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مؤشر Pine Script®

من ‎admin‎

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مؤشر Pine Script®

من ‎vitvlkv‎

Trend Gazer: Unified ICT Trading System with Signals # Trend Gazer User Guide (English) ## 📖 Table of Contents 1. (#about-this-indicator) 2. (#quick-start-guide-3-steps) 3. (#detailed-usage) 4. (#settings-customization) 5. (#why-combine-multiple-features) 6. (#faq) --- ## About This Indicator **Trend Gazer** is an integrated trading system designed to read institutional order flow like professional traders. ### 🎯 3 Problems This Indicator Solves #### ❌ Problem 1: Too Many Indicators = Information Overload ``` Normal: RSI + MACD + Moving Average + Bollinger Bands... → Cluttered chart Solution: All integrated into ONE indicator → Clean & Clear ``` #### ❌ Problem 2: Single Indicators Give False Signals ``` Normal: Enter based on RSI alone → Frequent stop-outs Solution: Structure × Zone × Momentum multi-angle confirmation → Higher win rate ``` #### ❌ Problem 3: Unclear Entry Timing ``` Normal: Know the trend but don't know WHERE to enter Solution: LS Bounce Signal shows EXACT entry points ``` --- ## Quick Start Guide (3 Steps) ### 🚀 STEP 1: Confirm Trend Direction **Look for CHoCH (Change of Character)** ``` 📍 (1.CHoCH) label = Uptrend starting 📍 (a.CHoCH) label = Downtrend starting ``` **Important**: Wait for CHoCH! No direction without it. --- ### 🎯 STEP 2: Find Entry Points **Wait for LS Bounce Signal (green/red labels)** ``` 🟢 "Long@ HL only" label → LONG (buy) candidate 🔴 "Short@ LH only" label → SHORT (sell) candidate ``` **Label text color meaning**: - **White text**: Clean trend (high confidence) - **Yellow text**: Trend transition (moderate caution) --- ### 🛡️ STEP 3: Final Confirmation with Bar Color **Bar color shows market state** ``` 🔴 Red bar: BUY zone (buying is favored) 🟢 Green bar: SELL zone (selling is favored) ⚪ White bar: Neutral (wait and see) ``` --- ## Detailed Usage ### 📊 Understanding the Chart #### 1. Labels (Market Structure Changes) ``` (1.CHoCH) / (a.CHoCH) : Trend reversal (2.SiMS) / (b.SiMS) : Momentum confirmation (3.BoMS) / (c.BoMS) : Trend continuation ``` #### 2. Boxes (Institutional Order Zones) ``` 📦 Blue boxes: Bullish OB (buy orders accumulated) 📦 Red boxes: Bearish OB (sell orders accumulated) 📦 Black transparent boxes: Liquidity Sweep ``` **How to use Order Blocks**: - Function as support/resistance - Signals within OB have higher reliability - Use for stop-loss placement #### 3. Lines (Trends and Support/Resistance) ``` ━━━ Red lines: EMA20, EMA50, EMA100 (short to mid-term trends) ━━━ Blue lines: 60min NPR/BB bands (support/resistance) ``` #### 4. Bar Colors (Filter 6) ``` Bar color = Real-time market state 🔴 Red: Buying is favored 🟢 Green: Selling is favored ⚪ White: Neutral ``` --- ### 🎯 Practical Trading Flow #### 📍 Preparation Phase ``` 1. Open chart (recommended: 5min or 15min) 2. Add Trend Gazer to chart 3. Start in observation mode (don't enter yet) ``` #### 📍 Entry Decision ``` ✅ CHoCH confirms direction → Uptrend starting ✅ LS Bounce Signal "Long@ HL only" appears → Entry point candidate ✅ Bar turns red → Market supports buying → Entry decision 🎯 ✅ Place stop below nearest Order Block (blue box) ``` #### 📍 Exit Decision ``` 🔴 Opposite LS Bounce Signal "Short@ LH only" appears → Consider taking profit 🔴 Bar turns green → Potential trend reversal, review position 🔴 Stop loss hit → Exit with loss ``` --- ### 💡 Tips for Higher Win Rate #### ✅ DO's ``` 1. Enter AFTER CHoCH appears 2. Prioritize white-text LS Bounce Signals 3. Check higher timeframe (1H or Daily) trend 4. Emphasize signals within Order Blocks 5. Use bar color as final confirmation ``` #### ❌ DON'Ts ``` 1. Enter before CHoCH → No clear direction 2. Enter only on yellow text → Unstable transition period 3. Ignore bar color → Trading against market state 4. Don't check Order Blocks → Unclear support/resistance 5. Enter same direction consecutively → Overtrading ``` --- ## Settings Customization ### 🔧 How to Open Settings ``` 1. Right-click on indicator name on chart 2. Select "Settings..." 3. Settings panel opens ``` --- ### 📋 Recommended Setting Profiles #### 🔰 Beginner Settings (Simple) **Goal**: Reduce noise, show only important signals ``` 【FILTERS】 ✅ Bonus Filter: ON ✅ Filter 6 (OB/BB/NPR Zone Filter): ON ❌ Direction Filter: OFF ❌ Liquidation Reversal Filter: OFF ❌ ICT Market Structure Filter: OFF ❌ EMA Trend Filter: OFF ❌ OB/FVG Filter 1: OFF ❌ OB/FVG Filter 2: OFF 【SIGNALS】 ✅ Signal 0 (Bonus): ON ✅ Signal 1 (VWC Change): ON ✅ Signal 2 (Liq Rev): ON ❌ Signal 3 (LS): OFF (complex alone) ❌ Signal 4 (LS Break): OFF ❌ Signal 5 (OB+LS NPR): OFF ❌ Signal 6 (OB+LS EMA): OFF 【LS BOUNCE SIGNAL】 ✅ Exclude EMA50 from touch detection: OFF ❌ Only show when EMA fills are mixed: OFF ``` **What happens with this setup**: - Only Bonus (black background) signals display - LS Bounce Signals clearly visible - Noisy signals filtered out --- #### 💪 Intermediate Settings (Balanced) **Goal**: Enable key filters for better accuracy ``` 【FILTERS】 ✅ Bonus Filter: ON ✅ Filter 6 (OB/BB/NPR Zone Filter): ON ✅ ICT Market Structure Filter: ON ❌ Direction Filter: OFF ❌ Liquidation Reversal Filter: OFF ❌ EMA Trend Filter: OFF ❌ OB/FVG Filter 1: OFF ❌ OB/FVG Filter 2: OFF 【SIGNALS】 ✅ Signal 0 (Bonus): ON ✅ Signal 1 (VWC Change): ON ✅ Signal 2 (Liq Rev): ON ✅ Signal 3 (LS): ON ❌ Signal 4 (LS Break): OFF ❌ Signal 5 (OB+LS NPR): OFF ❌ Signal 6 (OB+LS EMA): OFF 【LS BOUNCE SIGNAL】 ✅ Exclude EMA50 from touch detection: OFF ❌ Only show when EMA fills are mixed: OFF ``` **What happens with this setup**: - Signals only after CHoCH (trend confirmed) - Filter 6 changes bar colors - Liquidity Sweeps also displayed --- #### 🚀 Advanced Settings (Full Utilization) **Goal**: Master all features ``` 【FILTERS】 ✅ Bonus Filter: ON ✅ Filter 6 (OB/BB/NPR Zone Filter): ON ✅ ICT Market Structure Filter: ON ✅ Direction Filter: ON ✅ EMA Trend Filter: ON ❌ Liquidation Reversal Filter: OFF (optional) ✅ OB/FVG Filter 1: ON ✅ OB/FVG Filter 2: ON 【SIGNALS】 ✅ All ON 【LS BOUNCE SIGNAL】 ✅ Exclude EMA50 from touch detection: ON (reduce EMA50 noise) ✅ Only show when EMA fills are mixed: ON (show only transition zones) ``` **What happens with this setup**: - Fewer signals (precision-focused) - Multiple confirmations greatly reduce false signals - Only signals confirmed by trend, momentum, and zones --- ### 🎨 Display Customization #### Change Label Size ``` 【BUY/SELL SIGNAL APPEARANCE】 → "BUY/SELL Label Size" → Choose from: tiny / small / normal / large / huge Recommended: small (default) ``` #### Order Block Display Settings ``` 【ORDER BLOCK (OB) SETTINGS】 ✅ Show Current TF OB: Current timeframe OB ✅ Show 1min OB: 1-minute OB ✅ Show 5min OB: 5-minute OB ✅ Show 15min OB: 15-minute OB Recommended: Only 15min OB ON (simple) ``` #### Liquidity Sweep Display ``` 【LIQUIDITY SWEEPS SETTINGS】 → "Sweep Length": Sensitivity (small=frequent, large=selective) → "Sweep Option": Standard / Maximum Recommended: Length=40, Option=Standard ``` #### NPR/BB Bands Display ``` 【NPR (NON-REPAINT STDEV) SETTINGS】 ✅ Display 60min NPR Bands: 60-minute support/resistance ❌ Display Current TF NPR Bands: Current timeframe (optional) Recommended: Only 60min ON ``` --- ### ⚙️ Advanced Settings #### Fine-tune Filter 6 ``` 【FINAL FILTERS】 → "Enable Filter 6 (OB/BB/NPR Zone Filter)" When ON: - Bars color-coded red/green/white - Behavior at OB, NPR/BB touches controlled ``` #### LS Bounce Signal Adjustments ``` 【LS BOUNCE SIGNAL】 → "Exclude EMA50 from touch detection" OFF: Detect NPR/BB/EMA50 (all 3) ON: Detect NPR/BB only (exclude EMA50) → "Only show when EMA fills are mixed" OFF: Show all LS Bounce Signals ON: Show only transition zone signals (yellow text) ``` #### MTF (Multi-Timeframe) Control ``` 【ORDER BLOCK (OB) SETTINGS】 → "Disable MTF on 1hr+ Charts" ON: Disable MTF on 1H+ (save memory) OFF: MTF enabled on all timeframes Recommended: ON (unnecessary on larger timeframes) ``` --- ### 🎯 Purpose-Based Configuration Guide #### 🔍 Goal 1: Reduce Signal Count ``` ✅ Bonus Filter: ON ✅ ICT Market Structure Filter: ON ✅ Filter 6: ON ✅ All Signals OFF, only Signal 0 ON ``` #### 🔍 Goal 2: Get More Signals ``` ❌ All Filters OFF ✅ All Signals ON ``` #### 🔍 Goal 3: Trend Following Only ``` ✅ ICT Market Structure Filter: ON ✅ Direction Filter: ON ✅ EMA Trend Filter: ON ``` #### 🔍 Goal 4: Counter-Trend Trading ``` ✅ LS Bounce Signal: ON ✅ Filter 6: ON ❌ ICT Market Structure Filter: OFF ``` #### 🔍 Goal 5: Day Trading (5-15min charts) ``` ✅ Show 15min OB: ON ✅ Display 60min NPR Bands: ON ✅ LS Bounce Signal: ON ❌ Show 1min/5min OB: OFF ``` #### 🔍 Goal 6: Scalping (1-5min charts) ``` ✅ Show 5min OB: ON ✅ Show 15min OB: ON ✅ Display 60min NPR Bands: ON ✅ All Signals: ON ``` --- ### 💾 Saving and Loading Settings #### Save Settings ``` 1. Click "..." in top-right of Settings screen 2. Select "Save as default" → Same settings auto-applied next time ``` #### Reset Settings ``` 1. Click "..." in top-right of Settings screen 2. Select "Reset settings" → Return to default settings ``` --- ## Why Combine Multiple Features? ### 🎯 Problem: Single Indicator Limitations Common trader problems: ``` ❌ RSI alone → Trade against trend, lose ❌ Moving Average alone → Late entry timing ❌ Support/Resistance alone → Caught by false breakouts ``` **Markets are complex**. One angle isn't enough. --- ### 💡 Solution: Multi-Angle Integrated Approach #### 1️⃣ Structure × Zone × Momentum ``` 📐 Structure (ICT CHoCH) → "Which direction is likely?" 📦 Zone (OB/NPR/BB) → "Where will price react?" 💨 Momentum (EMA/VWC) → "Is there momentum now?" ``` **When all 3 align = Highest win-rate timing** --- #### 2️⃣ Multi-Timeframe Analysis ``` Big picture: Confirm Daily direction Medium-term: Check 1H Order Blocks Short-term: Time entry on 5min ``` **Short-term entries aligned with higher timeframes = Better win rate** --- #### 3️⃣ Understanding Liquidity ``` 🎣 Institutional strategy: 1. Intentionally move price opposite to stop out retail 2. Then, move in real direction 💡 Liquidity Sweep = Visualize this "trap" → Read institutional order flow ``` --- ### 🧠 Integration Examples #### Case 1: RSI Alone vs Integrated System **Scenario**: RSI at 30 (oversold) ``` ❌ RSI-only decision: → "Buy!" → But downtrend continues, loss 😢 ✅ Trend Gazer: CHoCH check → Still downtrend ❌ Order Block → In Bearish OB ❌ LS Bounce → SHORT signal only ❌ → Skip or SHORT → Avoid loss ✅ ``` **Result**: Multiple filters block wrong entry --- #### Case 2: LS Bounce Signal 2-Stage Logic **Scenario**: Price touches 60min NPR lower band ``` 🔍 Traditional method: Touched → Buy! → But price continues down 😢 ✅ Trend Gazer: Stage 1: NPR touch + red bar → Flag ON Stage 2: EMA20 crosses above EMA50 → Confirm bounce → Now "Long@ HL only" displays → Entry → Success ✅ ``` **Result**: Not just "touch" but "touch + bounce confirmation" improves accuracy --- ### 🎓 Progressive Learning Design This indicator is designed for **beginners to advanced**: ``` 📖 Beginner (Month 1): Use only CHoCH + LS Bounce Signal → Learn trend and entry points 📖 Intermediate (Months 2-3): Add Order Block + Bar Color → Learn support/resistance and filtering 📖 Advanced (Month 6+): Master all features → Read institutional order flow ``` **Ultimate goal**: Indicator becomes confirmation tool. Your market sense becomes primary. --- ### 🔬 Technical Advantages #### 1. Non-Repaint STDEV (NPR) ``` Normal Bollinger Bands: → Past data changes (repaints) → Inaccurate backtesting NPR: → Past data doesn't change (non-repaint) → Reliable verification possible ``` #### 2. 2-Stage Signal Logic ``` Traditional: Condition met → Immediate signal → Many false signals Trend Gazer: Condition1 → Flag ON → Condition2 → Signal → Confirmation step improves accuracy ``` #### 3. Alternating Filter ``` Problem: Same-direction signals spam → Overtrading Solution: LONG → SHORT → LONG alternating only → Prevent unnecessary entries ``` --- ### 💎 Conclusion: Why Integration? ``` Single indicator = "Partial truth" Integrated system = "3D market perspective" ``` **Markets are multifaceted**. One angle isn't enough. Trend Gazer **integrates multiple screens pros watch simultaneously into ONE**, allowing beginners to read charts with institutional perspective. --- ## FAQ ### ❓ Q1: Which timeframe is best? **A**: Depends on trading style ``` Scalping: 1min ~ 5min Day Trading: 5min ~ 15min Swing: 1H ~ 4H ``` **Important**: LS Bounce Signal only works on 30min and below. --- ### ❓ Q2: Too many signals, confused **A**: Enable filters ``` 【Recommended Settings】 ✅ Bonus Filter: ON ✅ Filter 6: ON ✅ ICT Market Structure Filter: ON → Show only Signal 0 ``` This significantly reduces signal count. --- ### ❓ Q3: No CHoCH appearing, what to do? **A**: Wait or check higher timeframe ``` Method 1: Wait for CHoCH (recommended) Method 2: Check higher timeframe (e.g., Daily) for trend Method 3: Disable ICT Filter (not recommended) ``` **When trend is unclear, sitting out is also strategy**. --- ### ❓ Q4: LS Bounce Signal not appearing **A**: Checkpoints ``` 1. Are you on 30min or below chart? → Doesn't show on 1H+ 2. Are NPR/BB bands displayed? → Check Settings "Display 60min NPR Bands" 3. Is EMA50 excluded? → If "Exclude EMA50" is ON, EMA50 signals won't show ``` --- ### ❓ Q5: Bar color not changing? **A**: Check Filter 6 ``` Settings → FINAL FILTERS → Confirm "Enable Filter 6 (OB/BB/NPR Zone Filter)" is ON If ON but still not changing: → Current price may be outside OB/NPR/BB zones ``` --- ### ❓ Q6: Too many Order Blocks, hard to see **A**: Narrow down displayed OBs ``` Settings → ORDER BLOCK (OB) SETTINGS Recommended: ❌ Show Current TF OB: OFF ❌ Show 1min OB: OFF ❌ Show 5min OB: OFF ✅ Show 15min OB: ON (only this) ``` --- ### ❓ Q7: How to improve win rate? **A**: Thorough multiple confirmations ``` Checklist: ✅ CHoCH appeared ✅ LS Bounce Signal (white text) ✅ Bar color matches (red bar=LONG, green bar=SHORT) ✅ Signal within Order Block ✅ Aligns with higher timeframe trend Enter ONLY when all align ``` --- ### ❓ Q8: Want to practice on demo **A**: Recommended practice method ``` Week 1: Observation only → Watch signals and chart movement → Resist entering Weeks 2-3: Keep records → Screenshot when signal appears → Record subsequent movement Week 4+: Start demo trading → Start with small amounts → Continue keeping records ``` --- ### ❓ Q9: Are there alert features? **A**: Yes, multiple alerts available ``` Setup method: 1. Right-click indicator on chart 2. Select "Add Alert..." 3. Choose from: - ANY ALERT: BUY/SELL Signals - BUY ONLY ALERT - SELL ONLY ALERT - MS UP / MS DOWN - BAR COLOR: RED / LIME - LS BOUNCE: LONG / SHORT Signal ``` --- ### ❓ Q10: Works on other markets? **A**: Yes, works on all markets ``` ✅ Cryptocurrency (BTC, ETH, etc.) ✅ Forex (EUR/USD, USD/JPY, etc.) ✅ Stocks (individual stocks, indices) ✅ Futures (oil, gold, etc.) ``` Works on any market with price and volume data. --- ## 📋 Disclaimer ### ⚠️ Important Notice This indicator is for **educational and informational purposes only**. ``` ❌ NOT investment advice ❌ Does NOT guarantee profits ❌ Past results do NOT guarantee future performance ``` ### Risk Warning ``` ⚠️ Trading involves substantial risk ⚠️ Only trade with funds you can afford to lose ⚠️ Practice extensively on demo account before live trading ⚠️ Make your own informed decisions and act at your own risk ``` --- ## 📞 Support ### Feedback & Questions Feel free to ask questions in TradingView comments section. ### Bug Reports Please report with specific details (timeframe, symbol, screenshots). --- **Author**: rasukaru666 **License**: Mozilla Public License 2.0 **Last Updated**: December 2025 **Version**: Latest --- **Thank you for using Trend Gazer!** **Happy Trading! 📈** ---------------

