (ta.crossunder(close, supertrend) and maintrend > 0)) and macd < 0 and macd < macd and ema150 < ema250 and hma55 < hma55 and maintrend < 0
trendcloud = supertrend(ohlc4, periodTrendCloud == "Swing" ? 7 : 4, 10)
hma = periodTrendCloud == "Scalping+" ? ta.hma(close, 55) : na
none = close > 0
= ta.dmi(14, 14)
consFilter = adx > 20
ContBear = TsFast > 65
ContBull = TsFast < 35
StrongFilter = ta.ema(close, 200)
//volFilter = (ta.ema(volume, 25) - ta.ema(volume, 26)) / ta.ema(volume, 26) > 0
volFilter = (ta.ema(volume, 15) - ta.ema(volume, 20)) / ta.ema(volume, 25) > 0
trendFilter = trendcloud
bull = (Presets == "All Signals" ? ta.crossover (close, supertrend) : confBull and not confBull ) and Presets != "Trend Scalper" and (StrongSignalsOnly ? close > StrongFilter : none) and (ContrarianOnly ? ContBull : none) and (consSignalsFilter ? consFilter : none) and (highVolSignals ? volFilter : none) and (signalsTrendCloud ? (periodTrendCloud == "Smooth" ? ema150 > ema250 : close > trendFilter) : none)
bear = (Presets == "All Signals" ? ta.crossunder(close, supertrend) : confBear and not confBear ) and Presets != "Trend Scalper" and (StrongSignalsOnly ? close < StrongFilter : none) and (ContrarianOnly ? ContBear : none) and (consSignalsFilter ? consFilter : none) and (highVolSignals ? volFilter : none) and (signalsTrendCloud ? (periodTrendCloud == "Smooth" ? ema150 < ema250 : close < trendFilter) : none)
countBull = ta.barssince(bull)
countBear = ta.barssince(bear)
trigger = nz(countBull, bar_index) < nz(countBear, bar_index) ? 1 : 0
= trendScalper(Presets == "Trend Scalper" ? true : false, 5, 9, 21, bullcolor, bearcolor, bullcolor, bearcolor)
trailingStop = trailingSL(bull, bear, 2.2, 14, usePercSL, percTrailingSL)
float _ph = ta.highestbars(high, periodSwings) == 0 ? high : na
float _pl = ta.lowestbars (low, periodSwings) == 0 ? low : na
var _dir = 0, dir_ = _pl and na(_ph) ? -1 : _dir, _dir := _ph and na(_pl) ? 1 : dir_, dirChg = ta.change(_dir)
var zz = array.new_float(0), zzOld = array.copy(zz)
float zzLive = _ph or _pl ? (dirChg ? add_to_zz(zz, _dir == 1 ? _ph : _pl, bar_index) : update_zz(zz, _dir == 1 ? _ph : _pl, bar_index, _dir)) : na
float hb_ = ta.highestbars(10) == 0 ? high : na
float lb_ = ta.lowestbars (10) == 0 ? low : na
var int dir = 0
float zz_ = na
float pp = na
var int consCnt = 0
var float condHi = na
var float condLo = na
float H_ = ta.highest(5)
float L_ = ta.lowest (5)
var line lineUp = na
var line lineDn = na
bool breakUp = false
bool breakDn = false
var float pvh1_price = array.new_float(1000, na)
var int pvh1_time = array.new_int (1000, na)
var float pvl1_price = array.new_float(1000, na)
var int pvl1_time = array.new_int (1000, na)
var float pvh2_price = array.new_float(1000, na)
var int pvh2_time = array.new_int (1000, na)
var float pvl2_price = array.new_float(1000, na)
var int pvl2_time = array.new_int (1000, na)
var float htcmrll_price = na
var int htcmrll_time = na
var float ltcmrhh_price = na
var int ltcmrhh_time = na
var box long_boxes = array.new_box()
var box short_boxes = array.new_box()
var float temp_pv_0 = na
var float temp_pv_1 = na
var float temp_pv_2 = na
bool pvh = high < high and high > high
bool pvl = low > low and low < low
int pv1_time = bar_index
float pv1_high = high
float pv1_low = low
var buyBars = array.new_box(365, na)
for i = 0 to 364
box.delete(array.get(buyBars, i))
var sellBars = array.new_box(365, na)
for i = 0 to 364
box.delete(array.get(sellBars, i))
// Colors
green = bullcolor, green50 = color.new(green, 50), green20 = color.new(green, 80)
red = bearcolor, red50 = color.new(red, 50), red20 = color.new(red, 80)
silver = #B2B5BE, silver50 = color.new(silver, 50), silver20 = color.new(silver, 80)
// Plots
atrBand = usePercSL ? (trigger ? low : high) * (percTrailingSL / 100) : ta.atr(14) * 2.2
atrStop = trigger ? low - atrBand : high + atrBand
lastTrade(src) => ta.valuewhen(bull or bear, src, 0)
entry_y = lastTrade(close)
stop_y = lastTrade(atrStop)
tp1_y = (entry_y-lastTrade(atrStop))*multTP1 + entry_y
tp2_y = (entry_y-lastTrade(atrStop))*multTP2 + entry_y
tp3_y = (entry_y-lastTrade(atrStop))*multTP3 + entry_y
labelTpSl(cond, y, txt, color) =>
label labelTpSl = ShowTpSlAreas and cond ? label.new(bar_index + 1, y, txt, xloc.bar_index, yloc.price, color, label.style_label_left, color.white, size.normal) : na
label.delete(labelTpSl )
labelTpSl(none, entry_y, "Entry : " + str.tostring(math.round_to_mintick(entry_y)), #089981)
labelTpSl(none, stop_y , "Stop loss : " + str.tostring(math.round_to_mintick(atrStop)), bearcolor)
labelTpSl(useTP1 and multTP1 != 0, tp1_y, "TP 1 : " + str.tostring(math.round_to_mintick(tp1_y)), #089981)
labelTpSl(useTP2 and multTP2 != 0, tp2_y, "TP 2 : " + str.tostring(math.round_to_mintick(tp2_y)), #089981)
labelTpSl(useTP3 and multTP3 != 0, tp3_y, "TP 3 : " + str.tostring(math.round_to_mintick(tp3_y)), #089981)
lineTpSl(cond, y, color, style) =>
line lineTpSl = ShowTpSlAreas and cond ? line.new(bar_index - (trigger ? countBull : countBear), y, bar_index + 1, y, xloc.bar_index, extend.none, color, style) : na
line.delete(lineTpSl )
lineTpSl(none, entry_y, #089981, line.style_dashed)
lineTpSl(none, stop_y , bearcolor , line.style_solid )
lineTpSl(useTP1 and multTP1 != 0, tp1_y, bullcolor, line.style_dotted)
lineTpSl(useTP2 and multTP2 != 0, tp2_y, bullcolor, line.style_dotted)
lineTpSl(useTP3 and multTP3 != 0, tp3_y, bullcolor, line.style_dotted)
//buy = showSignals and bull ? label.new(bar_index, low , close > StrongFilter ? StrongB : SimpleBuy , xloc.bar_index, yloc.belowbar, bullcolor, label.style_label_up , color.rgb(255, 255, 255), size.normal) : na
//sell = showSignals and bear ? label.new(bar_index, high, close < StrongFilter ? StrongS : SimpleSell , xloc.bar_index, yloc.abovebar, bearcolor , label.style_label_down, color.rgb(255, 255, 255), size.normal) : na
buy = (showSignals and bull ? label.new(bar_index, low , close > StrongFilter ? StrongB : SimpleBuy , xloc.bar_index, yloc.belowbar, bullcolor, label.style_label_up , color.rgb(255, 255, 255), size.normal) : na)
sell = showSignals and bear ? label.new(bar_index, high, close < StrongFilter ? StrongS : SimpleSell , xloc.bar_index, yloc.abovebar, bearcolor , label.style_label_down, color.rgb(255, 255, 255), size.normal) : na
tpLabels(tp) =>
tp1Bull = ta.crossover (rsi, 70), tp2Bull = ta.crossover (rsi, 75), tp3Bull = ta.crossover (rsi, 80)
tp1Bull := tp1Bull and (nz(ta.barssince(tp1Bull) , 9999) > countBull), tp2Bull := tp2Bull and (ta.barssince(tp1Bull) <= countBull), tp2Bull := tp2Bull and (nz(ta.barssince(tp2Bull) , 9999) > countBull), tp3Bull := tp3Bull and (ta.barssince(tp2Bull) <= countBull), tp3Bull := tp3Bull and (nz(ta.barssince(tp3Bull) , 9999) > countBull)
tp1Bear = ta.crossunder(rsi, 30), tp2Bear = ta.crossunder(rsi, 25), tp3Bear = ta.crossunder(rsi, 20)
tp1Bear := tp1Bear and (nz(ta.barssince(tp1Bear) , 9999) > countBear), tp2Bear := tp2Bear and (ta.barssince(tp1Bear) <= countBear), tp2Bear := tp2Bear and (nz(ta.barssince(tp2Bear) , 9999) > countBear), tp3Bear := tp3Bear and (ta.barssince(tp2Bear) <= countBear), tp3Bear := tp3Bear and (nz(ta.barssince(tp3Bear) , 9999) > countBear)
if Presets != "Trend Scalper" and tpLabels
trigger ? (tp == 1 ? tp1Bull : tp == 2 ? tp2Bull : tp3Bull) : (tp == 1 ? tp1Bear : tp == 2 ? tp2Bear : tp3Bear)
plotshape(tpLabels(1), "", shape.xcross, location.abovebar, trigger ? green : na , 0, "TP 1", trigger ? green : na , true)
plotshape(tpLabels(2), "", shape.xcross, location.abovebar, trigger ? green : na , 0, "TP 2", trigger ? green : na , false)
plotshape(tpLabels(3), "", shape.xcross, location.abovebar, trigger ? green : na , 0, "TP 3", trigger ? green : na , false)
plotshape(tpLabels(1), "", shape.xcross, location.belowbar, trigger ? na : red, 0, "TP 1", trigger ? na : red, true)
plotshape(tpLabels(2), "", shape.xcross, location.belowbar, trigger ? na : red, 0, "TP 2", trigger ? na : red, false)
plotshape(tpLabels(3), "", shape.xcross, location.belowbar, trigger ? na : red, 0, "TP 3", trigger ? na : red, false)
var label zzLabel = na
if array.size(zz) > 12 and ShowSwings
if array.get(zz, 0) != array.get(zzOld, 0) or array.get(zz, 1) != array.get(zzOld, 1)
if array.get(zz, 2) == array.get(zzOld, 2) and array.get(zz, 3) == array.get(zzOld, 3)
label.delete(zzLabel)
zzLabel := label.new(math.round(array.get(zz, 1)), array.get(zz, 0), _dir == 1 ? array.get(zz, 0) > array.get(zz, 4) ? ((array.get(zz, 4) < array.get(zz, 8)) ? "High" : "HH") : "LH" : array.get(zz, 0) < array.get(zz, 4) ? ((array.get(zz, 4) > array.get(zz, 8)) ? "Low" : "LL") : "HL", xloc.bar_index, yloc.price, color.new(color.white, 100), _dir == 1 ? label.style_label_down : label.style_label_up, _dir == 1 ? bullcolor : bearcolor)
if showCons and barstate.isconfirmed
dir := hb_ and na(lb_) ? 1 : lb_ and na(hb_) ? -1 : dir
if hb_ and lb_
if dir == 1
zz_ := hb_
else
zz_ := lb_
else
zz_ := hb_ ? hb_ : lb_ ? lb_ : na
for x = 0 to 1000
if na(close) or dir != dir
break
if zz_
if na(pp)
pp := zz_
else
if dir == 1 and zz_ > pp
pp := zz_
if dir == -1 and zz_ < pp
pp := zz_
if pp != pp
if consCnt > 5
if pp > condHi
breakUp := true
if pp < condLo
breakDn := true
if consCnt > 0 and pp <= condHi and pp >= condLo
consCnt += 1
else
consCnt := 0
else
consCnt += 1
if consCnt >= 5
if consCnt == 5
condHi := H_
condLo := L_
else
line.delete(lineUp)
line.delete(lineDn)
condHi := math.max(condHi, high)
condLo := math.min(condLo, low )
lineUp := line.new(bar_index, condHi , bar_index - consCnt, condHi , color=bearcolor , style=line.style_dashed)
lineDn := line.new(bar_index, condLo , bar_index - consCnt, condLo , color=color.lime, style=line.style_dashed)
fill(plot(condHi, "", na, 1, plot.style_stepline, editable=false), plot(condLo, "", na, 1, plot.style_stepline, editable=false), paintCons and consCnt > 5 ? color.white : na, "", false)
//buy_col = color.new(#0ac20a,0)
//sell_col = color.new(#fd1605,0)
//text_col = color.new(#FFFFFF,0)
// -------- Bearish trend (blue) color selection --------
// getSellColor(count) =>
// if count == 1
// color.new(#11e7f2,0)
// else
// if count == 2
// color.new(#11d9f2,0)
// else
// if count == 3
// color.new(#11cbf2,0)
// else
// if count == 4
// color.new(#11aff2,0)
// else
// if count == 5
// color.new(#1193f2,0)
// else
// if count == 6
// color.new(#1176f2,0)
// else
// if count == 7
// color.new(#105df4,0)
// else
// if count == 8
// color.new(#1051f5,0)
// else
// if count == 9
// color.new(#0f44f5,0)
// else
// if count == 10
// color.new(#0c3de0,0)
// else
// if count == 11
// color.new(#0935ca,0)
// else
// if count == 12
// color.new(#062eb4,0)
// else
// if count == 13
// color.new(#02269e,0)
// -------- Bullish trend (blue) color selection --------
// getBuyColor(count) =>
// if count == 1
// color.new(#eef211,0)
// else
// if count == 2
// color.new(#efdc11,0)
// else
// if count == 3
// color.new(#f0c511,0)
// else
// if count == 4
// color.new(#f1af11,0)
// else
// if count == 5
// color.new(#f29811,0)
// else
// if count == 6
// color.new(#f28811,0)
// else
// if count == 7
// color.new(#f27811,0)
// else
// if count == 8
// color.new(#f26811,0)
// else
// if count == 9
// color.new(#f25811,0)
// else
// if count == 10
// color.new(#ea420d,0)
// else
// if count == 11
// color.new(#e12c09,0)
// else
// if count == 12
// color.new(#d81605,0)
// else
// if count == 13
// color.new(#cf0000,0)
// -------- Calculate bearish trend sequence --------
buySetup = 0
buySetup := close < close ? buySetup == 13 ? 1 : buySetup + 1 : 0
// -------- Calculate bullish trend sequence --------
sellSetup = 0
sellSetup := close > close ? sellSetup == 13 ? 1 : sellSetup + 1 : 0
// -------- Paint bars --------
//barColour = buySetup >= 1 ? getBuyColor(buySetup) : sellSetup >= 1 ? getSellColor(sellSetup) : na
// Candle Coloring
// Input
FastteyLength = 12
SjlowLeyLength = 26
srrrc = close
signalXLength = 9
// Data reference
= ta.macd(srrrc, FastteyLength, SjlowLeyLength, signalXLength)
// 4 level of green
greenHigh = #7bff00
greenMidHigh = #7bff00
greenMidLow = #7bff00
greenLow = #7bff00
// Yellow
yellowLow = #693d8e
// 4 level of red
redHigh = #ff0000
redMidHigh = #ff0000
redMidLow = #ff0000
redLow = #ff0000
// Default color
candleBody = yellowLow
// Ranging trend
if histX > 0
if histX > histX and histX > 0
candleBody := greenLow
if histX < 0
if histX < histX and histX < 0
candleBody := redLow
// Bullish trend
if MacdX > 0 and histX > 0
candleBody := greenMidLow
if histX > histX and MacdX > 0 and histX > 0
candleBody := greenMidHigh
if histX > histX and MacdX > 0 and histX > 0
candleBody := greenHigh
// Bearish trend
if MacdX < 0 and histX < 0
candleBody := redMidLow
if histX < histX and MacdX < 0 and histX < 0
candleBody := redMidHigh
if histX < histX and MacdX < 0 and histX < 0
candleBody := redHigh
barcolor(candleBody)
//barcolor(TrendMap == 'RSI Gradient' ? barColour : na, title='Bar colors (heatmap)',editable=false)
//barcolor(momentumCandles and candlesMom() ? color.rgb(187, 187, 187) : TrendMap == 'Signal Based' ? (Presets == "Trend Scalper" ? colorBar : na(countBull) and na(countBear) ? color.gray : trigger ? bullcolor : bearcolor) : TrendMap == 'RSI Gradient' ? barColour : TrendMap == 'Trend Gradient' ? candleBody : na , editable=false)
//plotcandle(open, high, low, close , color = momentumCandles and candlesMom() ? color.rgb(187, 187, 187) : TrendMap == 'Signal Based' ? (Presets == "Trend Scalper" ? colorBar : na(countBull) and na(countBear) ? color.gray : trigger ? bullcolor : bearcolor) : TrendMap == 'RSI Gradient' ? barColour : TrendMap == 'Trend Gradient' ? candleBody : na , editable=false , wickcolor = momentumCandles and candlesMom() ? color.rgb(187, 187, 187) : TrendMap == 'Signal Based' ? (Presets == "Trend Scalper" ? colorBar : na(countBull) and na(countBear) ? color.gray : trigger ? bullcolor : bearcolor) : TrendMap == 'RSI Gradient' ? barColour : TrendMap == 'Trend Gradient' ? candleBody : na , editable=false , bordercolor = momentumCandles and candlesMom() ? color.rgb(187, 187, 187) : TrendMap == 'Signal Based' ? (Presets == "Trend Scalper" ? colorBar : na(countBull) and na(countBear) ? color.gray : trigger ? bullcolor : bearcolor) : TrendMap == 'RSI Gradient' ? barColour : TrendMap == 'Trend Gradient' ? candleBody : na , editable=false , editable = false)
fill(plot(showTrendCloud and periodTrendCloud == "Smooth" ? ema150 : na, "", na, editable=false), plot(showTrendCloud and periodTrendCloud == "Smooth" ? ema250 : na, "", na, editable=false), ema150 > ema250 ? color.new(bullcolor, 70) : ema150 < ema250 ? color.new(bearcolor, 70) : na)
plot(ShowTrailingSL and trigger and nz(ta.barssince(low < trailingStop), bar_index) > countBull ? trailingStop : na, "", green, 1, plot.style_linebr, editable=false)
plot(ShowTrailingSL and not trigger and nz(ta.barssince(high > trailingStop), bar_index) > countBear ? trailingStop : na, "", red , 1, plot.style_linebr, editable=false)
p0 = plot(avgOC, "", na , editable=false)
p1 = plot(ema5 , "", colorEma5 , editable=false)
p2 = plot(ema9 , "", colorEma9 , editable=false)
p3 = plot(ema21, "", colorEma21, editable=false)
plot(LongTrendAverage ? ta.ema(close, 250) : na, 'Trend Tracer', linewidth=2, color=close > ta.ema(close, 250) ? color.new(bullcolor, 45) : color.new(bearcolor, 45))
fill(p0, p1, fillEma5 )
fill(p1, p2, fillEma9 )
fill(p2, p3, fillEma21)
fill(plot(showTrendCloud and periodTrendCloud != "Smooth" and periodTrendCloud != "Scalping+" and trendcloud != 0 and close > trendcloud ? trendcloud : na, "", bullcolor, 1, plot.style_linebr, editable=false), p0, color.new(bullcolor, 90))
fill(plot(showTrendCloud and periodTrendCloud != "Smooth" and periodTrendCloud != "Scalping+" and trendcloud != 0 and close < trendcloud ? trendcloud : na, "", bearcolor , 1, plot.style_linebr, editable=false), p0, color.new(bearcolor , 90))
//fill(plot(hma, "", hma > hma ? green : hma < hma ? red : na, editable=false), plot(hma , "", hma > hma ? green : hma < hma ? red : na, editable=false), hma > hma ? green : hma < hma ? red : na)
////////////////////////////////////////////////////////////////////////////////////////////////
// Get user input
indicatorTF = "Chart"
// Functions
sqz(bbLen, bbMult, kcLen, kcMult, source) =>
upperBB = ta.sma(source, bbLen) + ta.stdev(source, bbLen) * bbMult
lowerBB = ta.sma(source, bbLen) - ta.stdev(source, bbLen) * bbMult
upperKC = ta.sma(source, kcLen) + ta.sma(ta.tr, kcLen) * kcMult
lowerKC = ta.sma(source, kcLen) - ta.sma(ta.tr, kcLen) * kcMult
sqzOn = lowerBB > lowerKC and upperBB < upperKC
sqzOff = lowerBB < lowerKC and upperBB > upperKC
qqe(rsiLen, rsiSmooth, factor, source, bbLen, bbMult) =>
rsiMa = ta.ema(ta.rsi(source, rsiLen), rsiSmooth)
delta = ta.ema(ta.ema(math.abs(ta.mom(rsiMa, 1)), rsiLen * 2 - 1), rsiLen * 2 - 1) * factor
longBand = 0.0, longBand := rsiMa > longBand and rsiMa > longBand ? math.max(longBand , rsiMa - delta) : rsiMa - delta
shortBand = 0.0, shortBand := rsiMa < shortBand and rsiMa < shortBand ? math.min(shortBand , rsiMa + delta) : rsiMa + delta
cross1 = ta.cross(rsiMa, shortBand )
cross2 = ta.cross(rsiMa, longBand )
trend = 0.0, trend := cross1 ? 1 : cross2 ? -1 : nz(trend , 1)
fastDelta = trend == 1 ? longBand : shortBand
_hist = rsiMa - 50
_line = fastDelta - 50
= ta.bb(_line, bbLen, bbMult)
// Get components
cond(_offset) =>
top = ta.highest(high, 10)
bot = ta.lowest(low, 10)
osc = ta.ema(hlc3, 5) - ta.ema(ohlc4, 20)
oscRis = osc > osc
oscFal = osc < osc
oscA0 = osc > 0
oscB0 = osc < 0
oscTop = oscFal and oscRis
oscBot = oscRis and oscFal
bullR = oscB0 and oscBot and ((osc > ta.valuewhen(oscB0 and oscBot, osc, 1) and bot < ta.valuewhen(oscB0 and oscBot, bot, 1)))
bearR = oscA0 and oscTop and ((osc < ta.valuewhen(oscA0 and oscTop, osc, 1) and top > ta.valuewhen(oscA0 and oscTop, top, 1)))
bullH = oscB0 and oscBot and ((osc < ta.valuewhen(oscB0 and oscBot, osc, 1) and bot > ta.valuewhen(oscB0 and oscBot, bot, 1)))
bearH = oscA0 and oscTop and ((osc > ta.valuewhen(oscA0 and oscTop, osc, 1) and top < ta.valuewhen(oscA0 and oscTop, top, 1)))
= sqz(20, 2, 20, 2, close)
= qqe(6, 6, 3, close, 50, 0.001)
= qqe(6, 5, 1.618, close, 50, 1)
= ta.dmi(14, 14)
[osc , oscRis , oscFal , oscA0 , oscB0 , oscTop , oscBot , bullR , bearR , bullH , bearH , sqzOn , sqzOff , _hist1 , upper1 , lower1 , _hist2 , _line2 , tvr ]