مؤشر Pine Script®

من ‎rasukaru666‎

Trend Strength Meter [Eˣ]📊 Trend Strength Meter - Free Indicator Overview The Trend Strength Meter quantifies market momentum with a simple 0-100 score. No more guessing if a trend is strong or weak - this indicator gives you an objective, numerical measurement of trend strength that combines trend direction, momentum, volatility, and moving average alignment into one clear reading. ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ 🎯 What This Indicator Does Quantifies Trend Strength: • Measures trend on a scale from -100 (extreme bearish) to +100 (extreme bullish) • Combines 4 key components: Trend Direction, Momentum, Volatility, MA Alignment • Provides objective measurement instead of subjective interpretation • Works on all timeframes and instruments Visual Display: • Green Histogram Bars = Bullish strength (0 to +100) • Red Histogram Bars = Bearish strength (0 to -100) • Smooth Overlay Line = Trend direction (filters noise) • Triangle Markers = Trend reversals (zero-line crosses) • Background Zones = Visual strength categories Multi-Timeframe Analysis: • See strength readings from 3 timeframes simultaneously • Identify when trends align across multiple timeframes • "ALIGNED" indicator shows when all timeframes agree • Spot divergences between timeframes Clean & Professional: • Minimal clutter, maximum clarity • Compact info panel in top-right corner • No overwhelming indicators or text • Easy to read at a glance ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ 📊 Understanding The Strength Scale Bullish Readings (0 to +100) +75 to +100 - VERY STRONG BULL • Extremely powerful uptrend • All components aligned bullishly • Best time for aggressive long positions • Trend likely to continue • Strategy: Hold longs, avoid shorts +50 to +75 - STRONG BULL • Strong uptrend with good momentum • High probability of continuation • Quality long setups • Pullbacks are buying opportunities • Strategy: Enter longs on dips +25 to +50 - BULL • Moderate bullish trend • Decent upward momentum • Trend following longs work • Watch for weakening signals • Strategy: Ride the trend, trail stops +10 to +25 - WEAK BULL • Weak bullish bias • Trend may be exhausting • Lower probability setups • Consider taking profits • Strategy: Caution, reduce position sizes -10 to +10 - NEUTRAL • No clear trend • Choppy, range-bound market • Conflicting signals • Low probability for trend trades • Strategy: Stay flat or trade ranges Bearish Readings (0 to -100) -10 to -25 - WEAK BEAR • Weak bearish bias • Trend may be exhausting • Lower probability setups • Consider taking profits on shorts • Strategy: Caution, reduce position sizes -25 to -50 - BEAR • Moderate bearish trend • Decent downward momentum • Trend following shorts work • Watch for weakening signals • Strategy: Ride the trend down, trail stops -50 to -75 - STRONG BEAR • Strong downtrend with momentum • High probability of continuation • Quality short setups • Bounces are selling opportunities • Strategy: Enter shorts on rallies -75 to -100 - VERY STRONG BEAR • Extremely powerful downtrend • All components aligned bearishly • Best time for aggressive short positions • Trend likely to continue • Strategy: Hold shorts, avoid longs ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ 📊 How To Use This Indicator Basic Usage 1. Check Current Strength • Look at the histogram height and color • Read the exact number in the info panel • Note the status label (STRONG BULL, WEAK BEAR, etc.) • Higher absolute value = stronger trend 2. Watch For Reversals • Triangle markers appear when strength crosses zero • 🟢 Green triangle up = Bullish reversal signal • 🔴 Red triangle down = Bearish reversal signal • These mark potential trend changes 3. Monitor Multi-Timeframe Alignment • Check if all timeframes show same direction • "✓ ALIGNED" = All timeframes agree (high confidence) • "✗ Mixed" = Timeframes disagree (lower confidence) • Aligned trends have higher probability 4. Observe Strength Changes • Rising strength = Trend strengthening • Falling strength = Trend weakening • Strength near extremes (+75/-75) = Potential exhaustion • Strength near zero = Indecision/consolidation ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ 💡 Trading Strategies Strategy 1: Trend Following Best For: Capturing major moves Timeframes: 1H, 4H, Daily Rules: 1. Wait for strength to reach +50 or higher (or -50 or lower) 2. Check MTF alignment - all timeframes should agree 3. Enter on pullbacks in the direction of strength 4. Hold position while strength remains above +25 (or below -25) 5. Exit when strength crosses back to weak zone or reverses Example - Long Setup: • Strength crosses above +50 = Strong bull trend • All MTF readings positive and aligned • Wait for minor pullback to support • Enter long with stop below recent swing low • Hold while strength stays above +25 • Exit if strength drops below +10 or reverses to negative Strategy 2: Reversal Trading Best For: Catching trend changes early Timeframes: 15min, 1H, 4H Rules: 1. Watch for strength to reach extreme levels (+75 or -75) 2. Look for divergence (price new high/low but strength declining) 3. Wait for zero-line cross (triangle marker appears) 4. Enter in direction of new trend 5. Use tight stops since you're catching early Example - Bullish Reversal: • Strength at -80 (very strong bear) • Price makes new low but strength only at -70 = Divergence • Green triangle appears = Zero-line cross • Enter long on confirmation • Stop below recent swing low • Target: Strength reaching +50 Strategy 3: Avoid Bad Trades Best For: Improving win rate Timeframes: All Rules: • DON'T trade when strength is between -10 and +10 (neutral zone) • DON'T go long when strength is negative • DON'T go short when strength is positive • DON'T trade against MTF alignment • DO wait for clear strength readings Why It Works: Most losses come from trading in choppy markets or against the trend Strategy 4: Position Sizing Based On Strength Best For: Risk management Timeframes: All Rules: • Strength +75 to +100 or -75 to -100 = Full position size (2-3% risk) • Strength +50 to +75 or -50 to -75 = Normal position (1.5-2% risk) • Strength +25 to +50 or -25 to -50 = Reduced position (1% risk) • Strength -10 to +10 = No trades or minimal size (0.5% risk) Why It Works: Bigger positions in stronger trends, smaller in weak trends ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ⚙️ Settings Explained Multi-Timeframe Analysis • Toggle ON/OFF the MTF readings in the info panel • Turn OFF for cleaner display if you only trade one timeframe Timeframe 1, 2, 3 (Default: 15min, 1H, 4H) • Choose which timeframes to analyze • For day trading: Use 5min, 15min, 1H • For swing trading: Use 1H, 4H, Daily • For position trading: Use 4H, Daily, Weekly • Higher timeframes show bigger picture trends MA Length (Default: 20) • Moving average period for trend direction component • Lower values (10-15): More responsive, more signals • Higher values (25-50): Smoother, fewer signals • Recommended: 20 for most styles ATR Length (Default: 14) • Period for measuring volatility • Standard setting works well for most markets • Recommended: Keep at 14 RSI Length (Default: 14) • Period for momentum measurement • Standard setting works well for most markets • Recommended: Keep at 14 Show Trend Labels on Chart • Toggle ON to display "BULL" / "BEAR" text at reversals • Keep OFF for cleaner chart (default) • Useful when backtesting to see historical signals Show Reversal Signals • Toggle triangle markers at zero-line crosses • Keep ON to catch trend changes • Turn OFF if you only care about current strength ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ 🎓 How The Calculation Works The indicator measures 4 components, each worth 25 points (total = 100): 1. Trend Direction (25 points) • Compares price to moving average • Checks if MA is rising or falling • Perfect score: Price above rising MA • Minimum score: Price below falling MA 2. Momentum (25 points) • Uses RSI to measure momentum strength • RSI > 70 = Maximum bullish points • RSI < 30 = Maximum bearish points • RSI near 50 = Neutral points 3. Volatility Alignment (25 points) • Checks if price moves align with volatility • Strong moves in trending direction = High score • Weak moves or counter-trend = Low score • Uses ATR to measure volatility 4. Moving Average Alignment (25 points) • Checks EMA 8, 21, and 55 positioning • Perfect bullish: 8 > 21 > 55 above price • Perfect bearish: 8 < 21 < 55 below price • Misaligned = Reduced score Final Score = Sum of all 4 components (-100 to +100) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ 📱 Info Panel Guide Current • Shows exact strength number for current timeframe • Color-coded background (green = bullish, red = bearish) • Larger number for quick visibility Status • Text description of current trend state • Examples: "STRONG BULL", "WEAK BEAR", "NEUTRAL" • Quick interpretation without looking at number Timeframe Readings • Shows strength for each selected timeframe • Color-coded for quick reading • Compare to spot divergences MTF Alignment • ✓ ALIGNED = All timeframes show same direction (high confidence) • ✗ Mixed = Timeframes disagree (proceed with caution) • Most reliable trades happen when aligned ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ 📱 Alert Setup This indicator includes 4 alert types: 1. Bullish Reversal • Triggers when strength crosses from negative to positive • Potential trend change from bearish to bullish • Early warning of new uptrend 2. Bearish Reversal • Triggers when strength crosses from positive to negative • Potential trend change from bullish to bearish • Early warning of new downtrend 3. Very Strong Bull • Triggers when strength reaches +75 or higher • Extreme bullish conditions • Aggressive long opportunity 4. Very Strong Bear • Triggers when strength reaches -75 or lower • Extreme bearish conditions • Aggressive short opportunity To Set Up Alerts: 1. Click "Alert" button (clock icon) 2. Select "Trend Strength Meter" 3. Choose your alert type 4. Configure notifications 5. Click "Create" ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ 💎 Pro Tips & Best Practices ✅ DO: • Trust the extremes - Readings above +75 or below -75 are highly reliable • Wait for alignment - Best trades happen when MTF shows "ALIGNED" • Use with price action - Combine with support/resistance for entries • Respect the neutral zone - Avoid trading when strength is -10 to +10 • Scale position size - Bigger positions in stronger trends • Watch for divergence - Price new high but strength declining = Warning • Follow the trend - Don't fight strong readings (±50 or more) ⚠️ DON'T: • Don't trade neutral readings - Wait for clear strength above ±25 • Don't fade extremes - Very strong trends (+75/-75) can stay extreme • Don't ignore MTF - Mixed timeframes = Lower probability • Don't overtrade - Wait for quality setups with good strength • Don't use alone - Combine with support/resistance and risk management • Don't expect perfection - Even strong trends can reverse suddenly 🎯 Best Timeframes: • Scalping: 1min, 5min (fast readings, quick changes) • Day Trading: 5min, 15min, 1H (balanced view) • Swing Trading: 1H, 4H, Daily (stable trends) • Position Trading: 4H, Daily, Weekly (major trends) 🔥 Best Markets: • Trending markets (crypto, indices, commodities) • High liquidity instruments (BTC, ES, NQ, EUR/USD) • Avoid on low-volume stocks or exotic pairs ⏰ Works Best When: • Market has clear direction • Good volatility (not too choppy, not too quiet) • Multiple timeframes aligned • Away from major news events ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ 🚀 What Makes This Different? Unlike subjective trend analysis, the Trend Strength Meter: • Objective Measurement - No guessing, exact numerical score • Multi-Component - Combines 4 factors, not just one indicator • Multi-Timeframe - See alignment across timeframes instantly • Clean Visual - Professional display, easy to interpret • Actionable - Clear signals for entries, exits, and position sizing • Universal - Works on all timeframes and instruments • Proven Components - Based on trend, momentum, volatility, MA alignment Perfect For: • Trend followers who want confirmation • Swing traders seeking high-probability setups • Risk managers wanting to size positions properly • Anyone tired of subjective "is this trend strong?" questions ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ 📈 Common Patterns To Watch Pattern 1: The Steady Climb • Strength gradually rises from +25 to +50 to +75 • Indicates building momentum • Trade: Hold longs, add on pullbacks Pattern 2: The Quick Spike • Strength jumps from 0 to +75 in few bars • Indicates explosive momentum • Trade: Enter quickly, but expect pullback Pattern 3: The Exhaustion • Strength at +80, price new high, strength drops to +70 • Bearish divergence forming • Trade: Take profits, prepare for reversal Pattern 4: The Whipsaw • Strength oscillates between +10 and -10 • Choppy, range-bound market • Trade: Stay flat, wait for breakout Pattern 5: The False Breakout • Strength briefly crosses +50 then drops back • Weak momentum, trend not confirmed • Trade: Wait for sustained strength above +50 ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ 📈 Upgrade Your Trading System This free indicator quantifies trend strength objectively. Want more? 🔥 Check out my premium scripts for: • Automated entry and exit signals with trend confirmation • Advanced multi-timeframe strategy systems • Dynamic position sizing based on trend strength • Backtested performance with statistics • Complete trading solutions • And much more... 👉 Visit my profile for professional-grade trading tools! ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ 📝 Important Notes • This indicator measures trend strength, not direction alone • Strong readings don't guarantee continuation (manage risk) • Always use with proper stop losses • Combine with support/resistance analysis • Test on demo before live trading • Past performance doesn't guarantee future results • Adjust settings to match your trading style Disclaimer: For educational purposes only. Trading involves substantial risk. Always do your own research and never risk more than you can afford to lose. ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ 🙏 Support This Work If this indicator helps your trading: • ⭐ Give it a thumbs up • 💬 Share your best strength-based trades in comments • 🔔 Follow for more free professional tools • 🚀 Share with traders who need objective trend analysis Questions about trend strength? Drop a comment and I'll help! ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Developed with ❤️ for traders who want objective, quantified analysis ━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Version History • v1.0 - Initial release with 4-component strength calculation and MTF analysis

مؤشر Pine Script®

من ‎Exponential-X‎

Price Action Concepts [RUDYINDICATOR]/// This work is licensed under a Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0) creativecommons.org // Â© RUDYBANK INDICATOR - formerly know as RUDY INDICATOR //@version=5 indicator("Price Action Concepts ", shorttitle = "RUDYINDICATOR-V1 - Price Action RUDYINDICATOR ", 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" , "Swingâ€„â€„â€„â€„â€„â€„â€„â€„" , inline = "1", group = "MARKET STRUCTURE" , options = ) show_internal_ms = input.string ("All" , "Internalâ€„â€„â€„â€„â€„" , 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\n 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 , "Dayâ€„â€„â€„" , inline = "1", group = "HIGHS & LOWS MTF") lvl_weekly = input.bool (false , "Weekâ€„" , inline = "2", group = "HIGHS & LOWS MTF") lvl_monthly = input.bool (false , "Month" , inline = "3", group = "HIGHS & LOWS MTF") lvl_yearly = input.bool (false , "Yearâ€„â€„" , 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 ('âŽ¯âŽ¯âŽ¯' , '' , inline = '1', group = 'HIGHS & LOWS MTF' , options = ) s_w = input.string ('âŽ¯âŽ¯âŽ¯' , '' , inline = '2', group = 'HIGHS & LOWS MTF' , options = ) s_m = input.string ('âŽ¯âŽ¯âŽ¯' , '' , inline = '3', group = 'HIGHS & LOWS MTF' , options = ) s_y = input.string ('âŽ¯âŽ¯âŽ¯' , '' , inline = '4', group = 'HIGHS & LOWS MTF' , options = ) ob_show = input.bool (true , "Show Lastâ€„â€„â€„â€„" , inline = "1", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Display volumetric order blocks on the chart \n\n 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) , "â€„â€„â€„â€„â€„â€„â€„â€„â€„" , 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) , "â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„" , 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" , "Filteringâ€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„" , inline = "d", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Filter out volumetric order blocks by BOS/CHoCH/CHoCH+", options = ) ob_mitigation = input.string ("Absolute" , "Mitigationâ€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„" , inline = "4", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Trigger to remove volumetric order blocks", options = ) ob_pos = input.string ("Precise" , "Positioningâ€„â€„â€„â€„â€„â€„â€„â€„â€„â€„" , inline = "k", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Position of the Order Block\n Cover the whole candle\n Cover half candle\n Adjust to volatility\n 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 Methodâ€„â€„â€„â€„" , inline = "Z", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = " Preserve the most recent volumetric order blocks\n\n 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\n 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 (false , "Show swing point" , inline = "1", group = "High and Low" , tooltip = "Display swing point") show_mtb = input.bool (false , "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 Zoneâ€„â€„â€„" , inline = "3", group = "High and Low") midlvl = input.color (color.gray , "Equilibrium Zone" , inline = "4", group = "High and Low") btmlvl = input.color (#089981 , "Discount Zoneâ€„â€„â€„â€„" , inline = "5", group = "High and Low") fvg_enable = input.bool (false , "â€„â€„â€„â€„â€„â€„â€„â€„" , 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 Lastâ€„â€„" , 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" , "Mitigationâ€„â€„" , inline = "3", group = "FAIR VALUE GAP" , tooltip = " Use the close of the body as trigger\n\n Use the extreme point of the body as trigger", options = ) fvg_tf = input.timeframe ("" , "Timeframeâ€„" , 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 'âŽ¯âŽ¯âŽ¯' => line.style_solid '----' => line.style_dashed 'Â·Â·Â·Â·' => 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 >

مؤشر Pine Script®

من ‎zh_kelimbet‎

Price Action Concepts [RUDYINDICATOR]/// This work is licensed under a Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0) creativecommons.org // Â© RUDYBANK INDICATOR - formerly know as RUDY INDICATOR //@version=5 indicator("Price Action Concepts ", shorttitle = "RUDYINDICATOR-V1 - Price Action RUDYINDICATOR ", 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" , "Swingâ€„â€„â€„â€„â€„â€„â€„â€„" , inline = "1", group = "MARKET STRUCTURE" , options = ) show_internal_ms = input.string ("All" , "Internalâ€„â€„â€„â€„â€„" , 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\n 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 , "Dayâ€„â€„â€„" , inline = "1", group = "HIGHS & LOWS MTF") lvl_weekly = input.bool (false , "Weekâ€„" , inline = "2", group = "HIGHS & LOWS MTF") lvl_monthly = input.bool (false , "Month" , inline = "3", group = "HIGHS & LOWS MTF") lvl_yearly = input.bool (false , "Yearâ€„â€„" , 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 ('âŽ¯âŽ¯âŽ¯' , '' , inline = '1', group = 'HIGHS & LOWS MTF' , options = ) s_w = input.string ('âŽ¯âŽ¯âŽ¯' , '' , inline = '2', group = 'HIGHS & LOWS MTF' , options = ) s_m = input.string ('âŽ¯âŽ¯âŽ¯' , '' , inline = '3', group = 'HIGHS & LOWS MTF' , options = ) s_y = input.string ('âŽ¯âŽ¯âŽ¯' , '' , inline = '4', group = 'HIGHS & LOWS MTF' , options = ) ob_show = input.bool (true , "Show Lastâ€„â€„â€„â€„" , inline = "1", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Display volumetric order blocks on the chart \n\n 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) , "â€„â€„â€„â€„â€„â€„â€„â€„â€„" , 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) , "â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„" , 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" , "Filteringâ€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„" , inline = "d", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Filter out volumetric order blocks by BOS/CHoCH/CHoCH+", options = ) ob_mitigation = input.string ("Absolute" , "Mitigationâ€„â€„â€„â€„â€„â€„â€„â€„â€„â€„â€„" , inline = "4", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Trigger to remove volumetric order blocks", options = ) ob_pos = input.string ("Precise" , "Positioningâ€„â€„â€„â€„â€„â€„â€„â€„â€„â€„" , inline = "k", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = "Position of the Order Block\n Cover the whole candle\n Cover half candle\n Adjust to volatility\n 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 Methodâ€„â€„â€„â€„" , inline = "Z", group = "VOLUMETRIC ORDER BLOCKS" , tooltip = " Preserve the most recent volumetric order blocks\n\n 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\n 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 (false , "Show swing point" , inline = "1", group = "High and Low" , tooltip = "Display swing point") show_mtb = input.bool (false , "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 Zoneâ€„â€„â€„" , inline = "3", group = "High and Low") midlvl = input.color (color.gray , "Equilibrium Zone" , inline = "4", group = "High and Low") btmlvl = input.color (#089981 , "Discount Zoneâ€„â€„â€„â€„" , inline = "5", group = "High and Low") fvg_enable = input.bool (false , "â€„â€„â€„â€„â€„â€„â€„â€„" , 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 Lastâ€„â€„" , 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" , "Mitigationâ€„â€„" , inline = "3", group = "FAIR VALUE GAP" , tooltip = " Use the close of the body as trigger\n\n Use the extreme point of the body as trigger", options = ) fvg_tf = input.timeframe ("" , "Timeframeâ€„" , 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 'âŽ¯âŽ¯âŽ¯' => line.style_solid '----' => line.style_dashed 'Â·Â·Â·Â·' => 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 >