tf = indicatorTF == "Chart" ? timeframe.period : indicatorTF == "1 minute" ? "1" : indicatorTF == "3 minutes" ? "3" : indicatorTF == "5 minutes" ? "5" : indicatorTF == "10 minutes" ? "10" : indicatorTF == "15 minutes" ? "15" : indicatorTF == "30 minutes" ? "30" : indicatorTF == "45 minutes" ? "45" : indicatorTF == "1 hour" ? "60" : indicatorTF == "2 hours" ? "120" : indicatorTF == "3 hours" ? "180" : indicatorTF == "4 hours" ? "240" : indicatorTF == "12 hours" ? "720" : indicatorTF == "1 day" ? "1D" : indicatorTF == "1 week" ? "1W" : indicatorTF == "1 month" ? "1M" : na
= request.security(syminfo.tickerid, tf, cond(indicatorTF != "Chart" and barstate.isrealtime ? 1 : 0))
//colorTVR = tvr < 15 ? #F6525F : tvr > 15 and tvr < 25 ? #B2B5BE : #66BB6A
// Plots
//plot(Presets == "Money Moves TrendVR" ? tvr : na, "", colorTVR, editable=false)
TrendText = "Trending"
if tvr < 15 and tvr < 25
TrendText := "No trend"
if tvr > 15 and tvr < 25
TrendText := "Ranging"
//------------------------------------------------------------------------------------------------------- Volatitiry
//Calculates Volatility for Dashboard
atrr = 3 * ta.atr(10)
stdAtr = 2 * ta.stdev(atrr, 20)
smaAtr = ta.sma(atrr, 20)
topAtrDev = smaAtr + stdAtr
bottomAtrDev = smaAtr - stdAtr
calcDev = (atrr - bottomAtrDev) / (topAtrDev - bottomAtrDev)
percentVol = 40 * calcDev + 30
AvrLength = 21
PercentFilter = 144
xAavrVolume = ta.rma(volume, AvrLength)
nResLess = volume * 100 / xAavrVolume < PercentFilter ? 0 : volume
nRes = nResLess
clr = close < open ? #b2b5be : #00dbff
//plot(nRes, color=clr, style=plot.style_columns, title='Volume Filter', transp=20)
VolitiText = "Inactive"
if nRes
VolitiText := "Active"
//////////////////////////////////////////
ema69 = ta.ema(close, 9)
totalSentTxt = ema69 > ema69 ? 'Bullish' : ema69 < ema69 ? 'Bearish' : 'Flat'
// INputs
//Timezones
tz_incr = 0
use_exchange = false
//------------------------------------------------------------------------------
//Settings
//-----------------------------------------------------------------------------{
//Session A
NYSes = true
NYTxt = 'New York'
NYTime = '1300-2200'
//Session B
LDSes = true
sesb_txt = 'London'
sesb_ses = '0700-1600'
//Session C
show_sesc = true
sesc_txt = 'Tokyo'
sesc_ses = '0000-0900'
//Session D
show_sesd = true
sesd_txt = 'Sydney'
sesd_ses = '2100-0600'
//-----------------------------------------------------------------------------}
//Sessions
//-----------------------------------------------------------------------------{
tff = timeframe.period
var tz = use_exchange ? syminfo.timezone :
str.format('UTC{0}{1}', tz_incr >= 0 ? '+' : '-', math.abs(tz_incr))
is_sesa = math.sign(nz(time(tff, NYTime, tz)))
is_sesb = math.sign(nz(time(tff, sesb_ses, tz)))
is_sesc = math.sign(nz(time(tff, sesc_ses, tz)))
is_sesd = math.sign(nz(time(tff, sesd_ses, tz)))
////////////////////////////////////////////
SessionText = "Default"
if is_sesd
SessionText := sesd_txt
if is_sesc
SessionText := sesc_txt
if is_sesb
SessionText := sesb_txt
if is_sesa
SessionText := NYTxt
if is_sesd and is_sesc
SessionText := "Sydney/Tokyo"
if is_sesb and is_sesc
SessionText := "Tokyo/London"
if is_sesb and is_sesa
SessionText := "London/Newyork"
if is_sesa and is_sesd
SessionText := "Newyork/Sydney"
//-----------------------------------------------------------------------------}
//Overlays color.green : color.red
//
var dashboard_loc = locationDashboard == "Top Right" ? position.top_right : locationDashboard == "Middle Right" ? position.middle_right : locationDashboard == "Bottom Right" ? position.bottom_right : locationDashboard == "Top Center" ? position.top_center : locationDashboard == "Middle Center" ? position.middle_center : locationDashboard == "Bottom Center" ? position.bottom_center : locationDashboard == "Top Left" ? position.top_left : locationDashboard == "Middle Left" ? position.middle_left : position.bottom_left
var dashboard_size = sizeDashboard == "Large" ? size.large : sizeDashboard == "Normal" ? size.normal : sizeDashboard == "Small" ? size.small : size.tiny
var dashboard = showDashboard ? table.new(dashboard_loc, 3, 7, color.rgb(0, 0, 0, 60), #3d384300, 2, color.rgb(30, 34, 45 , 60), 1) : na
dashboard_cell(column, row, txt, signal=false) => table.cell(dashboard, column, row, txt, 0, 0, signal ? #000000 : color.white, text_size=dashboard_size)
dashboard_cell_bg(column, row, col) => table.cell_set_bgcolor(dashboard, column, row, col)
if barstate.islast and showDashboard
// MTF Trend
dashboard_cell(0, 0 , "MTF")
dashboard_cell(0, 2 , "M5") , dashboard_cell_bg(0, 2 , TF5Bull ? color.rgb(70, 153, 67) : #880000)
dashboard_cell(0, 3 , "M15") , dashboard_cell_bg(0, 3 , TF15Bull ? color.rgb(70, 153, 67) : #880000)
dashboard_cell(0, 4 , "M30") , dashboard_cell_bg(0, 4 , TF30Bull ? color.rgb(70, 153, 67) : #880000)
dashboard_cell(0, 5 , "1H") , dashboard_cell_bg(0, 5 , TF60Bull ? color.rgb(70, 153, 67) : #880000)
dashboard_cell(0, 6 , "4H") , dashboard_cell_bg(0, 6 , TF240Bull ? color.rgb(70, 153, 67) : #880000)
// Middel part
dashboard_cell(1, 0 , "PoseidonPips")
dashboard_cell(1, 2 , "Market State")
dashboard_cell(1, 3 , "Volatility")
dashboard_cell(1, 4 , "Institutional Activity")
dashboard_cell(1, 5 , "Current Session (UTC)")
dashboard_cell(1, 6 , "Trend Pressure")
// End part
dashboard_cell(2, 0 , "")
dashboard_cell(2, 2 , TrendText)
dashboard_cell(2, 3 , str.tostring(percentVol, '##.##') + '%')
dashboard_cell(2, 4 , VolitiText)
dashboard_cell(2, 5 , SessionText)
dashboard_cell(2, 6 , totalSentTxt)
// Alerts
// Cross Functions for SL and TP
f_sl_crossed() =>
ret = false
crossBull = low >= ta.lowest(low, 5) and low < ta.lowest(low, 5)
crossBear = high <= ta.highest(high, 5) and high > ta.highest(high, 5)
ret := trigger ? crossBull : crossBear
ret
f_tp_crossed(tp) =>
ret = false
crossBull = high <= tp and high > tp
crossBear = low >= tp and low < tp
ret := trigger ? crossBull : crossBear
ret
// Alert Conditions
alert04 = bull and close <= StrongFilter
alert07 = bull and close > StrongFilter
alert09 = f_sl_crossed()
alert11 = f_tp_crossed(60.0)
alert12 = f_tp_crossed(80.0)
alert13 = f_tp_crossed(100.0)
alert14 = periodTrendCloud == "Smooth" ? ta.crossunder(ema150, ema250) : (close < trendcloud) and (close > trendcloud )
alert15 = periodTrendCloud == "Smooth" ? ta.crossover(ema150, ema250) : (close > trendcloud) and (close < trendcloud )
// Signal Alerts
if alert04 and Normalbuy_alert
alert('Buy Signal Alert !!!', alert.freq_once_per_bar_close)
alert(syminfo.tickerid)
if alert07 and Strongbuy_alert
alert('Strong Buy Signal Alert !!!', alert.freq_once_per_bar_close)
alert(syminfo.tickerid)
if (bear and close >= StrongFilter) and Normalsell_alert
alert('Sell Signal Alert !!!', alert.freq_once_per_bar_close)
alert(syminfo.tickerid)
if (bear and close < StrongFilter) and Strongsell_alert
alert('Strong Sell Signal Alert !!!', alert.freq_once_per_bar_close)
alert(syminfo.tickerid)
// Risk Management Alerts
if alert09 and slalert
alert('SL Alert !!!', alert.freq_once_per_bar_close)
alert(syminfo.tickerid)
if alert11 and tp1alert
alert('Target 1 Alert !!!', alert.freq_once_per_bar_close)
alert(syminfo.tickerid)
if alert12 and tp2alert
alert('Target 2 Alert !!!', alert.freq_once_per_bar_close)
alert(syminfo.tickerid)
if alert13 and tp3alert
alert('Target 3 Alert !!!', alert.freq_once_per_bar_close)
alert(syminfo.tickerid)
// Cloud Alerts
if alert15 and bullcrosscloud_alert
alert('Cloud Turned Bullish !!!', alert.freq_once_per_bar_close)
alert(syminfo.tickerid)
if alert14 and bearcrosscloud_alert
alert('Cloud Turned Bearish !!!', alert.freq_once_per_bar_close)
alert(syminfo.tickerid)
// Alert Conditions for TradingView
alertcondition(alert04, "Normal Buy Alert", "Normal Buy Signal")
alertcondition(alert07, "Strong Buy Alert", "Strong Buy Signal")
alertcondition((bear and close >= StrongFilter), "Normal Sell Alert", "Normal Sell Signal")
alertcondition((bear and close < StrongFilter), "Strong Sell Alert", "Strong Sell Signal")
alertcondition(alert09, "SL Crossed Alert", "Stop Loss Crossed")
alertcondition(alert11, "TP1 Crossed Alert", "Target 1 Crossed")
alertcondition(alert12, "TP2 Crossed Alert", "Target 2 Crossed")
alertcondition(alert13, "TP3 Crossed Alert", "Target 3 Crossed")
// Input
fastLength = 12
slowLength = 26
srcceed = close
signalLength = 9
// Data reference
= ta.macd(srcceed, fastLength, slowLength, signalLength)
// 4 level of green
greenHighh = #7bff00
greenMidHighh = #7bff00
greenMidLowh = #7bff00
greenLowh = #7bff00
// Yellow
yellowLowh = #693d8e
// 4 level of red
redHighh = #ff0000
redMidHighh = #ff0000
redMidLowh = #ff0000
redLowh = #ff0000
// Default color
candleBodyd = yellowLowh
// Ranging trend
if hist > 0
if hist > hist and hist > 0
candleBodyd := greenLowh
if hist < 0
if hist < hist and hist < 0
candleBodyd := redLowh
// Bullish trend
if macdda > 0 and hist > 0
candleBodyd := greenMidLowh
if hist > hist and macd > 0 and hist > 0
candleBodyd := greenMidHighh
if hist > hist and macd > 0 and hist > 0
candleBodyd := greenHighh
// Bearish trend
if macdda < 0 and hist < 0
candleBodyd := redMidLowh
if hist < hist and macd < 0 and hist < 0
candleBodyd := redMidHighh
if hist < hist and macd < 0 and hist < 0
candleBodyd := redHighh
barcolor(candleBodyd) // Include suggestion by Shaheen204
//
tenkan_len = 365
tenkan_mult = 3
kijun_len = 365
kijun_mult = 7
spanB_len = 365
spanB_mult = 10
offset = 1
//------------------------------------------------------------------------------
avg(src,length,mult)=>
atr = ta.atr(50)*mult
up = hl2 + atr
dn = hl2 - atr
upper = 0.,lower = 0.