مؤشر Pine Script®

من ‎UldanayKulmurzayeva‎

FrizLabz_Time_Utility_Methods Library "FrizLabz_Time_Utility_Methods" Some time to index and index to time helper methods made them for another library thought I would try to make them as methods UTC_helper(utc) UTC helper function this adds the + to the positive utc times, add "UTC" to the string and can be used in the timezone arg of for format_time() Parameters: utc : (int) | +/- utc offset Returns: string | string to be added to the timezone paramater for utc timezone usage bar_time(bar_amount) from a time to index Parameters: bar_amount : (int) | default - 1) Returns: int bar_time time_to_index(_time) from time to bar_index Parameters: _time : (int) Returns: int time_to_index | bar_index that corresponds to time provided time_to_bars_back(_time) from a time quanity to bar quanity for use with . Parameters: _time : (int) Returns: int bars_back | yeilds the amount of bars from current bar to reach _time provided bars_back_to_time(bars_back) from bars_back to time Parameters: bars_back Returns: int | using same logic as this will return the time of the bar = to the bar that corresponds to bars_back index_time(index) bar_index to UNIX time Parameters: index : (int) Returns: int time | time in unix that corrresponds to the bar_index to_utc(time_or_index, timezone, format) method to use with a time or bar_index variable that will detect if it is an index or unix time and convert it to a printable string Parameters: time_or_index : (int) required) | time in unix or bar_index timezone : (int) required) | utc offset to be appled to output format : (string) | default - "yyyy-MM-dd'T'HH:mm:ssZ") | the format for the time, provided string is default one from str.format_time() Returns: string | time formatted string GET(line) Gets the location paramaters of a Line Parameters: line : (line) Returns: tuple GET(box) Gets the location paramaters of a Box Parameters: box : (box) Returns: tuple GET(label) Gets the location paramaters and text of a Label Parameters: label : (label) Returns: tuple GET(linefill) Gets line 1 and 2 from a Linefill Parameters: linefill : (linefill) Returns: tuple Format(line, timezone) converts Unix time in time or index params to formatted time and returns a tuple of the params as string with the time/index params formatted Parameters: line : (line) | required timezone : (int) | default - na Returns: tuple Line(x1, y1, x2, y2, extend, color, style, width) similar to line.new() with the exception of not needing to include y2 for a flat line, y1 defaults to close, and it doesnt require xloc.bar_time or xloc.bar_index, if no x1 Parameters: x1 : (int) default - time y1 : (float) default - close x2 : (int) default - last_bar_time/last_bar_index | not required for line that ends on current bar y2 : (float) default - y1 | not required for flat line extend : (string) default - extend.none | extend.left, extend.right, extend.both color : (color) default - chart.fg_color style : (string) default - line.style_solid | line.style_dotted, line.style_dashed, line.style_arrow_both, line.style_arrow_left, line.style_arrow_right width Returns: line Box(left, top, right, bottom, extend, border_color, bgcolor, text_color, border_width, border_style, txt, text_halign, text_valign, text_size, text_wrap) similar to box.new() but only requires top and bottom to create box, auto detects if it is bar_index or time used in the (left) arg. xloc.bar_time and xloc.bar_index are not used args are ordered by purpose | position -> colors -> styling -> text options Parameters: left : (int) default - time top : (float) required right : (int) default - last_bar_time/last_bar_index | will default to current bar index or time depending on (left) arg bottom : (float) required extend : (string) default - extend.none | extend.left, extend.right, extend.both border_color : (color) default - chart.fg_color bgcolor : (color) default - color.new(chart.fg_color,75) text_color : (color) default - chart.bg_color border_width : (int) default - 1 border_style : (string) default - line.style_solid | line.style_dotted, line.style_dashed, txt : (string) default - '' text_halign : (string) default - text.align_center | text.align_left, text.align_right text_valign : (string) default - text.align_center | text.align_top, text.align_bottom text_size : (string) default - size.normal | size.tiny, size.small, size.large, size.huge text_wrap : (string) default - text.wrap_auto | text.wrap_none Returns: box Label(x, y, txt, yloc, color, textcolor, style, size, textalign, text_font_family, tooltip) similar to label.new() but only requires no args to create label, auto detects if it is bar_index or time used in the (x) arg. xloc.bar_time and xloc.bar_index are not used args are ordered by purpose | position -> colors -> styling -> text options Parameters: x : (int) default - time y : (float) default - high or low | depending on bar direction txt : (string) default - '' yloc : (string) default - yloc.price | yloc.price, yloc.abovebar, yloc.belowbar color : (color) default - chart.fg_color textcolor : (color) default - chart.bg_color style : (string) default - label.style_label_down | label.style_none label.style_xcross,label.style_cross,label.style_triangleup,label.style_triangledown label.style_flag, label.style_circle, label.style_arrowup, label.style_arrowdown, label.style_label_up, label.style_label_down, label.style_label_left, label.style_label_right, label.style_label_lower_left, label.style_label_lower_right, label.style_label_upper_left, label.style_label_upper_right, label.style_label_center, label.style_square, label.style_diamond size : (string) default - size.normal | size.tiny, size.small, size.large, size.huge textalign : (string) default - text.align_center | text.align_left, text.align_right text_font_family : (string) default - font.family_default | font.family_monospace tooltip : (string) default - na Returns: label

مكتبة Pine Script®

من ‎FFriZz‎

تم تحديثه

Kripto Fema ind / This Pine Script™ code is subject to the terms of the Mozilla Public License 2.0 at mozilla.org // © Femayakup //@version=5 indicator(title = "Kripto Fema ind", shorttitle="Kripto Fema ind", overlay=true, format=format.price, precision=2,max_lines_count = 500, max_labels_count = 500, max_bars_back=500) showEma200 = input(true, title="EMA 200") showPmax = input(true, title="Pmax") showLinreg = input(true, title="Linreg") showMavilim = input(true, title="Mavilim") showNadaray = input(true, title="Nadaraya Watson") ma(source, length, type) => switch type "SMA" => ta.sma(source, length) "EMA" => ta.ema(source, length) "SMMA (RMA)" => ta.rma(source, length) "WMA" => ta.wma(source, length) "VWMA" => ta.vwma(source, length) //Ema200 timeFrame = input.timeframe(defval = '240',title= 'EMA200 TimeFrame',group = 'EMA200 Settings') len200 = input.int(200, minval=1, title="Length",group = 'EMA200 Settings') src200 = input(close, title="Source",group = 'EMA200 Settings') offset200 = input.int(title="Offset", defval=0, minval=-500, maxval=500,group = 'EMA200 Settings') out200 = ta.ema(src200, len200) higherTimeFrame = request.security(syminfo.tickerid,timeFrame,out200 ,barmerge.gaps_on,barmerge.lookahead_on) ema200Plot = showEma200 ? higherTimeFrame : na plot(ema200Plot, title="EMA200", offset=offset200) //Linreq group1 = "Linreg Settings" lengthInput = input.int(100, title="Length", minval = 1, maxval = 5000,group = group1) sourceInput = input.source(close, title="Source") useUpperDevInput = input.bool(true, title="Upper Deviation", inline = "Upper Deviation", group = group1) upperMultInput = input.float(2.0, title="", inline = "Upper Deviation", group = group1) useLowerDevInput = input.bool(true, title="Lower Deviation", inline = "Lower Deviation", group = group1) lowerMultInput = input.float(2.0, title="", inline = "Lower Deviation", group = group1) group2 = "Linreg Display Settings" showPearsonInput = input.bool(true, "Show Pearson's R", group = group2) extendLeftInput = input.bool(false, "Extend Lines Left", group = group2) extendRightInput = input.bool(true, "Extend Lines Right", group = group2) extendStyle = switch extendLeftInput and extendRightInput => extend.both extendLeftInput => extend.left extendRightInput => extend.right => extend.none group3 = "Linreg Color Settings" colorUpper = input.color(color.new(color.blue, 85), "Linreg Renk", inline = group3, group = group3) colorLower = input.color(color.new(color.red, 85), "", inline = group3, group = group3) calcSlope(source, length) => max_bars_back(source, 5000) if not barstate.islast or length <= 1 else sumX = 0.0 sumY = 0.0 sumXSqr = 0.0 sumXY = 0.0 for i = 0 to length - 1 by 1 val = source per = i + 1.0 sumX += per sumY += val sumXSqr += per * per sumXY += val * per slope = (length * sumXY - sumX * sumY) / (length * sumXSqr - sumX * sumX) average = sumY / length intercept = average - slope * sumX / length + slope = calcSlope(sourceInput, lengthInput) startPrice = i + s * (lengthInput - 1) endPrice = i var line baseLine = na if na(baseLine) and not na(startPrice) and showLinreg baseLine := line.new(bar_index - lengthInput + 1, startPrice, bar_index, endPrice, width=1, extend=extendStyle, color=color.new(colorLower, 0)) else line.set_xy1(baseLine, bar_index - lengthInput + 1, startPrice) line.set_xy2(baseLine, bar_index, endPrice) na calcDev(source, length, slope, average, intercept) => upDev = 0.0 dnDev = 0.0 stdDevAcc = 0.0 dsxx = 0.0 dsyy = 0.0 dsxy = 0.0 periods = length - 1 daY = intercept + slope * periods / 2 val = intercept for j = 0 to periods by 1 price = high - val if price > upDev upDev := price price := val - low if price > dnDev dnDev := price price := source dxt = price - average dyt = val - daY price -= val stdDevAcc += price * price dsxx += dxt * dxt dsyy += dyt * dyt dsxy += dxt * dyt val += slope stdDev = math.sqrt(stdDevAcc / (periods == 0 ? 1 : periods)) pearsonR = dsxx == 0 or dsyy == 0 ? 0 : dsxy / math.sqrt(dsxx * dsyy) = calcDev(sourceInput, lengthInput, s, a, i) upperStartPrice = startPrice + (useUpperDevInput ? upperMultInput * stdDev : upDev) upperEndPrice = endPrice + (useUpperDevInput ? upperMultInput * stdDev : upDev) var line upper = na lowerStartPrice = startPrice + (useLowerDevInput ? -lowerMultInput * stdDev : -dnDev) lowerEndPrice = endPrice + (useLowerDevInput ? -lowerMultInput * stdDev : -dnDev) var line lower = na if na(upper) and not na(upperStartPrice) and showLinreg upper := line.new(bar_index - lengthInput + 1, upperStartPrice, bar_index, upperEndPrice, width=1, extend=extendStyle, color=color.new(colorUpper, 0)) else line.set_xy1(upper, bar_index - lengthInput + 1, upperStartPrice) line.set_xy2(upper, bar_index, upperEndPrice) na if na(lower) and not na(lowerStartPrice) and showLinreg lower := line.new(bar_index - lengthInput + 1, lowerStartPrice, bar_index, lowerEndPrice, width=1, extend=extendStyle, color=color.new(colorUpper, 0)) else line.set_xy1(lower, bar_index - lengthInput + 1, lowerStartPrice) line.set_xy2(lower, bar_index, lowerEndPrice) na showLinregPlotUpper = showLinreg ? upper : na showLinregPlotLower = showLinreg ? lower : na showLinregPlotBaseLine = showLinreg ? baseLine : na linefill.new(showLinregPlotUpper, showLinregPlotBaseLine, color = colorUpper) linefill.new(showLinregPlotBaseLine, showLinregPlotLower, color = colorLower) // Pearson's R var label r = na label.delete(r ) if showPearsonInput and not na(pearsonR) and showLinreg r := label.new(bar_index - lengthInput + 1, lowerStartPrice, str.tostring(pearsonR, "#.################"), color = color.new(color.white, 100), textcolor=color.new(colorUpper, 0), size=size.normal, style=label.style_label_up) //Mavilim group4 = "Mavilim Settings" mavilimold = input(false, title="Show Previous Version of MavilimW?",group=group4) fmal=input(3,"First Moving Average length",group = group4) smal=input(5,"Second Moving Average length",group = group4) tmal=fmal+smal Fmal=smal+tmal Ftmal=tmal+Fmal Smal=Fmal+Ftmal M1= ta.wma(close, fmal) M2= ta.wma(M1, smal) M3= ta.wma(M2, tmal) M4= ta.wma(M3, Fmal) M5= ta.wma(M4, Ftmal) MAVW= ta.wma(M5, Smal) col1= MAVW>MAVW col3= MAVWpmaxsrc ? pmaxsrc-pmaxsrc : 0 vdd1=pmaxsrc ma = 0.0 if mav == "SMA" ma := ta.sma(pmaxsrc, length) ma if mav == "EMA" ma := ta.ema(pmaxsrc, length) ma if mav == "WMA" ma := ta.wma(pmaxsrc, length) ma if mav == "TMA" ma := ta.sma(ta.sma(pmaxsrc, math.ceil(length / 2)), math.floor(length / 2) + 1) ma if mav == "VAR" ma := VAR ma if mav == "WWMA" ma := WWMA ma if mav == "ZLEMA" ma := ZLEMA ma if mav == "TSF" ma := TSF ma ma MAvg=getMA(pmaxsrc, length) longStop = Normalize ? MAvg - Multiplier*atr/close : MAvg - Multiplier*atr longStopPrev = nz(longStop , longStop) longStop := MAvg > longStopPrev ? math.max(longStop, longStopPrev) : longStop shortStop = Normalize ? MAvg + Multiplier*atr/close : MAvg + Multiplier*atr shortStopPrev = nz(shortStop , shortStop) shortStop := MAvg < shortStopPrev ? math.min(shortStop, shortStopPrev) : shortStop dir = 1 dir := nz(dir , dir) dir := dir == -1 and MAvg > shortStopPrev ? 1 : dir == 1 and MAvg < longStopPrev ? -1 : dir PMax = dir==1 ? longStop: shortStop plot(showsupport ? MAvg : na, color=#fbff04, linewidth=2, title="EMA9") pALL=plot(PMax, color=color.new(color.red, transp = 0), linewidth=2, title="PMax") alertcondition(ta.cross(MAvg, PMax), title="Cross Alert", message="PMax - Moving Avg Crossing!") alertcondition(ta.crossover(MAvg, PMax), title="Crossover Alarm", message="Moving Avg BUY SIGNAL!") alertcondition(ta.crossunder(MAvg, PMax), title="Crossunder Alarm", message="Moving Avg SELL SIGNAL!") alertcondition(ta.cross(pmaxsrc, PMax), title="Price Cross Alert", message="PMax - Price Crossing!") alertcondition(ta.crossover(pmaxsrc, PMax), title="Price Crossover Alarm", message="PRICE OVER PMax - BUY SIGNAL!") alertcondition(ta.crossunder(pmaxsrc, PMax), title="Price Crossunder Alarm", message="PRICE UNDER PMax - SELL SIGNAL!") buySignalk = ta.crossover(MAvg, PMax) plotshape(buySignalk and showsignalsk ? PMax*0.995 : na, title="Buy", text="Buy", location=location.absolute, style=shape.labelup, size=size.tiny, color=color.new(color.green, transp = 0), textcolor=color.white) sellSignallk = ta.crossunder(MAvg, PMax) plotshape(sellSignallk and showsignalsk ? PMax*1.005 : na, title="Sell", text="Sell", location=location.absolute, style=shape.labeldown, size=size.tiny, color=color.new(color.red, transp = 0), textcolor=color.white) // buySignalc = ta.crossover(pmaxsrc, PMax) // plotshape(buySignalc and showsignalsc ? PMax*0.995 : na, title="Buy", text="Buy", location=location.absolute, style=shape.labelup, size=size.tiny, color=#0F18BF, textcolor=color.white) // sellSignallc = ta.crossunder(pmaxsrc, PMax) // plotshape(sellSignallc and showsignalsc ? PMax*1.005 : na, title="Sell", text="Sell", location=location.absolute, style=shape.labeldown, size=size.tiny, color=#0F18BF, textcolor=color.white) // mPlot = plot(ohlc4, title="", style=plot.style_circles, linewidth=0,display=display.none) longFillColor = highlighting ? (MAvg>PMax ? color.new(color.green, transp = 90) : na) : na shortFillColor = highlighting ? (MAvg math.exp(-(math.pow(x, 2)/(h * h * 2))) //-----------------------------------------------------------------------------} //Append lines //-----------------------------------------------------------------------------{ n = bar_index var ln = array.new_line(0) if barstate.isfirst and repaint for i = 0 to 499 array.push(ln,line.new(na,na,na,na)) //-----------------------------------------------------------------------------} //End point method //-----------------------------------------------------------------------------{ var coefs = array.new_float(0) var den = 0. if barstate.isfirst and not repaint for i = 0 to 499 w = gauss(i, h) coefs.push(w) den := coefs.sum() out = 0. if not repaint for i = 0 to 499 out += src * coefs.get(i) out /= den mae = ta.sma(math.abs(src - out), 499) * mult upperN = out + mae lowerN = out - mae //-----------------------------------------------------------------------------} //Compute