upper := src < upper ? math.min(up,upper ) : up
lower := src > lower ? math.max(dn,lower ) : dn
os = 0,max = 0.,min = 0.
os := src > upper ? 1 : src < lower ? 0 : os
spt = os == 1 ? lower : upper
max := ta.cross(src,spt) ? math.max(src,max ) : os == 1 ? math.max(src,max ) : spt
min := ta.cross(src,spt) ? math.min(src,min ) : os == 0 ? math.min(src,min ) : spt
math.avg(max,min)
//------------------------------------------------------------------------------
tenkan = avg(close,tenkan_len,tenkan_mult)
kijun = avg(close,kijun_len,kijun_mult)
senkouA = math.avg(kijun,tenkan)
senkouB = avg(close,spanB_len,spanB_mult)
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
//Smart Money Concept
settings = "Settings"
zigzag_len = input.int(9, "ZigZag Length", group=settings)
show_zigzag = input.bool(false, "Show Zigzag", group=settings)
fib_factor = input.float(0.33, "Fib Factor for breakout confirmation", 0, 1, 0.01, group=settings)
text_size = input.string(size.tiny, "Text Size", , group=settings)
delete_boxes = input.bool(true, "Delete Old/Broken Boxes", group=settings)
bu_ob_inline_color = "Bu-OB Colors"
be_ob_inline_color = "Be-OB Colors"
bu_bb_inline_color = "Bu-BB Colors"
be_bb_inline_color = "Be-BB Colors"
bu_ob_display_settings = "Bu-OB Display Settings"
bu_ob_color = input.color(color.new(color.green, 70), "Color", group=bu_ob_display_settings, inline=bu_ob_inline_color)
bu_ob_border_color = input.color(color.green, "Border Color", group=bu_ob_display_settings, inline=bu_ob_inline_color)
bu_ob_text_color = input.color(color.green, "Text Color", group=bu_ob_display_settings, inline=bu_ob_inline_color)
be_ob_display_settings = "Be-OB Display Settings"
be_ob_color = input.color(color.new(color.red, 70), "Color", group=be_ob_display_settings, inline=be_ob_inline_color)
be_ob_border_color = input.color(color.red, "Border Color", group=be_ob_display_settings, inline=be_ob_inline_color)
be_ob_text_color = input.color(color.red, "Text Color", group=be_ob_display_settings, inline=be_ob_inline_color)
bu_bb_display_settings = "Bu-BB & Bu-MB Display Settings"
bu_bb_color = input.color(color.new(color.green, 70), "Color", group=bu_bb_display_settings, inline=bu_bb_inline_color)
bu_bb_border_color = input.color(color.green, "Border Color", group=bu_bb_display_settings, inline=bu_bb_inline_color)
bu_bb_text_color = input.color(color.green, "Text Color", group=bu_bb_display_settings, inline=bu_bb_inline_color)
be_bb_display_settings = "Be-BB & Be-MB Display Settings"
be_bb_color = input.color(color.new(color.red, 70), "Color", group=be_bb_display_settings, inline=be_bb_inline_color)
be_bb_border_color = input.color(color.red, "Border Color", group=be_bb_display_settings, inline=be_bb_inline_color)
be_bb_text_color = input.color(color.red, "Text Color", group=be_bb_display_settings, inline=be_bb_inline_color)
var float high_points_arr = array.new_float(5)
var int high_index_arr = array.new_int(5)
var float low_points_arr = array.new_float(5)
var int low_index_arr = array.new_int(5)
var box bu_ob_boxes = array.new_box(5)
var box be_ob_boxes = array.new_box(5)
var box bu_bb_boxes = array.new_box(5)
var box be_bb_boxes = array.new_box(5)
to_up = high >= ta.highest(zigzag_len)
to_down = low <= ta.lowest(zigzag_len)
trend = 1
trend := nz(trend , 1)
trend := trend == 1 and to_down ? -1 : trend == -1 and to_up ? 1 : trend
last_trend_up_since = ta.barssince(to_up )
low_val = ta.lowest(nz(last_trend_up_since > 0 ? last_trend_up_since : 1, 1))
low_index = bar_index - ta.barssince(low_val == low)
last_trend_down_since = ta.barssince(to_down )
high_val = ta.highest(nz(last_trend_down_since > 0 ? last_trend_down_since : 1, 1))
high_index = bar_index - ta.barssince(high_val == high)
if ta.change(trend) != 0
if trend == 1
array.push(low_points_arr, low_val)
array.push(low_index_arr, low_index)
if trend == -1
array.push(high_points_arr, high_val)
array.push(high_index_arr, high_index)
f_get_high(ind) =>
f_get_low(ind) =>
f_delete_box(box_arr) =>
if delete_boxes
box.delete(array.shift(box_arr))
else
array.shift(box_arr)
0
= f_get_high(0)
= f_get_high(1)
= f_get_low(0)
= f_get_low(1)
if ta.change(trend) != 0 and show_zigzag
if trend == 1
line.new(h0i, h0, l0i, l0)
if trend == -1
line.new(l0i, l0, h0i, h0)
market = 1
market := nz(market , 1)
// market := market == 1 and close < l0 and low < l0 - math.abs(h0 - l0) * fib_factor ? -1 : market == -1 and close > h0 and high > h0 + math.abs(h0 - l0) * fib_factor ? 1 : market
last_l0 = ta.valuewhen(ta.change(market) != 0, l0, 0)
last_h0 = ta.valuewhen(ta.change(market) != 0, h0, 0)
market := last_l0 == l0 or last_h0 == h0 ? market : market == 1 and l0 < l1 and l0 < l1 - math.abs(h0 - l1) * fib_factor ? -1 : market == -1 and h0 > h1 and h0 > h1 + math.abs(h1 - l0) * fib_factor ? 1 : market
bu_ob_index = bar_index
bu_ob_index := nz(bu_ob_index , bar_index)
for i=h1i to l0i
index = bar_index - i
if open > close
bu_ob_index := bar_index
bu_ob_since = bar_index - bu_ob_index
be_ob_index = bar_index
be_ob_index := nz(be_ob_index , bar_index)
for i=l1i to h0i
index = bar_index - i
if open < close
be_ob_index := bar_index
be_ob_since = bar_index - be_ob_index
be_bb_index = bar_index
be_bb_index := nz(be_bb_index , bar_index)
for i=h1i - zigzag_len to l1i
index = bar_index - i
if open > close
be_bb_index := bar_index
be_bb_since = bar_index - be_bb_index
bu_bb_index = bar_index
bu_bb_index := nz(bu_bb_index , bar_index)
for i=l1i - zigzag_len to h1i
index = bar_index - i
if open < close
bu_bb_index := bar_index
bu_bb_since = bar_index - bu_bb_index
if ta.change(market) != 0
if market == 1
line.new(h1i, h1, h0i, h1, color=color.green, width=1)
label.new(int(math.avg(h1i, l0i)), h1, "BoS", color=color.new(color.black, 100), style=label.style_label_down, textcolor=color.green, size=size.small)
bu_ob = box.new(bu_ob_index, high , bar_index + 10, low , bgcolor=bu_ob_color, border_color=bu_ob_border_color, text="Bu-OB", text_color=bu_ob_text_color, text_halign=text.align_right, text_size=text_size)
bu_bb = box.new(bu_bb_index, high , bar_index + 10, low , bgcolor=bu_bb_color, border_color=bu_bb_border_color, text=l0 < l1 ? "Bu-BB" : "Bu-MB", text_color=bu_bb_text_color, text_halign=text.align_right, text_size=text_size)
array.push(bu_ob_boxes, bu_ob)
array.push(bu_bb_boxes, bu_bb)
if market == -1
line.new(l1i, l1, l0i, l1, color=color.red, width=1)
label.new(int(math.avg(l1i, h0i)), l1, "BoS", color=color.new(color.black, 100), style=label.style_label_up, textcolor=color.red, size=size.small)
be_ob = box.new(be_ob_index, high , bar_index + 10, low , bgcolor=be_ob_color, border_color=be_ob_border_color, text="Be-OB", text_color=be_ob_text_color, text_halign=text.align_right, text_size=text_size)
be_bb = box.new(be_bb_index, high , bar_index + 10, low , bgcolor=be_bb_color, border_color=be_bb_border_color, text=h0 > h1 ? "Be-BB" : "Be-MB", text_color=be_bb_text_color, text_halign=text.align_right, text_size=text_size)
array.push(be_ob_boxes, be_ob)
array.push(be_bb_boxes, be_bb)
for bull_ob in bu_ob_boxes
bottom = box.get_bottom(bull_ob)
top = box.get_top(bull_ob)
if close < bottom
f_delete_box(bu_ob_boxes)
else if close < top
alert("Price in the BU-OB zone")
else
box.set_right(bull_ob, bar_index + 10)
for bear_ob in be_ob_boxes
top = box.get_top(bear_ob)
bottom = box.get_bottom((bear_ob))
if close > top
f_delete_box(be_ob_boxes)
if close > bottom
alert("Price in the BE-OB zone")
else
box.set_right(bear_ob, bar_index + 10)
for bear_bb in be_bb_boxes
top = box.get_top(bear_bb)
bottom = box.get_bottom(bear_bb)
if close > top
f_delete_box(be_bb_boxes)
else if close > bottom
alert("Price in the BE-BB zone")
else
box.set_right(bear_bb, bar_index + 10)
for bull_bb in bu_bb_boxes
bottom = box.get_bottom(bull_bb)
top = box.get_top(bull_bb)
if close < bottom
f_delete_box(bu_bb_boxes)
else if close < top
alert("Price in the BU-BB zone")
else
box.set_right(bull_bb, bar_index + 10)
alertcondition(ta.change(market) != 0, "MSB", "MSB")
enableAutoTrend = input(true, "Enable Auto Trendlines", group="AUTO TRENDLINES SETTINGS")
srcTrendChannel = input(close, "Trend channel source", group="AUTO TRENDLINES SETTINGS")
lenTrendChannel = input.int(50, "Trend channel loopback", 2, group="AUTO TRENDLINES SETTINGS")
a = ta.wma(srcTrendChannel, lenTrendChannel), b = ta.sma(srcTrendChannel, lenTrendChannel)
A = 4 * b - 3 * a, B = 3 * a - 2 * b
m = (A - B) / (lenTrendChannel - 1)
d = 0., for i = 0 to lenTrendChannel - 1 by 1
l = B + m * i
d += math.pow(srcTrendChannel - l, 2)
rmse = math.sqrt(d / (lenTrendChannel - 1)) * 2
l(css, k) =>
line lr = enableAutoTrend ? line.new(bar_index - lenTrendChannel + 1, A + k, bar_index, B + k, extend=extend.right, color=css) : na
line.delete(lr )
l(#808080, rmse), l(#808080, 0), l(#808080,-rmse)
// ==========================================================================================
// === Dashboard with Telegram Link ===
var table myTable = table.new(position.top_center, 1, 1, border_width=1, frame_color=color.black, bgcolor=color.white)
table.cell(myTable, 0, 0, "", bgcolor=color.blue, text_color=color.white, text_size=size.normal)
INDIBOT ABO SALTAN
//@version=5
indicator("INDIBOT", shorttitle = "INDIBOT", overlay = true, max_lines_count = 500, max_labels_count = 500, max_boxes_count = 500, max_bars_back = 500, max_polylines_count = 100)
//-----------------------------------------------------------------------------{
//Boolean set
//-----------------------------------------------------------------------------{
s_BOS = 0
s_CHoCH = 1
i_BOS = 2
i_CHoCH = 3
i_pp_CHoCH = 4
green_candle = 5
red_candle = 6
s_CHoCHP = 7
i_CHoCHP = 8
boolean =
array.from(
false
, false
, false
, false
, false
, false
, false
, false
, false
)
//-----------------------------------------------------------------------------{
// User inputs
//-----------------------------------------------------------------------------{
show_swing_ms = input.string ("All" , "Swing " , inline = "1", group = "MARKET STRUCTURE" , options = )
show_internal_ms = input.string ("All" , "Internal " , inline = "2", group = "MARKET STRUCTURE" , options = )
internal_r_lookback = input.int (5 , "" , inline = "2", group = "MARKET STRUCTURE" , minval = 2)
swing_r_lookback = input.int (50 , "" , inline = "1", group = "MARKET STRUCTURE" , minval = 2)
ms_mode = input.string ("Manual" , "Market Structure Mode" , inline = "a", group = "MARKET STRUCTURE" , tooltip = " Use selected lenght Use automatic lenght" ,options = )
show_mtf_str = input.bool (true , "MTF Scanner" , inline = "9", group = "MARKET STRUCTURE" , tooltip = "Display Multi-Timeframe Market Structure Trend Directions. Green = Bullish. Red = Bearish")
show_eql = input.bool (false , "Show EQH/EQL" , inline = "6", group = "MARKET STRUCTURE")
plotcandle_bool = input.bool (false , "Plotcandle" , inline = "3", group = "MARKET STRUCTURE" , tooltip = "Displays a cleaner colored candlestick chart in place of the default candles. (requires hiding the current ticker candles)")
barcolor_bool = input.bool (false , "Bar Color" , inline = "4", group = "MARKET STRUCTURE" , tooltip = "Color the candle bodies according to market strucutre trend")
i_ms_up_BOS = input.color (#089981 , "" , inline = "2", group = "MARKET STRUCTURE")
i_ms_dn_BOS = input.color (#f23645 , "" , inline = "2", group = "MARKET STRUCTURE")
s_ms_up_BOS = input.color (#089981 , "" , inline = "1", group = "MARKET STRUCTURE")
s_ms_dn_BOS = input.color (#f23645 , "" , inline = "1", group = "MARKET STRUCTURE")
lvl_daily = input.bool (false , "Day " , inline = "1", group = "HIGHS & LOWS MTF")
lvl_weekly = input.bool (false , "Week " , inline = "2", group = "HIGHS & LOWS MTF")
lvl_monthly = input.bool (false , "Month" , inline = "3", group = "HIGHS & LOWS MTF")
lvl_yearly = input.bool (false , "Year " , inline = "4", group = "HIGHS & LOWS MTF")
css_d = input.color (color.blue , "" , inline = "1", group = "HIGHS & LOWS MTF")
css_w = input.color (color.blue , "" , inline = "2", group = "HIGHS & LOWS MTF")
css_m = input.color (color.blue , "" , inline = "3", group = "HIGHS & LOWS MTF")
css_y = input.color (color.blue , "" , inline = "4", group = "HIGHS & LOWS MTF")
s_d = input.string ('⎯⎯⎯' , '' , inline = '1', group = 'HIGHS & LOWS MTF' , options = )
s_w = input.string ('⎯⎯⎯' , '' , inline = '2', group = 'HIGHS & LOWS MTF' , options = )
s_m = input.string ('⎯⎯⎯' , '' , inline = '3', group = 'HIGHS & LOWS MTF' , options = )
s_y = input.string ('⎯⎯⎯' , '' , inline = '4', group = 'HIGHS & LOWS MTF' , options = )
ob_show = input.bool (true , "Show Last " , inline = "1", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Display volumetric order blocks on the chart Ammount of volumetric order blocks to show")
ob_num = input.int (5 , "" , inline = "1", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Orderblocks number", minval = 1, maxval = 10)
ob_metrics_show = input.bool (true , "Internal Buy/Sell Activity" , inline = "2", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Display volume metrics that have formed the orderblock")
css_metric_up = input.color (color.new(#089981, 50) , " " , inline = "2", group = "VOLUMETRIC ORDER BLOCKS")
css_metric_dn = input.color (color.new(#f23645 , 50) , "" , inline = "2", group = "VOLUMETRIC ORDER BLOCKS")
ob_swings = input.bool (false , "Swing Order Blocks" , inline = "a", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Display swing volumetric order blocks")
css_swing_up = input.color (color.new(color.gray , 90) , " " , inline = "a", group = "VOLUMETRIC ORDER BLOCKS")
css_swing_dn = input.color (color.new(color.silver, 90) , "" , inline = "a", group = "VOLUMETRIC ORDER BLOCKS")
ob_filter = input.string ("None" , "Filtering " , inline = "d", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Filter out volumetric order blocks by BOS/CHoCH/CHoCH+", options = )
ob_mitigation = input.string ("Absolute" , "Mitigation " , inline = "4", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Trigger to remove volumetric order blocks", options = )
ob_pos = input.string ("Precise" , "Positioning " , inline = "k", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Position of the Order Block Cover the whole candle Cover half candle Adjust to volatility Same as Accurate but more precise", options = )
use_grayscale = input.bool (false , "Grayscale" , inline = "6", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Use gray as basic order blocks color")
use_show_metric = input.bool (true , "Show Metrics" , inline = "7", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Show volume associated with the orderblock and his relevance")
use_middle_line = input.bool (true , "Show Middle-Line" , inline = "8", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Show mid-line order blocks")
use_overlap = input.bool (true , "Hide Overlap" , inline = "9", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Hide overlapping order blocks")
use_overlap_method = input.string ("Previous" , "Overlap Method " , inline = "Z", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = " Preserve the most recent volumetric order blocks Preserve the previous volumetric order blocks", options = )
ob_bull_css = input.color (color.new(#089981 , 90) , "" , inline = "1", group = "VOLUMETRIC ORDER BLOCKS")
ob_bear_css = input.color (color.new(#f23645 , 90) , "" , inline = "1", group = "VOLUMETRIC ORDER BLOCKS")
show_acc_dist_zone = input.bool (false , "" , inline = "1", group = "Accumulation And Distribution")
zone_mode = input.string ("Fast" , "" , inline = "1", group = "Accumulation And Distribution" , tooltip = " Find small zone pattern formation Find bigger zone pattern formation" ,options = )
acc_css = input.color (color.new(#089981 , 60) , "" , inline = "1", group = "Accumulation And Distribution")
dist_css = input.color (color.new(#f23645 , 60) , "" , inline = "1", group = "Accumulation And Distribution")
show_lbl = input.bool (true , "Show swing point" , inline = "1", group = "High and Low" , tooltip = "Display swing point")
show_mtb = input.bool (true , "Show High/Low/Equilibrium" , inline = "2", group = "High and Low" , tooltip = "Display Strong/Weak High And Low and Equilibrium")
toplvl = input.color (color.red , "Premium Zone " , inline = "3", group = "High and Low")
midlvl = input.color (color.gray , "Equilibrium Zone" , inline = "4", group = "High and Low")
btmlvl = input.color (#089981 , "Discount Zone " , inline = "5", group = "High and Low")
fvg_enable = input.bool (false , " " , inline = "1", group = "FAIR VALUE GAP" , tooltip = "Display fair value gap")
what_fvg = input.string ("FVG" , "" , inline = "1", group = "FAIR VALUE GAP" , tooltip = "Display fair value gap", options = )
fvg_num = input.int (5 , "Show Last " , inline = "1a", group = "FAIR VALUE GAP" , tooltip = "Number of fvg to show")
fvg_upcss = input.color (color.new(#089981, 80) , "" , inline = "1", group = "FAIR VALUE GAP")
fvg_dncss = input.color (color.new(color.red , 80) , "" , inline = "1", group = "FAIR VALUE GAP")
fvg_extend = input.int (10 , "Extend FVG" , inline = "2", group = "FAIR VALUE GAP" , tooltip = "Extend the display of the FVG.")
fvg_src = input.string ("Close" , "Mitigation " , inline = "3", group = "FAIR VALUE GAP" , tooltip = " Use the close of the body as trigger Use the extreme point of the body as trigger", options = )
fvg_tf = input.timeframe ("" , "Timeframe " , inline = "4", group = "FAIR VALUE GAP" , tooltip = "Timeframe of the fair value gap")
t = color.t (ob_bull_css)
invcol = color.new (color.white , 100)
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{ - UDT }
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
type bar
float o = open
float c = close
float h = high
float l = low
float v = volume
int n = bar_index
int t = time
type Zphl
line top
line bottom
label top_label
label bottom_label
bool stopcross
bool sbottomcross
bool itopcross
bool ibottomcross
string txtup
string txtdn
float topy
float bottomy
float topx
float bottomx
float tup
float tdn
int tupx
int tdnx
float itopy
float itopx
float ibottomy
float ibottomx
float uV
float dV
type FVG
box box
line ln
bool bull
float top
float btm
int left
int right
type ms
float p
int n
float l
type msDraw
int n
float p
color css
string txt
bool bull
type obC
float top
float btm
int left
float avg
float dV
float cV
int wM
int blVP
int brVP
int dir
float h
float l
int n
type obD
box ob
box eOB
box blB
box brB
line mL
type zone
chart.point points
float p
int c
int t
type hqlzone
box pbx
box ebx
box lbx
label plb
label elb
label lbl
type ehl
float pt
int t
float pb
int b
type pattern
string found = "None"
bool isfound = false
int period = 0
bool bull = false
type alerts
bool chochswing = false
bool chochplusswing = false
bool swingbos = false
bool chochplus = false
bool choch = false
bool bos = false
bool equal = false
bool ob = false
bool swingob = false
bool zone = false
bool fvg = false
bool obtouch = false
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{ - End }