and display NWE //-----------------------------------------------------------------------------{ float y2 = na float y1 = na nwe = array.new(0) if barstate.islast and repaint sae = 0. //Compute and set NWE point for i = 0 to math.min(499,n - 1) sum = 0. sumw = 0. //Compute weighted mean for j = 0 to math.min(499,n - 1) w = gauss(i - j, h) sum += src * w sumw += w y2 := sum / sumw sae += math.abs(src - y2) nwe.push(y2) sae := sae / math.min(499,n - 1) * mult for i = 0 to math.min(499,n - 1) if i%2 and showNadaray line.new(n-i+1, y1 + sae, n-i, nwe.get(i) + sae, color = upCss) line.new(n-i+1, y1 - sae, n-i, nwe.get(i) - sae, color = dnCss) if src > nwe.get(i) + sae and src < nwe.get(i) + sae and showNadaray label.new(n-i, src , '▼', color = color(na), style = label.style_label_down, textcolor = dnCss, textalign = text.align_center) if src < nwe.get(i) - sae and src > nwe.get(i) - sae and showNadaray label.new(n-i, src , '▲', color = color(na), style = label.style_label_up, textcolor = upCss, textalign = text.align_center) y1 := nwe.get(i) //-----------------------------------------------------------------------------} //Dashboard //-----------------------------------------------------------------------------{ var tb = table.new(position.top_right, 1, 1 , bgcolor = #1e222d , border_color = #373a46 , border_width = 1 , frame_color = #373a46 , frame_width = 1) if repaint tb.cell(0, 0, 'Repainting Mode Enabled', text_color = color.white, text_size = size.small) //-----------------------------------------------------------------------------} //Plot //-----------------------------------------------------------------------------} // plot(repaint ? na : out + mae, 'Upper', upCss) // plot(repaint ? na : out - mae, 'Lower', dnCss) //Crossing Arrows // plotshape(ta.crossunder(close, out - mae) ? low : na, "Crossunder", shape.labelup, location.absolute, color(na), 0 , text = '▲', textcolor = upCss, size = size.tiny) // plotshape(ta.crossover(close, out + mae) ? high : na, "Crossover", shape.labeldown, location.absolute, color(na), 0 , text = '▼', textcolor = dnCss, size = size.tiny) //-----------------------------------------------------------------------------} ////////////////////////////////////////////////////////////////////////////////// enableD = input (true, "DIVERGANCE ON/OFF" , group="INDICATORS ON/OFF") //DIVERGANCE prd1 = input.int (defval=5 , title='PIVOT PERIOD' , minval=1, maxval=50 , group="DIVERGANCE") source = input.string(defval='HIGH/LOW' , title='SOURCE FOR PIVOT POINTS' , options= , group="DIVERGANCE") searchdiv = input.string(defval='REGULAR/HIDDEN', title='DIVERGANCE TYPE' , options= , group="DIVERGANCE") showindis = input.string(defval='FULL' , title='SHOW INDICATORS NAME' , options= , group="DIVERGANCE") showlimit = input.int(1 , title='MINIMUM NUMBER OF DIVERGANCES', minval=1, maxval=11 , group="DIVERGANCE") maxpp = input.int (defval=20 , title='MAXIMUM PIVOT POINTS TO CHECK', minval=1, maxval=20 , group="DIVERGANCE") maxbars = input.int (defval=200 , title='MAXIMUM BARS TO CHECK' , minval=30, maxval=200 , group="DIVERGANCE") showlast = input (defval=false , title='SHOW ONLY LAST DIVERGANCE' , group="DIVERGANCE") dontconfirm = input (defval=false , title="DON'T WAIT FOR CONFORMATION" , group="DIVERGANCE") showlines = input (defval=false , title='SHOW DIVERGANCE LINES' , group="DIVERGANCE") showpivot = input (defval=false , title='SHOW PIVOT POINTS' , group="DIVERGANCE") calcmacd = input (defval=true , title='MACD' , group="DIVERGANCE") calcmacda = input (defval=true , title='MACD HISTOGRAM' , group="DIVERGANCE") calcrsi = input (defval=true , title='RSI' , group="DIVERGANCE") calcstoc = input (defval=true , title='STOCHASTIC' , group="DIVERGANCE") calccci = input (defval=true , title='CCI' , group="DIVERGANCE") calcmom = input (defval=true , title='MOMENTUM' , group="DIVERGANCE") calcobv = input (defval=true , title='OBV' , group="DIVERGANCE") calcvwmacd = input (true , title='VWMACD' , group="DIVERGANCE") calccmf = input (true , title='CHAIKIN MONEY FLOW' , group="DIVERGANCE") calcmfi = input (true , title='MONEY FLOW INDEX' , group="DIVERGANCE") calcext = input (false , title='CHECK EXTERNAL INDICATOR' , group="DIVERGANCE") externalindi = input (defval=close , title='EXTERNAL INDICATOR' , group="DIVERGANCE") pos_reg_div_col = input (defval=#ffffff , title='POSITIVE REGULAR DIVERGANCE' , group="DIVERGANCE") neg_reg_div_col = input (defval=#00def6 , title='NEGATIVE REGULAR DIVERGANCE' , group="DIVERGANCE") pos_hid_div_col = input (defval=#00ff0a , title='POSITIVE HIDDEN DIVERGANCE' , group="DIVERGANCE") neg_hid_div_col = input (defval=#ff0015 , title='NEGATIVE HIDDEN DIVERGANCE' , group="DIVERGANCE") reg_div_l_style_ = input.string(defval='SOLID' , title='REGULAR DIVERGANCE LINESTYLE' , options= , group="DIVERGANCE") hid_div_l_style_ = input.string(defval='SOLID' , title='HIDDEN DIVERGANCE LINESTYLE' , options= , group="DIVERGANCE") reg_div_l_width = input.int (defval=2 , title='REGULAR DIVERGANCE LINEWIDTH' , minval=1, maxval=5 , group="DIVERGANCE") hid_div_l_width = input.int (defval=2 , title='HIDDEN DIVERGANCE LINEWIDTH' , minval=1, maxval=5 , group="DIVERGANCE") showmas = input.bool (defval=false , title='SHOW MOVING AVERAGES (50 & 200)', inline='MA' , group="DIVERGANCE") cma1col = input.color (defval=#ffffff , title='' , inline='MA' , group="DIVERGANCE") cma2col = input.color (defval=#00def6 , title='' , inline='MA' , group="DIVERGANCE") //PLOTS plot(showmas ? ta.sma(close, 50) : na, color=showmas ? cma1col : na) plot(showmas ? ta.sma(close, 200) : na, color=showmas ? cma2col : na) var reg_div_l_style = reg_div_l_style_ == 'SOLID' ? line.style_solid : reg_div_l_style_ == 'DASHED' ? line.style_dashed : line.style_dotted var hid_div_l_style = hid_div_l_style_ == 'SOLID' ? line.style_solid : hid_div_l_style_ == 'DASHED' ? line.style_dashed : line.style_dotted rsi = ta.rsi(close, 14) = ta.macd(close, 12, 26, 9) moment = ta.mom(close, 10) cci = ta.cci(close, 10) Obv = ta.obv stk = ta.sma(ta.stoch(close, high, low, 14), 3) maFast = ta.vwma(close, 12) maSlow = ta.vwma(close, 26) vwmacd = maFast - maSlow Cmfm = (close - low - (high - close)) / (high - low) Cmfv = Cmfm * volume cmf = ta.sma(Cmfv, 21) / ta.sma(volume, 21) Mfi = ta.mfi(close, 14) var indicators_name = array.new_string(11) var div_colors = array.new_color(4) if barstate.isfirst and enableD array.set(indicators_name, 0, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 1, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 2, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 3, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 4, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 5, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 6, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 7, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 8, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 9, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 10, showindis == "DON'T SHOW" ? '' : '') array.set(div_colors, 0, pos_reg_div_col) array.set(div_colors, 1, neg_reg_div_col) array.set(div_colors, 2, pos_hid_div_col) array.set(div_colors, 3, neg_hid_div_col) float ph1 = ta.pivothigh(source == 'CLOSE' ? close : high, prd1, prd1) float pl1 = ta.pivotlow(source == 'CLOSE' ? close : low, prd1, prd1) plotshape(ph1 and showpivot, text='H', style=shape.labeldown, color=color.new(color.white, 100), textcolor=#00def6, location=location.abovebar, offset=-prd1) plotshape(pl1 and showpivot, text='L', style=shape.labelup, color=color.new(color.white, 100), textcolor=#ffffff, location=location.belowbar, offset=-prd1) var int maxarraysize = 20 var ph_positions = array.new_int(maxarraysize, 0) var pl_positions = array.new_int(maxarraysize, 0) var ph_vals = array.new_float(maxarraysize, 0.) var pl_vals = array.new_float(maxarraysize, 0.) if ph1 array.unshift(ph_positions, bar_index) array.unshift(ph_vals, ph1) if array.size(ph_positions) > maxarraysize array.pop(ph_positions) array.pop(ph_vals) if pl1 array.unshift(pl_positions, bar_index) array.unshift(pl_vals, pl1) if array.size(pl_positions) > maxarraysize array.pop(pl_positions) array.pop(pl_vals) positive_regular_positive_hidden_divergence(src, cond) => divlen = 0 prsc = source == 'CLOSE' ? close : low if dontconfirm or src > src or close > close startpoint = dontconfirm ? 0 : 1 for x = 0 to maxpp - 1 by 1 len = bar_index - array.get(pl_positions, x) + prd1 if array.get(pl_positions, x) == 0 or len > maxbars break if len > 5 and (cond == 1 and src > src and prsc < nz(array.get(pl_vals, x)) or cond == 2 and src < src and prsc > nz(array.get(pl_vals, x))) slope1 = (src - src ) / (len - startpoint) virtual_line1 = src - slope1 slope2 = (close - close ) / (len - startpoint) virtual_line2 = close - slope2 arrived = true for y = 1 + startpoint to len - 1 by 1 if src < virtual_line1 or nz(close ) < virtual_line2 arrived := false break virtual_line1 -= slope1 virtual_line2 -= slope2 virtual_line2 if arrived divlen := len break divlen negative_regular_negative_hidden_divergence(src, cond) => divlen = 0 prsc = source == 'CLOSE' ? close : high if dontconfirm or src < src or close < close startpoint = dontconfirm ? 