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{ - General Setup }
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
bar b = bar.new()
var pattern p = pattern.new()
alerts blalert = alerts.new()
alerts bralert = alerts.new()
if p.isfound
p.period += 1
if p.period == 50
p.period := 0
p.found := "None"
p.isfound := false
p.bull := na
switch
b.c > b.o => boolean.set(green_candle, true)
b.c < b.o => boolean.set(red_candle , true)
f_zscore(src, lookback) =>
(src - ta.sma(src, lookback)) / ta.stdev(src, lookback)
var int iLen = internal_r_lookback
var int sLen = swing_r_lookback
vv = f_zscore(((close - close ) / close ) * 100,iLen)
if ms_mode == "Dynamic"
switch
vv >= 1.5 or vv <= -1.5 => iLen := 10
vv >= 1.6 or vv <= -1.6 => iLen := 9
vv >= 1.7 or vv <= -1.7 => iLen := 8
vv >= 1.8 or vv <= -1.8 => iLen := 7
vv >= 1.9 or vv <= -1.9 => iLen := 6
vv >= 2.0 or vv <= -2.0 => iLen := 5
=> iLen
var msline = array.new(0)
iH = ta.pivothigh(high, iLen, iLen)
sH = ta.pivothigh(high, sLen, sLen)
iL = ta.pivotlow (low , iLen, iLen)
sL = ta.pivotlow (low , sLen, sLen)
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{ - End }
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{ - ARRAYS }
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
hl () =>
= request.security(syminfo.tickerid , 'D' , hl() , lookahead = barmerge.lookahead_on)
= request.security(syminfo.tickerid , 'W' , hl() , lookahead = barmerge.lookahead_on)
= request.security(syminfo.tickerid , 'M' , hl() , lookahead = barmerge.lookahead_on)
= request.security(syminfo.tickerid , '12M', hl() , lookahead = barmerge.lookahead_on)
lstyle(style) =>
out = switch style
'⎯⎯⎯' => line.style_solid
'----' => line.style_dashed
'····' => line.style_dotted
mtfphl(h, l ,tf ,css, pdhl_style) =>
var line hl = line.new(
na
, na
, na
, na
, xloc = xloc.bar_time
, color = css
, style = lstyle(pdhl_style)
)
var line ll = line.new(
na
, na
, na
, na
, xloc = xloc.bar_time
, color = css
, style = lstyle(pdhl_style)
)
var label lbl = label.new(
na
, na
, xloc = xloc.bar_time
, text = str.format('P{0}L', tf)
, color = invcol
, textcolor = css
, size = size.small
, style = label.style_label_left
)
var label hlb = label.new(
na
, na
, xloc = xloc.bar_time
, text = str.format('P{0}H', tf)
, color = invcol
, textcolor = css
, size = size.small
, style = label.style_label_left
)
hy = ta.valuewhen(h != h , h , 1)
hx = ta.valuewhen(h == high , time , 1)
ly = ta.valuewhen(l != l , l , 1)
lx = ta.valuewhen(l == low , time , 1)
if barstate.islast
extension = time + (time - time ) * 50
line.set_xy1(hl , hx , hy)
line.set_xy2(hl , extension , hy)
label.set_xy(hlb, extension , hy)
line.set_xy1(ll , lx , ly)
line.set_xy2(ll , extension , ly)
label.set_xy(lbl, extension , ly)
if lvl_daily
mtfphl(pdh , pdl , 'D' , css_d, s_d)
if lvl_weekly
mtfphl(pwh , pwl , 'W' , css_w, s_w)
if lvl_monthly
mtfphl(pmh , pml, 'M' , css_m, s_m)
if lvl_yearly
mtfphl(pyh , pyl , '12M', css_y, s_y)
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{ - End }
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{ - Market Structure }
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
method darkcss(color css, float factor, bool bull) =>
blue = color.b(css) * (1 - factor)
red = color.r(css) * (1 - factor)
green = color.g(css) * (1 - factor)
color.rgb(red, green, blue, 0)
method f_line(msDraw d, size, style) =>
var line id = na
var label lbl = na
id := line.new(
d.n
, d.p
, b.n
, d.p
, color = d.css
, width = 1
, style = style
)
if msline.size() >= 250
line.delete(msline.shift())
msline.push(id)
lbl := label.new(
int(math.avg(d.n, b.n))
, d.p
, d.txt
, color = invcol
, textcolor = d.css
, style = d.bull ? label.style_label_down : label.style_label_up
, size = size
, text_font_family = font.family_monospace
)
structure(bool mtf) =>
msDraw drw = na
bool isdrw = false
bool isdrwS = false
var color css = na
var color icss = na
var int itrend = 0
var int trend = 0
bool bull_ob = false
bool bear_ob = false
bool s_bull_ob = false
bool s_bear_ob = false
n = bar_index
var ms up = ms.new(
array.new()
, array.new< int >()
, array.new()
)
var ms dn = ms.new(
array.new()
, array.new< int >()
, array.new()
)
var ms sup = ms.new(
array.new()
, array.new< int >()
, array.new()
)
var ms sdn = ms.new(
array.new()
, array.new< int >()
, array.new()
)
switch show_swing_ms
"All" => boolean.set(s_BOS , true ), boolean.set(s_CHoCH, true ) , boolean.set(s_CHoCHP, true )
"CHoCH" => boolean.set(s_BOS , false), boolean.set(s_CHoCH, true ) , boolean.set(s_CHoCHP, false )
"CHoCH+" => boolean.set(s_BOS , false), boolean.set(s_CHoCH, false) , boolean.set(s_CHoCHP, true )
"BOS" => boolean.set(s_BOS , true ), boolean.set(s_CHoCH, false) , boolean.set(s_CHoCHP, false )
"None" => boolean.set(s_BOS , false), boolean.set(s_CHoCH, false) , boolean.set(s_CHoCHP, false )
=> na
switch show_internal_ms
"All" => boolean.set(i_BOS, true ), boolean.set(i_CHoCH, true ), boolean.set(i_CHoCHP, true )
"CHoCH" => boolean.set(i_BOS, false), boolean.set(i_CHoCH, true ), boolean.set(i_CHoCHP, false)
"CHoCH+" => boolean.set(i_BOS, false), boolean.set(i_CHoCH, false ), boolean.set(i_CHoCHP, true )
"BOS" => boolean.set(i_BOS, true ), boolean.set(i_CHoCH, false ), boolean.set(i_CHoCHP, false)
"None" => boolean.set(i_BOS, false), boolean.set(i_CHoCH, false ), boolean.set(i_CHoCHP, false)
=> na
switch
iH =>
up.p.unshift(b.h )
up.l.unshift(b.h )
up.n.unshift(n )
iL =>
dn.p.unshift(b.l )
dn.l.unshift(b.l )
dn.n.unshift(n )
sL =>
sdn.p.unshift(b.l )
sdn.l.unshift(b.l )
sdn.n.unshift(n )
sH =>
sup.p.unshift(b.h )
sup.l.unshift(b.h )
sup.n.unshift(n )
// INTERNAL BULLISH STRUCTURE
if up.p.size() > 0 and dn.l.size() > 1
if ta.crossover(b.c, up.p.first())
bool CHoCH = na
string txt = na
if itrend < 0
CHoCH := true
switch
not CHoCH =>
txt := "BOS"
css := i_ms_up_BOS
blalert.bos := true
if boolean.get(i_BOS) and mtf == false and na(drw)
isdrw := true
drw := msDraw.new(
up.n.first()
, up.p.first()
, i_ms_up_BOS
, txt
, true
)
CHoCH =>
dn.l.first() > dn.l.get(1) ? blalert.chochplus : blalert.choch
txt := dn.l.first() > dn.l.get(1) ? "CHoCH+" : "CHoCH"
css := i_ms_up_BOS.darkcss(0.25, true)
if (dn.l.first() > dn.l.get(1) ? boolean.get(i_CHoCHP) : boolean.get(i_CHoCH)) and mtf == false and na(drw)
isdrw := true
drw := msDraw.new(
up.n.first()
, up.p.first()
, i_ms_up_BOS.darkcss(0.25, true)
, txt
, true
)
if mtf == false
switch
ob_filter == "None" => bull_ob := true
ob_filter == "BOS" and txt == "BOS" => bull_ob := true
ob_filter == "CHoCH" and txt == "CHoCH" => bull_ob := true
ob_filter == "CHoCH+" and txt == "CHoCH+" => bull_ob := true
itrend := 1
up.n.clear()
up.p.clear()
// INTERNAL BEARISH STRUCTURE
if dn.p.size() > 0 and up.l.size() > 1
if ta.crossunder(b.c, dn.p.first())
bool CHoCH = na
string txt = na
if itrend > 0
CHoCH := true
switch
not CHoCH =>
bralert.bos := true
txt := "BOS"
css := i_ms_dn_BOS
if boolean.get(i_BOS) and mtf == false and na(drw)
isdrw := true
drw := msDraw.new(
dn.n.first()
, dn.p.first()
, i_ms_dn_BOS
, txt
, false
)
CHoCH =>
if up.l.first() < up.l.get(1)
bralert.chochplus := true
else
bralert.choch := true
txt := up.l.first() < up.l.get(1) ? "CHoCH+" : "CHoCH"
css := i_ms_dn_BOS.darkcss(0.25, false)
if (up.l.first() < up.l.get(1) ? boolean.get(i_CHoCHP) : boolean.get(i_CHoCH)) and mtf == false and na(drw)
isdrw := true
drw := msDraw.new(
dn.n.first()
, dn.p.first()
, i_ms_dn_BOS.darkcss(0.25, false)
, txt
, false
)
if mtf == false
switch
ob_filter == "None" => bear_ob := true
ob_filter == "BOS" and txt == "BOS" => bear_ob := true
ob_filter == "CHoCH" and txt == "CHoCH" => bear_ob := true
ob_filter == "CHoCH+" and txt == "CHoCH+" => bear_ob := true
itrend := -1
dn.n.clear()
dn.p.clear()
// SWING BULLISH STRUCTURE
if sup.p.size() > 0 and sdn.l.size() > 1
if ta.crossover(b.c, sup.p.first())
bool CHoCH = na
string txt = na
if trend < 0
CHoCH := true
switch
not CHoCH =>
blalert.swingbos := true
txt := "BOS"
icss := s_ms_up_BOS
if boolean.get(s_BOS) and mtf == false and na(drw)
isdrwS := true
drw := msDraw.new(
sup.n.first()
, sup.p.first()
, s_ms_up_BOS
, txt
, true
)
CHoCH =>
if sdn.l.first() > sdn.l.get(1)
blalert.chochplusswing := true
else
blalert.chochswing := true
txt := sdn.l.first() > sdn.l.get(1) ? "CHoCH+" : "CHoCH"
icss := s_ms_up_BOS.darkcss(0.25, true)
if (sdn.l.first() > sdn.l.get(1) ? boolean.get(s_CHoCHP) : boolean.get(s_CHoCH)) and mtf == false and na(drw)
isdrwS := true
drw := msDraw.new(
sup.n.first()
, sup.p.first()
, s_ms_up_BOS.darkcss(0.25, true)
, txt
, true
)
if mtf == false
switch
ob_filter == "None" => s_bull_ob := true
ob_filter == "BOS" and txt == "BOS" => s_bull_ob := true
ob_filter == "CHoCH" and txt == "CHoCH" => s_bull_ob := true
ob_filter == "CHoCH+" and txt == "CHoCH+" => s_bull_ob := true
trend := 1
sup.n.clear()
sup.p.clear()
// SWING BEARISH STRUCTURE
if sdn.p.size() > 0 and sup.l.size() > 1
if ta.crossunder(b.c, sdn.p.first())
bool CHoCH = na
string txt = na
if trend > 0
CHoCH := true
switch
not CHoCH =>
bralert.swingbos := true
txt := "BOS"
icss := s_ms_dn_BOS
if boolean.get(s_BOS) and mtf == false and na(drw)
isdrwS := true
drw := msDraw.new(
sdn.n.first()
, sdn.p.first()
, s_ms_dn_BOS
, txt
, false
)
CHoCH =>
if sup.l.first() < sup.l.get(1)
bralert.chochplusswing := true
else
bralert.chochswing := true
txt := sup.l.first() < sup.l.get(1) ? "CHoCH+" : "CHoCH"
icss := s_ms_dn_BOS.darkcss(0.25, false)
if (sup.l.first() < sup.l.get(1) ? boolean.get(s_CHoCHP) : boolean.get(s_CHoCH)) and mtf == false and na(drw)