0 : 1 for x = 0 to maxpp - 1 by 1 len = bar_index - array.get(ph_positions, x) + prd1 if array.get(ph_positions, x) == 0 or len > maxbars break if len > 5 and (cond == 1 and src < src and prsc > nz(array.get(ph_vals, x)) or cond == 2 and src > src and prsc < nz(array.get(ph_vals, x))) slope1 = (src - src ) / (len - startpoint) virtual_line1 = src - slope1 slope2 = (close - nz(close )) / (len - startpoint) virtual_line2 = close - slope2 arrived = true for y = 1 + startpoint to len - 1 by 1 if src > virtual_line1 or nz(close ) > virtual_line2 arrived := false break virtual_line1 -= slope1 virtual_line2 -= slope2 virtual_line2 if arrived divlen := len break divlen //CALCULATIONS calculate_divs(cond, indicator_1) => divs = array.new_int(4, 0) array.set(divs, 0, cond and (searchdiv == 'REGULAR' or searchdiv == 'REGULAR/HIDDEN') ? positive_regular_positive_hidden_divergence(indicator_1, 1) : 0) array.set(divs, 1, cond and (searchdiv == 'REGULAR' or searchdiv == 'REGULAR/HIDDEN') ? negative_regular_negative_hidden_divergence(indicator_1, 1) : 0) array.set(divs, 2, cond and (searchdiv == 'HIDDEN' or searchdiv == 'REGULAR/HIDDEN') ? positive_regular_positive_hidden_divergence(indicator_1, 2) : 0) array.set(divs, 3, cond and (searchdiv == 'HIDDEN' or searchdiv == 'REGULAR/HIDDEN') ? negative_regular_negative_hidden_divergence(indicator_1, 2) : 0) divs var all_divergences = array.new_int(44) array_set_divs(div_pointer, index) => for x = 0 to 3 by 1 array.set(all_divergences, index * 4 + x, array.get(div_pointer, x)) array_set_divs(calculate_divs(calcmacd , macd) , 0) array_set_divs(calculate_divs(calcmacda , deltamacd) , 1) array_set_divs(calculate_divs(calcrsi , rsi) , 2) array_set_divs(calculate_divs(calcstoc , stk) , 3) array_set_divs(calculate_divs(calccci , cci) , 4) array_set_divs(calculate_divs(calcmom , moment) , 5) array_set_divs(calculate_divs(calcobv , Obv) , 6) array_set_divs(calculate_divs(calcvwmacd, vwmacd) , 7) array_set_divs(calculate_divs(calccmf , cmf) , 8) array_set_divs(calculate_divs(calcmfi , Mfi) , 9) array_set_divs(calculate_divs(calcext , externalindi), 10) total_div = 0 for x = 0 to array.size(all_divergences) - 1 by 1 total_div += math.round(math.sign(array.get(all_divergences, x))) total_div if total_div < showlimit array.fill(all_divergences, 0) var pos_div_lines = array.new_line(0) var neg_div_lines = array.new_line(0) var pos_div_labels = array.new_label(0) var neg_div_labels = array.new_label(0) delete_old_pos_div_lines() => if array.size(pos_div_lines) > 0 for j = 0 to array.size(pos_div_lines) - 1 by 1 line.delete(array.get(pos_div_lines, j)) array.clear(pos_div_lines) delete_old_neg_div_lines() => if array.size(neg_div_lines) > 0 for j = 0 to array.size(neg_div_lines) - 1 by 1 line.delete(array.get(neg_div_lines, j)) array.clear(neg_div_lines) delete_old_pos_div_labels() => if array.size(pos_div_labels) > 0 for j = 0 to array.size(pos_div_labels) - 1 by 1 label.delete(array.get(pos_div_labels, j)) array.clear(pos_div_labels) delete_old_neg_div_labels() => if array.size(neg_div_labels) > 0 for j = 0 to array.size(neg_div_labels) - 1 by 1 label.delete(array.get(neg_div_labels, j)) array.clear(neg_div_labels) delete_last_pos_div_lines_label(n) => if n > 0 and array.size(pos_div_lines) >= n asz = array.size(pos_div_lines) for j = 1 to n by 1 line.delete(array.get(pos_div_lines, asz - j)) array.pop(pos_div_lines) if array.size(pos_div_labels) > 0 label.delete(array.get(pos_div_labels, array.size(pos_div_labels) - 1)) array.pop(pos_div_labels) delete_last_neg_div_lines_label(n) => if n > 0 and array.size(neg_div_lines) >= n asz = array.size(neg_div_lines) for j = 1 to n by 1 line.delete(array.get(neg_div_lines, asz - j)) array.pop(neg_div_lines) if array.size(neg_div_labels) > 0 label.delete(array.get(neg_div_labels, array.size(neg_div_labels) - 1)) array.pop(neg_div_labels) pos_reg_div_detected = false neg_reg_div_detected = false pos_hid_div_detected = false neg_hid_div_detected = false var last_pos_div_lines = 0 var last_neg_div_lines = 0 var remove_last_pos_divs = false var remove_last_neg_divs = false if pl1 remove_last_pos_divs := false last_pos_div_lines := 0 last_pos_div_lines if ph1 remove_last_neg_divs := false last_neg_div_lines := 0 last_neg_div_lines divergence_text_top = '' divergence_text_bottom = '' distances = array.new_int(0) dnumdiv_top = 0 dnumdiv_bottom = 0 top_label_col = color.white bottom_label_col = color.white old_pos_divs_can_be_removed = true old_neg_divs_can_be_removed = true startpoint = dontconfirm ? 0 : 1 for x = 0 to 10 by 1 div_type = -1 for y = 0 to 3 by 1 if array.get(all_divergences, x * 4 + y) > 0 div_type := y if y % 2 == 1 dnumdiv_top += 1 top_label_col := array.get(div_colors, y) top_label_col if y % 2 == 0 dnumdiv_bottom += 1 bottom_label_col := array.get(div_colors, y) bottom_label_col if not array.includes(distances, array.get(all_divergences, x * 4 + y)) array.push(distances, array.get(all_divergences, x * 4 + y)) new_line = showlines ? line.new(x1=bar_index - array.get(all_divergences, x * 4 + y), y1=source == 'CLOSE' ? close : y % 2 == 0 ? low : high , x2=bar_index - startpoint, y2=source == 'CLOSE' ? close : y % 2 == 0 ? low : high , color=array.get(div_colors, y), style=y < 2 ? reg_div_l_style : hid_div_l_style, width=y < 2 ? reg_div_l_width : hid_div_l_width) : na if y % 2 == 0 if old_pos_divs_can_be_removed old_pos_divs_can_be_removed := false if not showlast and remove_last_pos_divs delete_last_pos_div_lines_label(last_pos_div_lines) last_pos_div_lines := 0 last_pos_div_lines if showlast delete_old_pos_div_lines() array.push(pos_div_lines, new_line) last_pos_div_lines += 1 remove_last_pos_divs := true remove_last_pos_divs if y % 2 == 1 if old_neg_divs_can_be_removed old_neg_divs_can_be_removed := false if not showlast and remove_last_neg_divs delete_last_neg_div_lines_label(last_neg_div_lines) last_neg_div_lines := 0 last_neg_div_lines if showlast delete_old_neg_div_lines() array.push(neg_div_lines, new_line) last_neg_div_lines += 1 remove_last_neg_divs := true remove_last_neg_divs if y == 0 pos_reg_div_detected := true pos_reg_div_detected if y == 1 neg_reg_div_detected := true neg_reg_div_detected if y == 2 pos_hid_div_detected := true pos_hid_div_detected if y == 3 neg_hid_div_detected := true neg_hid_div_detected if div_type >= 0 divergence_text_top += (div_type % 2 == 1 ? showindis != "DON'T SHOW" ? array.get(indicators_name, x) + '\n' : '' : '') divergence_text_bottom += (div_type % 2 == 0 ? showindis != "DON'T SHOW" ? array.get(indicators_name, x) + '\n' : '' : '') divergence_text_bottom if showindis != "DON'T SHOW" if dnumdiv_top > 0 divergence_text_top += str.tostring(dnumdiv_top) divergence_text_top if dnumdiv_bottom > 0 divergence_text_bottom += str.tostring(dnumdiv_bottom) divergence_text_bottom if divergence_text_top != '' if showlast delete_old_neg_div_labels() array.push(neg_div_labels, label.new(x=bar_index, y=math.max(high, high ), color=top_label_col, style=label.style_diamond, size = size.auto)) if divergence_text_bottom != '' if showlast delete_old_pos_div_labels() array.push(pos_div_labels, label.new(x=bar_index, y=math.min(low, low ), color=bottom_label_col, style=label.style_diamond, size = size.auto)) // POSITION AND SIZE PosTable = input.string(defval="Bottom Right", title="Position", options= , group="Table Location & Size", inline="1") SizTable = input.string(defval="Auto", title="Size", options= , group="Table Location & Size", inline="1") Pos1Table = PosTable == "Top Right" ? position.top_right : PosTable == "Middle Right" ? position.middle_right : PosTable == "Bottom Right" ? position.bottom_right : PosTable == "Top Center" ? position.top_center : PosTable == "Middle Center" ? position.middle_center : PosTable == "Bottom Center" ? position.bottom_center : PosTable == "Top Left" ? position.top_left : PosTable == "Middle Left" ? position.middle_left : position.bottom_left Siz1Table = SizTable == "Auto" ? size.auto : SizTable == "Huge" ? size.huge : SizTable == "Large" ? size.large : SizTable == "Normal" ? size.normal : SizTable == "Small" ? size.small : size.tiny tbl = table.new(Pos1Table, 21, 16, border_width = 1, border_color = color.gray, frame_color = color.gray, frame_width = 1) // Kullanıcı tarafından belirlenecek yeşil ve kırmızı zaman dilimi sayısı greenThreshold = input.int(5, minval=1, maxval=10, title="Yeşil Zaman Dilimi Sayısı", group="Alarm Ayarları") redThreshold = input.int(5, minval=1, maxval=10, title="Kırmızı Zaman Dilimi Sayısı", group="Alarm Ayarları") // TIMEFRAMES OPTIONS box01 = input.bool(true, "TF ", inline = "01", group="Select Timeframe") tf01 = input.timeframe("1", "", inline = "01", group="Select Timeframe") box02 = input.bool(false, "TF ", inline = "02", group="Select Timeframe") tf02 = input.timeframe("3", "", inline = "02", group="Select Timeframe") box03 = input.bool(true, "TF ", inline = "03", group="Select Timeframe") tf03 = input.timeframe("5", "", inline = "03", group="Select Timeframe") box04 = input.bool(true, "TF ", inline = "04", group="Select Timeframe") tf04 = input.timeframe("15", "", inline = "04", group="Select Timeframe") box05 = input.bool(false, "TF ", inline = "05", group="Select Timeframe") tf05 = input.timeframe("30", "", inline = "05", group="Select Timeframe") box06 = input.bool(true, "TF ", inline = "01", group="Select Timeframe") tf06 = input.timeframe("60", "", inline = "01", group="Select Timeframe") box07 = input.bool(false, "TF ", inline = "02", group="Select Timeframe") tf07 = input.timeframe("120", "", inline = "02", group="Select Timeframe") box08 = input.bool(false, "TF ", inline = "03", group="Select Timeframe") tf08 = input.timeframe("180", "", inline = "03", group="Select Timeframe") box09 = input.bool(true, "TF ", inline = "04", group="Select Timeframe") tf09 = input.timeframe("240", "", inline = "04", group="Select Timeframe") box10 = input.bool(false, "TF ", inline = "05", group="Select Timeframe") tf10 = input.timeframe("D", "", inline = "05", group="Select Timeframe") // indicator('Tillson FEMA', overlay=true) length1 = input(1, 'FEMA Length') a1 = input(0.7, 'Volume Factor') e1 = ta.ema((high + low + 2 * close) / 4, length1) e2 = ta.ema(e1, length1) e3 = ta.ema(e2, length1) e4 = ta.ema(e3, length1) e5 = ta.ema(e4, length1) e6 = ta.ema(e5, length1) c1 = -a1 * a1 * a1 c2 = 3 * a1 * a1 + 3 * a1 * a1 * a1 c3 = -6 * a1 * a1 - 3 * a1 - 3 * a1 * a1 * a1 c4 = 1 + 3 * a1 + a1 * a1 * a1 + 3 * a1 * a1 FEMA = c1 * e6 + c2 * e5 + c3 * e4 + c4 * e3 tablocol1 = FEMA > FEMA tablocol3 = FEMA < FEMA color_1 = col1 ? color.rgb(149, 219, 35): col3 ? color.rgb(238, 11, 11) : color.yellow plot(FEMA, color=color_1, linewidth=3, title='FEMA') tilson1 = FEMA tilson1a =FEMA // DEFINITION OF VALUES symbol = ticker.modify(syminfo.tickerid, syminfo.session) tfArr = array.new(na) tilson1Arr = array.new(na) tilson1aArr = array.new(na) // DEFINITIONS OF RSI & CCI FUNCTIONS APPENDED IN THE TIMEFRAME OPTIONS cciNcciFun(tf, flg) => = request.security(symbol, tf, ) if flg and (barstate.isrealtime ? true : timeframe.in_seconds(timeframe.period) <= timeframe.in_seconds(tf)) array.push(tfArr, na(tf) ? timeframe.period : tf) array.push(tilson1Arr, tilson_) array.push(tilson1aArr, tilson1a_) cciNcciFun(tf01, box01), cciNcciFun(tf02, box02), cciNcciFun(tf03, box03), cciNcciFun(tf04, box04), cciNcciFun(tf05, box05), cciNcciFun(tf06, box06), cciNcciFun(tf07, box07), cciNcciFun(tf08, box08), cciNcciFun(tf09, box09), cciNcciFun(tf10, box10) // TABLE AND CELLS CONFIG // Post Timeframe in format tfTxt(x)=> out = x if not str.contains(x, "S") and not str.contains(x, "M") and not str.contains(x, "W") and not str.contains(x, "D") if str.tonumber(x)%60 == 0 out := str.tostring(str.tonumber(x)/60)+"H" else out := x + "m" out if barstate.islast table.clear(tbl, 0, 0, 20, 15) // TITLES table.cell(tbl, 0, 0, "⏱", text_color=color.white, text_size=Siz1Table, bgcolor=#000000) table.cell(tbl, 1, 0, "FEMA("+str.tostring(length1)+")", text_color=#FFFFFF, text_size=Siz1Table, bgcolor=#000000) j = 1 greenCounter = 0 // Yeşil zaman dilimlerini saymak için bir sayaç redCounter = 0 if array.size(tilson1Arr) > 0 for i = 0 to array.size(tilson1Arr) - 1 if not na(array.get(tilson1Arr, i)) //config values in the cells TF_VALUE = array.get(tfArr,i) tilson1VALUE = array.get(tilson1Arr, i) tilson1aVALUE = array.get(tilson1aArr, i) SIGNAL1 = tilson1VALUE >= tilson1aVALUE ? "▲" : tilson1VALUE <= tilson1aVALUE ? "▼" : na // Yeşil oklar ve arka planı ayarla greenArrowColor1 = SIGNAL1 == "▲" ? color.rgb(0, 255, 0) : color.rgb(255, 0, 0) greenBgColor1 = SIGNAL1 == "▲" ? color.rgb(25, 70, 22) : color.rgb(93, 22, 22) allGreen = tilson1VALUE >= tilson1aVALUE allRed = tilson1VALUE <= tilson1aVALUE // Determine background color for time text timeBgColor = allGreen ? #194616 : (allRed ? #5D1616 : #000000) txtColor = allGreen ? #00FF00 : (allRed ? #FF4500 : color.white) if allGreen greenCounter := greenCounter + 1 redCounter := 0 else if allRed redCounter := redCounter + 1 greenCounter := 0 else redCounter := 0 greenCounter := 0 // Dinamik pair değerini oluşturma pair = "USDT_" + syminfo.basecurrency + "USDT" // Bot ID için kullanıcı girişi bot_id = input.int(12387976, title="Bot ID", minval=0,group ='3Comas Message', inline = '1') // Varsayılan değeri 12387976 olan bir tamsayı girişi alır // E-posta tokenı için kullanıcı girişi email_token = input("cd4111d4-549a-4759-a082-e8f45c91fa47", title="Email Token",group ='3Comas Message', inline = '1') // USER INPUT FOR DELAY delay_seconds = input.int(0, title="Delay Seconds", minval=0, maxval=86400,group ='3Comas Message', inline = '1') // Dinamik mesajın oluşturulması message = '{ "message_type": "bot", "bot_id": ' + str.tostring(bot_id) + ', "email_token": "' + email_token + '", "delay_seconds": ' + str.tostring(delay_seconds) + ', "pair": "' + pair + '"}' // Kullanıcının belirlediği yeşil veya kırmızı zaman dilimi sayısına ulaşıldığında alarmı tetikle if greenCounter >= greenThreshold alert(message, alert.freq_once_per_bar_close) // if redCounter >= redThreshold // alert(message, alert.freq_once_per_bar_close) // Kullanıcının belirlediği yeşil veya kırmızı zaman dilimi sayısına ulaşıldığında alarmı tetikle // if greenCounter >= greenThreshold // alert("Yeşil zaman dilimi sayısı " + str.tostring(greenThreshold) + " adede ulaştı", alert.freq_once_per_bar_close) // if redCounter >= redThreshold // alert("Kırmızı zaman dilimi sayısı " + str.tostring(redThreshold) + " adede ulaştı", alert.freq_once_per_bar_close) table.cell(tbl, 0, j, tfTxt(TF_VALUE), text_color=txtColor, text_halign=text.align_left, text_size=Siz1Table, bgcolor=timeBgColor) table.cell(tbl, 1, j, str.tostring(tilson1VALUE, "#.#######")+SIGNAL1, text_color=greenArrowColor1, text_halign=text.align_right, text_size=Siz1Table, bgcolor=greenBgColor1) j += 1 prd = input.int(defval=10, title='Pivot Period', minval=4, maxval=30, group='Setup') ppsrc = input.string(defval='High/Low', title='Source', options= , group='Setup') maxnumpp = input.int(defval=20, title=' Maximum Number of Pivot', minval=5, maxval=100, group='Setup') ChannelW = input.int(defval=10, title='Maximum Channel Width %', minval=1, group='Setup') maxnumsr = input.int(defval=5, title=' Maximum Number of S/R', minval=1, maxval=10, group='Setup') min_strength = input.int(defval=2, title=' Minimum Strength', minval=1, maxval=10, group='Setup') labelloc = input.int(defval=20, title='Label Location', group='Colors', tooltip='Positive numbers reference future bars, negative numbers reference histical bars') linestyle = input.string(defval='Dashed', title='Line Style', options= , group='Colors') linewidth = input.int(defval=2, title='Line Width', minval=1, maxval=4, group='Colors') resistancecolor = input.color(defval=color.red, title='Resistance Color', group='Colors') supportcolor = input.color(defval=color.lime, title='Support Color', group='Colors') showpp = input(false, title='Show Point Points') float src1 = ppsrc == 'High/Low' ? high : math.max(close, open) float src2 = ppsrc == 'High/Low' ? low : math.min(close, open) float ph = ta.pivothigh(src1, prd, prd) float pl = ta.pivotlow(src2, prd, prd) plotshape(ph and showpp, text='H', style=shape.labeldown, color=na, textcolor=color.new(color.red, 0), location=location.abovebar, offset=-prd) plotshape(pl and showpp, text='L', style=shape.labelup, color=na, textcolor=color.new(color.lime, 0), location=location.belowbar, offset=-prd) Lstyle = linestyle == 'Dashed' ? line.style_dashed : linestyle == 'Solid' ? line.style_solid : line.style_dotted //calculate maximum S/R channel zone width prdhighest = ta.highest(300) prdlowest = ta.lowest(300) cwidth = (prdhighest - prdlowest) * ChannelW / 100 var pivotvals = array.new_float(0) if ph or pl array.unshift(pivotvals, ph ? ph : pl) if array.size(pivotvals) > maxnumpp // limit the array size array.pop(pivotvals) get_sr_vals(ind) => float lo = array.get(pivotvals, ind) float hi = lo int numpp = 0 for y = 0 to array.size(pivotvals) - 1 by 1 float cpp = array.get(pivotvals, y) float wdth = cpp <= lo ? hi - cpp : cpp - lo if wdth <= cwidth // fits the max channel width? if cpp <= hi lo := math.min(lo, cpp) else hi := math.max(hi, cpp) numpp += 1 numpp var sr_up_level = array.new_float(0) var sr_dn_level = array.new_float(0) sr_strength = array.new_float(0) find_loc(strength) => ret = array.size(sr_strength) for i = ret > 0 ? array.size(sr_strength) - 1 : na to 0 by 1 if strength <= array.get(sr_strength, i) break ret := i ret ret check_sr(hi, lo, strength) => ret = true for i = 0 to array.size(sr_up_level) > 0 ? array.size(sr_up_level) - 1 : na by 1 //included? if array.get(sr_up_level, i) >= lo and array.get(sr_up_level, i) <= hi or array.get(sr_dn_level, i) >= lo and array.get(sr_dn_level, i) <= hi if strength >= array.get(sr_strength, i) array.remove(sr_strength, i) array.remove(sr_up_level, i) array.remove(sr_dn_level, i) ret else ret := false ret break ret var sr_lines = array.new_line(11, na) var sr_labels = array.new_label(11, na) for x = 1 to 10 by 1 rate = 100 * (label.get_y(array.get(sr_labels, x)) - close) / close label.set_text(array.get(sr_labels, x), text=str.tostring(label.get_y(array.get(sr_labels, x))) + '(' + str.tostring(rate, '#.##') + '%)') label.set_x(array.get(sr_labels, x), x=bar_index + labelloc) label.set_color(array.get(sr_labels, x), color=label.get_y(array.get(sr_labels, x)) >= close ? color.red : color.lime) label.set_textcolor(array.get(sr_labels, x), textcolor=label.get_y(array.get(sr_labels, x)) >= close ? color.white : color.black) label.set_style(array.get(sr_labels, x), style=label.get_y(array.get(sr_labels, x)) >= close ? label.style_label_down : label.style_label_up) line.set_color(array.get(sr_lines, x), color=line.get_y1(array.get(sr_lines, x)) >= close ? resistancecolor : supportcolor) if ph or pl //because of new calculation, remove old S/R levels array.clear(sr_up_level) array.clear(sr_dn_level) array.clear(sr_strength) //find S/R zones for x = 0 to array.size(pivotvals) - 1 by 1 = get_sr_vals(x) if check_sr(hi, lo, strength) loc = find_loc(strength) // if strength is in first maxnumsr sr then insert it to the arrays if loc < maxnumsr and strength >= min_strength array.insert(sr_strength, loc, strength) array.insert(sr_up_level, loc, hi) array.insert(sr_dn_level, loc, lo) // keep size of the arrays = 5 if array.size(sr_strength) > maxnumsr array.pop(sr_strength) array.pop(sr_up_level) array.pop(sr_dn_level) for x = 1 to 10 by 1 line.delete(array.get(sr_lines, x)) label.delete(array.get(sr_labels, x)) for x = 0 to array.size(sr_up_level) > 0 ? array.size(sr_up_level) - 1 : na by 1 float mid = math.round_to_mintick((array.get(sr_up_level, x) + array.get(sr_dn_level, x)) / 2) rate = 100 * (mid - close) / close array.set(sr_labels, x + 1, label.new(x=bar_index + labelloc, y=mid, text=str.tostring(mid) + '(' + str.tostring(rate, '#.##') + '%)', color=mid >= close ? color.red : color.lime, textcolor=mid >= close ? color.white : color.black, style=mid >= close ? label.style_label_down : label.style_label_up)) array.set(sr_lines, x + 1, line.new(x1=bar_index, y1=mid, x2=bar_index - 1, y2=mid, extend=extend.both, color=mid >= close ? resistancecolor : supportcolor, style=Lstyle, width=linewidth)) f_crossed_over() => ret = false for x = 0 to array.size(sr_up_level) > 0 ? array.size(sr_up_level) - 1 : na by 1 float mid = math.round_to_mintick((array.get(sr_up_level, x) + array.get(sr_dn_level, x)) / 2) if close <= mid and close > mid ret := true ret ret f_crossed_under() => ret = false for x = 0 to array.size(sr_up_level) > 0 ? array.size(sr_up_level) - 1 : na by 1 float mid = math.round_to_mintick((array.get(sr_up_level, x) + array.get(sr_dn_level, x)) / 2) if close >= mid and close < mid ret := true ret ret alertcondition(f_crossed_over(), title='Resistance Broken', message='Resistance Broken') alertcondition(f_crossed_under(), title='Support Broken', message='Support Broken')