isdrwS := true
drw := msDraw.new(
sdn.n.first()
, sdn.p.first()
, s_ms_dn_BOS.darkcss(0.25, false)
, txt
, false
)
if mtf == false
switch
ob_filter == "None" => s_bear_ob := true
ob_filter == "BOS" and txt == "BOS" => s_bear_ob := true
ob_filter == "CHoCH" and txt == "CHoCH" => s_bear_ob := true
ob_filter == "CHoCH+" and txt == "CHoCH+" => s_bear_ob := true
trend := -1
sdn.n.clear()
sdn.p.clear()
= structure(false)
if isdrw
f_line(drw, size.small, line.style_dashed)
if isdrwS
f_line(drw, size.small, line.style_solid)
= request.security("", "15" , structure(true))
= request.security("", "60" , structure(true))
= request.security("", "240" , structure(true))
= request.security("", "1440" , structure(true))
if show_mtf_str
var tab = table.new(position = position.top_right, columns = 10, rows = 10, bgcolor = na, frame_color = color.rgb(54, 58, 69, 0), frame_width = 1, border_color = color.rgb(54, 58, 69, 100), border_width = 1)
table.cell(tab, 0, 1, text = "15" , text_color = color.silver, text_halign = text.align_center, text_size = size.normal, bgcolor = chart.bg_color, text_font_family = font.family_monospace, width = 2)
table.cell(tab, 0, 2, text = "1H" , text_color = color.silver, text_halign = text.align_center, text_size = size.normal, bgcolor = chart.bg_color, text_font_family = font.family_monospace, width = 2)
table.cell(tab, 0, 3, text = "4H" , text_color = color.silver, text_halign = text.align_center, text_size = size.normal, bgcolor = chart.bg_color, text_font_family = font.family_monospace, width = 2)
table.cell(tab, 0, 4, text = "1D" , text_color = color.silver, text_halign = text.align_center, text_size = size.normal, bgcolor = chart.bg_color, text_font_family = font.family_monospace, width = 2)
table.cell(tab, 1, 1, text = itrend15 == 1 ? "BULLISH" : itrend15 == -1 ? "BEARISH" : na , text_halign = text.align_center, text_size = size.normal, text_color = itrend15 == 1 ? i_ms_up_BOS.darkcss(-0.25, true) : itrend15 == -1 ? i_ms_dn_BOS.darkcss(0.25, false) : color.gray, bgcolor = chart.bg_color, text_font_family = font.family_monospace)
table.cell(tab, 1, 2, text = itrend1H == 1 ? "BULLISH" : itrend1H == -1 ? "BEARISH" : na , text_halign = text.align_center, text_size = size.normal, text_color = itrend1H == 1 ? i_ms_up_BOS.darkcss(-0.25, true) : itrend1H == -1 ? i_ms_dn_BOS.darkcss(0.25, false) : color.gray, bgcolor = chart.bg_color, text_font_family = font.family_monospace)
table.cell(tab, 1, 3, text = itrend4H == 1 ? "BULLISH" : itrend4H == -1 ? "BEARISH" : na , text_halign = text.align_center, text_size = size.normal, text_color = itrend4H == 1 ? i_ms_up_BOS.darkcss(-0.25, true) : itrend4H == -1 ? i_ms_dn_BOS.darkcss(0.25, false) : color.gray, bgcolor = chart.bg_color, text_font_family = font.family_monospace)
table.cell(tab, 1, 4, text = itrend1D == 1 ? "BULLISH" : itrend1D == -1 ? "BEARISH" : na , text_halign = text.align_center, text_size = size.normal, text_color = itrend1D == 1 ? i_ms_up_BOS.darkcss(-0.25, true) : itrend1D == -1 ? i_ms_dn_BOS.darkcss(0.25, false) : color.gray, bgcolor = chart.bg_color, text_font_family = font.family_monospace)
table.cell(tab, 0, 5, text = "Detected Pattern", text_halign = text.align_center, text_size = size.normal, text_color = color.silver, bgcolor = chart.bg_color, text_font_family = font.family_monospace)
table.cell(tab, 0, 6, text = p.found, text_halign = text.align_center, text_size = size.normal, text_color = na(p.bull) ? color.white : p.bull ? i_ms_up_BOS.darkcss(-0.25, true) : p.bull == false ? i_ms_dn_BOS.darkcss(0.25, false) : na, bgcolor = chart.bg_color, text_font_family = font.family_monospace)
table.merge_cells(tab, 0, 5, 1, 5)
table.merge_cells(tab, 0, 6, 1, 6)
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{ - End }
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{ - Strong/Weak High/Low And Equilibrium }
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
var phl = Zphl.new(
na
, na
, label.new(na , na , color = invcol , textcolor = i_ms_dn_BOS , style = label.style_label_down , size = size.tiny , text = "")
, label.new(na , na , color = invcol , textcolor = i_ms_up_BOS , style = label.style_label_up , size = size.tiny , text = "")
, true
, true
, true
, true
, ""
, ""
, 0
, 0
, 0
, 0
, high
, low
, 0
, 0
, 0
, 0
, 0
, 0
, na
, na
)
zhl(len)=>
upper = ta.highest(len)
lower = ta.lowest(len)
var float out = 0
out := b.h > upper ? 0 : b.l < lower ? 1 : out
top = out == 0 and out != 0 ? b.h : 0
btm = out == 1 and out != 1 ? b.l : 0
= zhl(sLen)
= zhl(iLen)
upphl(trend) =>
var label lbl = label.new(
na
, na
, color = invcol
, textcolor = toplvl
, style = label.style_label_down
, size = size.small
)
if top
phl.stopcross := true
phl.txtup := top > phl.topy ? "HH" : "HL"
if show_lbl
topl = label.new(
b.n - swing_r_lookback
, top
, phl.txtup
, color = invcol
, textcolor = toplvl
, style = label.style_label_down
, size = size.small
)
line.delete(phl.top )
phl.top := line.new(
b.n - sLen
, top
, b.n
, top
, color = toplvl)
phl.topy := top
phl.topx := b.n - sLen
phl.tup := top
phl.tupx := b.n - sLen
if itop
phl.itopcross := true
phl.itopy := itop
phl.itopx := b.n - iLen
phl.tup := math.max(high, phl.tup)
phl.tupx := phl.tup == high ? b.n : phl.tupx
phl.uV := phl.tup != phl.tup ? b.v : phl.uV
if barstate.islast
line.set_xy1(
phl.top
, phl.tupx
, phl.tup
)
line.set_xy2(
phl.top
, b.n + 50
, phl.tup
)
label.set_x(
lbl
, b.n + 50
)
label.set_y(
lbl
, phl.tup
)
dist = math.abs(phl.uV / (phl.uV + phl.dV)) * 100
label.set_text (lbl, trend < 0
? "Strong High | " + str.tostring(phl.uV, format.volume) + " (" + str.tostring(math.round(dist,0)) + "%)"
: "Weak High | " + str.tostring(phl.uV, format.volume) + " (" + str.tostring(math.round(dist,0)) + "%)")
dnphl(trend) =>
var label lbl = label.new(
na
, na
, color = invcol
, textcolor = btmlvl
, style = label.style_label_up
, size = size.small
)
if btm
phl.sbottomcross := true
phl.txtdn := btm > phl.bottomy ? "LH" : "LL"
if show_lbl
btml = label.new(
b.n - swing_r_lookback
, btm, phl.txtdn
, color = invcol
, textcolor = btmlvl
, style = label.style_label_up
, size = size.small
)
line.delete(phl.bottom )
phl.bottom := line.new(
b.n - sLen
, btm
, b.n
, btm
, color = btmlvl
)
phl.bottomy := btm
phl.bottomx := b.n - sLen
phl.tdn := btm
phl.tdnx := b.n - sLen
if ibtm
phl.ibottomcross := true
phl.ibottomy := ibtm
phl.ibottomx := b.n - iLen
phl.tdn := math.min(low, phl.tdn)
phl.tdnx := phl.tdn == low ? b.n : phl.tdnx
phl.dV := phl.tdn != phl.tdn ? b.v : phl.dV
if barstate.islast
line.set_xy1(
phl.bottom
, phl.tdnx
, phl.tdn
)
line.set_xy2(
phl.bottom
, b.n + 50
, phl.tdn
)
label.set_x(
lbl
, b.n + 50
)
label.set_y(
lbl
, phl.tdn
)
dist = math.abs(phl.dV / (phl.uV + phl.dV)) * 100
label.set_text (lbl, trend > 0
? "Strong Low | " + str.tostring(phl.dV, format.volume) + " (" + str.tostring(math.round(dist,0)) + "%)"
: "Weak Low | " + str.tostring(phl.uV, format.volume) + " (" + str.tostring(math.round(dist,0)) + "%)")
midphl() =>
avg = math.avg(phl.bottom.get_y2(), phl.top.get_y2())
var line l = line.new(
y1 = avg
, y2 = avg
, x1 = b.n - sLen
, x2 = b.n + 50
, color = midlvl
, style = line.style_solid
)
var label lbl = label.new(
x = b.n + 50
, y = avg
, text = "Equilibrium"
, style = label.style_label_left
, color = invcol
, textcolor = midlvl
, size = size.small
)
if barstate.islast
more = (phl.bottom.get_x1() + phl.bottom.get_x2()) > (phl.top.get_x1() + phl.top.get_x2()) ? phl.top.get_x1() : phl.bottom.get_x1()
line.set_xy1(l , more , avg)
line.set_xy2(l , b.n + 50, avg)
label.set_x (lbl , b.n + 50 )
label.set_y (lbl , avg )
dist = math.abs((l.get_y2() - close) / close) * 100
label.set_text (lbl, "Equilibrium (" + str.tostring(math.round(dist,0)) + "%)")
hqlzone() =>
if barstate.islast
var hqlzone dZone = hqlzone.new(
box.new(
na
, na
, na
, na
, bgcolor = color.new(toplvl, 70)
, border_color = na
)
, box.new(
na
, na
, na
, na
, bgcolor = color.new(midlvl, 70)
, border_color = na
)
, box.new(
na
, na
, na
, na
, bgcolor = color.new(btmlvl, 70)
, border_color = na
)
, label.new(na, na, text = "Premium" , color = invcol, textcolor = toplvl, style = label.style_label_down, size = size.small)
, label.new(na, na, text = "Equilibrium", color = invcol, textcolor = midlvl, style = label.style_label_left, size = size.small)
, label.new(na, na, text = "Discount" , color = invcol, textcolor = btmlvl, style = label.style_label_up , size = size.small)
)
dZone.pbx.set_lefttop(int(math.max(phl.topx, phl.bottomx)) , phl.tup)
dZone.pbx.set_rightbottom(b.n + 50 , 0.95 * phl.tup + 0.05 * phl.tdn)
dZone.ebx.set_lefttop(int(math.max(phl.topx, phl.bottomx)), 0.525 * phl.tup + 0.475 * phl.tdn)
dZone.ebx.set_rightbottom(b.n + 50 , 0.525 * phl.tdn + 0.475 * phl.tup)
dZone.lbx.set_lefttop(int(math.max(phl.topx, phl.bottomx)), 0.95 * phl.tdn + 0.05 * phl.tup)
dZone.lbx.set_rightbottom(b.n + 50 , phl.tdn)
dZone.plb.set_xy( int(math.avg(math.max(phl.topx, phl.bottomx), int(b.n + 50))) , phl.tup)
dZone.elb.set_xy( int(b.n + 50) , math.avg(phl.tup, phl.tdn))
dZone.lbl.set_xy( int(math.avg(math.max(phl.topx, phl.bottomx), int(b.n + 50))) , phl.tdn)
if show_mtb
upphl (trend)
dnphl (trend)
hqlzone()
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{ - End }
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{ - Volumetric Order Block }
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
method eB(box b, bool ext, color css, bool swing) =>
b.unshift(
box.new(
na
, na
, na
, na
, xloc = xloc.bar_time
, text_font_family = font.family_monospace
, extend = ext ? extend.right : extend.none
, border_color = swing ? color.new(css, 0) : color.new(color.white,100)
, bgcolor = css
, border_width = 1
)
)
method eL(line l, bool ext, bool solid, color css) =>
l.unshift(
line.new(
na
, na
, na
, na
, width = 1
, color = css
, xloc = xloc.bar_time
, extend = ext ? extend.right : extend.none
, style = solid ? line.style_solid : line.style_dashed
)
)
method drawVOB(bool cdn, bool bull, color css, int loc, bool swing) =>
= request.security(
syminfo.tickerid
, ""
,
, lookahead = barmerge.lookahead_off
)
var obC obj = obC.new(
array.new()
, array.new()
, array.new< int >()
, array.new()
, array.new()
, array.new()
, array.new< int >()
, array.new< int >()
, array.new< int >()
, array.new< int >()
, array.new()
, array.new()
, array.new< int >()
)
var obD draw = obD.new(
array.new()
, array.new()
, array.new()
, array.new()
, array.new()
)
if barstate.isfirst
for i = 0 to ob_num - 1
draw.mL .eL(false, false, use_grayscale ? color.new(color.gray, 0) : color.new(css,0))
draw.ob .eB(false, use_grayscale ? color.new(color.gray, 90) : css, swing)
draw.blB.eB(false, css_metric_up , swing)
draw.brB.eB(false, css_metric_dn , swing)
draw.eOB.eB(true , use_grayscale ? color.new(color.gray, 90) : css, swing)
float pos = ob_pos == "Full"
? (bull ? high : low)
: ob_pos == "Middle"
? ohlc4
: ob_pos == "Accurate"
? hl2
: hl2
if cdn
obj.h.clear()
obj.l.clear()
obj.n.clear()
for i = 0 to math.abs((loc - b.n)) - 1
obj.h.push(hH )
obj.l.push(lL )
obj.n.push(b.t )
// obj.h.reverse()
// obj.l.reverse()
int iU = obj.l.indexof(obj.l.min()) + 1
int iD = obj.h.indexof(obj.h.max()) + 1
obj.dir.unshift(
bull
? (b.c > b.o ? 1 : -1)
: (b.c > b.o ? 1 : -1)
)
obj.top.unshift(
bull
? pos
: obj.h.max()
)
obj.btm.unshift(
bull
? obj.l.min()
: pos
)
obj.left.unshift(
bull
? obj.n.get(obj.l.indexof(obj.l.min()))
: obj.n.get(obj.h.indexof(obj.h.max()))
)
obj.avg.unshift(
math.avg(obj.top.first(), obj.btm.first())
)
obj.cV.unshift(
bull
? b.v
: b.v
)
if ob_pos == "Precise"
switch bull
true =>
if obj.avg.get(0) < (b.c < b.o ? b.c : b.o ) and obj.top.get(0) > hlcc4
obj.top.set(0, obj.avg.get(0))
obj.avg.set(0, math.avg(obj.top.first(), obj.btm.first()))
false =>
if obj.avg.get(0) > (b.c < b.o ? b.o : b.c ) and obj.btm.get(0) < hlcc4
obj.btm.set(0, obj.avg.get(0))
obj.avg.set(0, math.avg(obj.top.first(), obj.btm.first()))
obj.blVP.unshift ( 0 )
obj.brVP.unshift ( 0 )
obj.wM .unshift ( 1 )
if use_overlap
int rmP = use_overlap_method == "Recent" ? 1 : 0
if obj.avg.size() > 1
if bull
? obj.btm.first() < obj.top.get(1)
: obj.top.first() > obj.btm.get(1)
obj.wM .remove(rmP)
obj.cV .remove(rmP)
obj.dir .remove(rmP)
obj.top .remove(rmP)
obj.avg .remove(rmP)
obj.btm .remove(rmP)
obj.left .remove(rmP)
obj.blVP .remove(rmP)
obj.brVP .remove(rmP)
if barstate.isconfirmed
for x = 0 to ob_num - 1
tg = switch ob_mitigation
"Middle" => obj.avg
"Absolute" => bull ? obj.btm : obj.top
for in tg
if (bull ? cC < pt : cC > pt)
obj.wM .remove(idx)
obj.cV .remove(idx)
obj.dir .remove(idx)
obj.top .remove(idx)
obj.avg .remove(idx)
obj.btm .remove(idx)
obj.left .remove(idx)
obj.blVP .remove(idx)
obj.brVP .remove(idx)
if barstate.islast
if obj.avg.size() > 0
// Alert
if bull
? ta.crossunder(low , obj.top.get(0))
: ta.crossover (high, obj.btm.get(0))
switch bull
true => blalert.obtouch := true
false => bralert.obtouch := true
float tV = 0
obj.dV.clear()
seq = math.min(ob_num - 1, obj.avg.size() - 1)
for j = 0 to seq
tV += obj.cV.get(j)
if j == seq
for y = 0 to seq
obj.dV.unshift(
math.floor(
(obj.cV.get(y) / tV) * 100)
)
obj.dV.reverse()
for i = 0 to math.min(ob_num - 1, obj.avg.size() - 1)
dmL = draw.mL .get(i)
dOB = draw.ob .get(i)
dblB = draw.blB.get(i)
dbrB = draw.brB.get(i)
deOB = draw.eOB.get(i)
dOB.set_lefttop (obj.left .get(i) , obj.top.get(i))
deOB.set_lefttop (b.t , obj.top.get(i))
dOB.set_rightbottom (b.t , obj.btm.get(i))
deOB.set_rightbottom(b.t + (b.t - b.t ) * 100 , obj.btm.get(i))
if use_middle_line
dmL.set_xy1(obj.left.get(i), obj.avg.get(i))
dmL.set_xy2(b.t , obj.avg.get(i))
if ob_metrics_show
dblB.set_lefttop (obj.left.get(i), obj.top.get(i))
dbrB.set_lefttop (obj.left.get(i), obj.avg.get(i))
dblB.set_rightbottom(obj.left.get(i), obj.avg.get(i))
dbrB.set_rightbottom(obj.left.get(i), obj.btm.get(i))
rpBL = dblB.get_right()
rpBR = dbrB.get_right()
dbrB.set_right(rpBR + (b.t - b.t ) * obj.brVP.get(i))
dblB.set_right(rpBL + (b.t - b.t ) * obj.blVP.get(i))
if use_show_metric
txt = switch
obj.cV.get(i) >= 1000000000 => str.tostring(math.round(obj.cV.get(i) / 1000000000,3)) + "B"
obj.cV.get(i) >= 1000000 => str.tostring(math.round(obj.cV.get(i) / 1000000,3)) + "M"
obj.cV.get(i) >= 1000 => str.tostring(math.round(obj.cV.get(i) / 1000,3)) + "K"
obj.cV.get(i) < 1000 => str.tostring(math.round(obj.cV.get(i)))
deOB.set_text(
str.tostring(
txt + " (" + str.tostring(obj.dV.get(i)) + "%)")
)
deOB.set_text_size (size.auto)
deOB.set_text_halign(text.align_left)
deOB.set_text_color (use_grayscale ? color.silver : color.new(css, 0))
if ob_metrics_show and barstate.isconfirmed
if obj.wM.size() > 0
for i = 0 to obj.avg.size() - 1
switch obj.dir.get(i)
1 =>
switch obj.wM.get(i)
1 => obj.blVP.set(i, obj.blVP.get(i) + 1), obj.wM.set(i, 2)
2 => obj.blVP.set(i, obj.blVP.get(i) + 1), obj.wM.set(i, 3)
3 => obj.brVP.set(i, obj.brVP.get(i) + 1), obj.wM.set(i, 1)
-1 =>
switch obj.wM.get(i)
1 => obj.brVP.set(i, obj.brVP.get(i) + 1), obj.wM.set(i, 2)
2 => obj.brVP.set(i, obj.brVP.get(i) + 1), obj.wM.set(i, 3)
3 => obj.blVP.set(i, obj.blVP.get(i) + 1), obj.wM.set(i, 1)
var hN = array.new(1, b.n)
var lN = array.new(1, b.n)
var hS = array.new(1, b.n)
var lS = array.new(1, b.n)
if iH
hN.pop()
hN.unshift(int(b.n ))
if iL
lN.pop()
lN.unshift(int(b.n ))
if sH
hS.pop()
hS.unshift(int(b.n ))
if sL
lS.pop()
lS.unshift(int(b.n ))
if ob_show
bull_ob.drawVOB(true , ob_bull_css, hN.first(), false)
bear_ob.drawVOB(false, ob_bear_css, lN.first(), false)
if ob_swings
s_bull_ob.drawVOB(true , css_swing_up, hS.first(), true)
s_bear_ob.drawVOB(false, css_swing_dn, lS.first(), true)
if bull_ob
blalert.ob := true
if bear_ob
bralert.ob := true
if s_bull_ob
blalert.swingob := true
if s_bear_ob
blalert.swingob := true
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{ - End }
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{ - FVG | VI | OG }
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
//{----------------------------------------------------------------------------------------------------------------------------------------------}
ghl() => request.security(syminfo.tickerid, fvg_tf, [high , low , close , open ])
tfG() => request.security(syminfo.tickerid, fvg_tf, )
cG(bool bull) =>
= ghl()
= tfG()
var FVG draw = FVG.new(
array.new()
, array.new()
)
var FVG cords = array.new()
float pup = na
float pdn = na
bool cdn = na
int pos = 2
cc = timeframe.change(fvg_tf)
if barstate.isfirst
for i = 0 to fvg_num - 1
draw.box.unshift(box.new (na, na, na, na, border_color = color.new(color.white, 100), xloc = xloc.bar_time))
draw.ln.unshift (line.new(na, na, na, na, xloc = xloc.bar_time, width = 1, style = line.style_solid))
switch what_fvg
"FVG" =>
pup := bull ? gl : l
pdn := bull ? h : gh
cdn := bull ? gl > h and cc : gh < l and cc
pos := 2
"VI" =>
pup := bull
? (gc > go
? go
: gc)
: (gc > go
? go
: gc )
pdn := bull
? (gc > go
? gc
: go )
: (gc > go
? gc
: go)
cdn := bull
? go > gc and gh > gl and gc > gc and go > go and gh < math.min(gc, go) and cc
: go < gc and gl < gh and gc < gc and go < go and gl > math.max(gc, go) and cc
pos := 1
"OG" =>
pup := bull ? b.l : gl
pdn := bull ? gh : gh
cdn := bull ? gl > gh and cc : gh < gl and cc
pos := 1
if not na(cdn ) and cdn
cords.unshift(
FVG.new(
na
, na
, bull
? true
INDIBOT PRO [Indibot Style]ABO SALTAN //@version=6
indicator("INDIBOT PRO ", overlay=true, max_labels_count=500)
// === WAVE TREND CALC ===
src = hlc3
n1 = input.int(10, "WT Channel Length")
n2 = input.int(21, "WT Signal Smoothing")
obLevel = input.float(2.0, "Overbought Threshold")
osLevel = input.float(-2.0, "Oversold Threshold")
esa = ta.ema(src, n1)
d = ta.ema(math.abs(src - esa), n1)
ci = (src - esa) / (0.015 * d)
wt1 = ta.ema(ci, n2)
wt2 = ta.sma(wt1, 4)
// === CROSS SIGNALS ===
buyCond = ta.crossover(wt1, wt2) and wt1 < osLevel
sellCond = ta.crossunder(wt1, wt2) and wt1 > obLevel
// === PRICE CHART ARROWS ===
plotshape(buyCond, title="Buy Arrow", location=location.belowbar, style=shape.labelup,
color=color.new(color.teal, 0), text="BUY", textcolor=color.white, size=size.small)
plotshape(sellCond, title="Sell Arrow", location=location.abovebar, style=shape.labeldown,
color=color.new(color.red, 0), text="SELL", textcolor=color.white, size=size.small)
// === OSCILLATOR PANEL ===
plot(wt1, color=color.green, title="WT Line", linewidth=2)
plot(wt2, color=color.red, title="Signal Line", linewidth=2)
hline(obLevel, "Overbought", color=color.red)
hline(osLevel, "Oversold", color=color.green)
hline(0, "", color=color.gray)
// === CROSSOVER DOTS ===
plotshape(ta.crossover(wt1, wt2), title="WT Cross Up", location=location.belowbar, color=color.teal,
style=shape.circle, size=size.tiny, offset=-1)
plotshape(ta.crossunder(wt1, wt2), title="WT Cross Down", location=location.abovebar, color=color.red,
style=shape.circle, size=size.tiny, offset=-1)
// === BACKGROUND COLOR ===
bgcolor(wt1 > obLevel ? color.new(color.red, 90) : wt1 < osLevel ? color.new(color.green, 90) : na, title="OB/OS Zone Highlight")