مؤشر Pine Script®

من ‎KRIPTOFEMA‎

Drawing Library "Drawing" User Defined types and methods for basic drawing structure. Consolidated from the earlier libraries - DrawingTypes and DrawingMethods method get_price(this, bar) get line price based on bar Namespace types: Line Parameters: this (Line) : (series Line) Line object. bar (int) : (series/int) bar at which line price need to be calculated Returns: line price at given bar. method init(this) Namespace types: PolyLine Parameters: this (PolyLine) method tostring(this, sortKeys, sortOrder, includeKeys) Converts DrawingTypes/Point object to string representation Namespace types: chart.point Parameters: this (chart.point) : DrawingTypes/Point object sortKeys (bool) : If set to true, string output is sorted by keys. sortOrder (int) : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys includeKeys (array) : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered Returns: string representation of DrawingTypes/Point method tostring(this, sortKeys, sortOrder, includeKeys) Converts DrawingTypes/LineProperties object to string representation Namespace types: LineProperties Parameters: this (LineProperties) : DrawingTypes/LineProperties object sortKeys (bool) : If set to true, string output is sorted by keys. sortOrder (int) : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys includeKeys (array) : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered Returns: string representation of DrawingTypes/LineProperties method tostring(this, sortKeys, sortOrder, includeKeys) Converts DrawingTypes/Line object to string representation Namespace types: Line Parameters: this (Line) : DrawingTypes/Line object sortKeys (bool) : If set to true, string output is sorted by keys. sortOrder (int) : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys includeKeys (array) : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered Returns: string representation of DrawingTypes/Line method tostring(this, sortKeys, sortOrder, includeKeys) Converts DrawingTypes/LabelProperties object to string representation Namespace types: LabelProperties Parameters: this (LabelProperties) : DrawingTypes/LabelProperties object sortKeys (bool) : If set to true, string output is sorted by keys. sortOrder (int) : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys includeKeys (array) : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered Returns: string representation of DrawingTypes/LabelProperties method tostring(this, sortKeys, sortOrder, includeKeys) Converts DrawingTypes/Label object to string representation Namespace types: Label Parameters: this (Label) : DrawingTypes/Label object sortKeys (bool) : If set to true, string output is sorted by keys. sortOrder (int) : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys includeKeys (array) : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered Returns: string representation of DrawingTypes/Label method tostring(this, sortKeys, sortOrder, includeKeys) Converts DrawingTypes/Linefill object to string representation Namespace types: Linefill Parameters: this (Linefill) : DrawingTypes/Linefill object sortKeys (bool) : If set to true, string output is sorted by keys. sortOrder (int) : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys includeKeys (array) : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered Returns: string representation of DrawingTypes/Linefill method tostring(this, sortKeys, sortOrder, includeKeys) Converts DrawingTypes/BoxProperties object to string representation Namespace types: BoxProperties Parameters: this (BoxProperties) : DrawingTypes/BoxProperties object sortKeys (bool) : If set to true, string output is sorted by keys. sortOrder (int) : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys includeKeys (array) : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered Returns: string representation of DrawingTypes/BoxProperties method tostring(this, sortKeys, sortOrder, includeKeys) Converts DrawingTypes/BoxText object to string representation Namespace types: BoxText Parameters: this (BoxText) : DrawingTypes/BoxText object sortKeys (bool) : If set to true, string output is sorted by keys. sortOrder (int) : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys includeKeys (array) : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered Returns: string representation of DrawingTypes/BoxText method tostring(this, sortKeys, sortOrder, includeKeys) Converts DrawingTypes/Box object to string representation Namespace types: Box Parameters: this (Box) : DrawingTypes/Box object sortKeys (bool) : If set to true, string output is sorted by keys. sortOrder (int) : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys includeKeys (array) : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered Returns: string representation of DrawingTypes/Box method delete(this) Deletes line from DrawingTypes/Line object Namespace types: Line Parameters: this (Line) : DrawingTypes/Line object Returns: Line object deleted method delete(this) Deletes label from DrawingTypes/Label object Namespace types: Label Parameters: this (Label) : DrawingTypes/Label object Returns: Label object deleted method delete(this) Deletes Linefill from DrawingTypes/Linefill object Namespace types: Linefill Parameters: this (Linefill) : DrawingTypes/Linefill object Returns: Linefill object deleted method delete(this) Deletes box from DrawingTypes/Box object Namespace types: Box Parameters: this (Box) : DrawingTypes/Box object Returns: DrawingTypes/Box object deleted method delete(this) Deletes lines from array of DrawingTypes/Line objects Namespace types: array Parameters: this (array) : Array of DrawingTypes/Line objects Returns: Array of DrawingTypes/Line objects method delete(this) Deletes labels from array of DrawingTypes/Label objects Namespace types: array Parameters: this (array) : Array of DrawingTypes/Label objects Returns: Array of DrawingTypes/Label objects method delete(this) Deletes linefill from array of DrawingTypes/Linefill objects Namespace types: array Parameters: this (array) : Array of DrawingTypes/Linefill objects Returns: Array of DrawingTypes/Linefill objects method delete(this) Deletes boxes from array of DrawingTypes/Box objects Namespace types: array Parameters: this (array) : Array of DrawingTypes/Box objects Returns: Array of DrawingTypes/Box objects method clear(this) clear items from array of DrawingTypes/Line while deleting underlying objects Namespace types: array Parameters: this (array) : array Returns: void method clear(this) clear items from array of DrawingTypes/Label while deleting underlying objects Namespace types: array Parameters: this (array) : array Returns: void method clear(this) clear items from array of DrawingTypes/Linefill while deleting underlying objects Namespace types: array Parameters: this (array) : array Returns: void method clear(this) clear items from array of DrawingTypes/Box while deleting underlying objects Namespace types: array Parameters: this (array) : array Returns: void method draw(this) Creates line from DrawingTypes/Line object Namespace types: Line Parameters: this (Line) : DrawingTypes/Line object Returns: line created from DrawingTypes/Line object method draw(this) Creates lines from array of DrawingTypes/Line objects Namespace types: array Parameters: this (array) : Array of DrawingTypes/Line objects Returns: Array of DrawingTypes/Line objects method draw(this) Creates label from DrawingTypes/Label object Namespace types: Label Parameters: this (Label) : DrawingTypes/Label object Returns: label created from DrawingTypes/Label object method draw(this) Creates labels from array of DrawingTypes/Label objects Namespace types: array Parameters: this (array) : Array of DrawingTypes/Label objects Returns: Array of DrawingTypes/Label objects method draw(this) Creates linefill object from DrawingTypes/Linefill Namespace types: Linefill Parameters: this (Linefill) : DrawingTypes/Linefill objects Returns: linefill object created method draw(this) Creates linefill objects from array of DrawingTypes/Linefill objects Namespace types: array Parameters: this (array) : Array of DrawingTypes/Linefill objects Returns: Array of DrawingTypes/Linefill used for creating linefills method draw(this) Creates box from DrawingTypes/Box object Namespace types: Box Parameters: this (Box) : DrawingTypes/Box object Returns: box created from DrawingTypes/Box object method draw(this) Creates labels from array of DrawingTypes/Label objects Namespace types: array Parameters: this (array) : Array of DrawingTypes/Label objects Returns: Array of DrawingTypes/Label objects method createLabel(this, lblText, tooltip, properties) Creates DrawingTypes/Label object from DrawingTypes/Point Namespace types: chart.point Parameters: this (chart.point) : DrawingTypes/Point object lblText (string) : Label text tooltip (string) : Tooltip text. Default is na properties (LabelProperties) : DrawingTypes/LabelProperties object. Default is na - meaning default values are used. Returns: DrawingTypes/Label object method createLine(this, other, properties) Creates DrawingTypes/Line object from one DrawingTypes/Point to other Namespace types: chart.point Parameters: this (chart.point) : First DrawingTypes/Point object other (chart.point) : Second DrawingTypes/Point object properties (LineProperties) : DrawingTypes/LineProperties object. Default set to na - meaning default values are used. Returns: DrawingTypes/Line object method createLinefill(this, other, fillColor, transparency) Creates DrawingTypes/Linefill object from DrawingTypes/Line object to other DrawingTypes/Line object Namespace types: Line Parameters: this (Line) : First DrawingTypes/Line object other (Line) : Other DrawingTypes/Line object fillColor (color) : fill color of linefill. Default is color.blue transparency (int) : fill transparency for linefill. Default is 80 Returns: Array of DrawingTypes/Linefill object method createBox(this, other, properties, textProperties) Creates DrawingTypes/Box object from one DrawingTypes/Point to other Namespace types: chart.point Parameters: this (chart.point) : First DrawingTypes/Point object other (chart.point) : Second DrawingTypes/Point object properties (BoxProperties) : DrawingTypes/BoxProperties object. Default set to na - meaning default values are used. textProperties (BoxText) : DrawingTypes/BoxText object. Default is na - meaning no text will be drawn Returns: DrawingTypes/Box object method createBox(this, properties, textProperties) Creates DrawingTypes/Box object from DrawingTypes/Line as diagonal line Namespace types: Line Parameters: this (Line) : Diagonal DrawingTypes/PoLineint object properties (BoxProperties) : DrawingTypes/BoxProperties object. Default set to na - meaning default values are used. textProperties (BoxText) : DrawingTypes/BoxText object. Default is na - meaning no text will be drawn Returns: DrawingTypes/Box object LineProperties Properties of line object Fields: xloc (series string) : X Reference - can be either xloc.bar_index or xloc.bar_time. Default is xloc.bar_index extend (series string) : Property which sets line to extend towards either right or left or both. Valid values are extend.right, extend.left, extend.both, extend.none. Default is extend.none color (series color) : Line color style (series string) : Line style, valid values are line.style_solid, line.style_dashed, line.style_dotted, line.style_arrow_left, line.style_arrow_right, line.style_arrow_both. Default is line.style_solid width (series int) : Line width. Default is 1 Line Line object created from points Fields: start (chart.point) : Starting point of the line end (chart.point) : Ending point of the line properties (LineProperties) : LineProperties object which defines the style of line object (series line) : Derived line object LabelProperties Properties of label object Fields: xloc (series string) : X Reference - can be either xloc.bar_index or xloc.bar_time. Default is xloc.bar_index yloc (series string) : Y reference - can be yloc.price, yloc.abovebar, yloc.belowbar. Default is yloc.price color (series color) : Label fill color style (series string) : Label style as defined in Tradingview Documentation. Default is label.style_none textcolor (series color) : text color. Default is color.black size (series string) : Label text size. Default is size.normal. Other values are size.auto, size.tiny, size.small, size.normal, size.large, size.huge textalign (series string) : Label text alignment. Default if text.align_center. Other allowed values - text.align_right, text.align_left, text.align_top, text.align_bottom text_font_family (series string) : The font family of the text. Default value is font.family_default. Other available option is font.family_monospace Label Label object Fields: point (chart.point) : Point where label is drawn lblText (series string) : label text tooltip (series string) : Tooltip text. Default is na properties (LabelProperties) : LabelProperties object object (series label) : Pine label object Linefill Linefill object Fields: line1 (Line) : First line to create linefill line2 (Line) : Second line to create linefill fillColor (series color) : Fill color transparency (series int) : Fill transparency range from 0 to 100 object (series linefill) : linefill object created from wrapper BoxProperties BoxProperties object Fields: border_color (series color) : Box border color. Default is color.blue bgcolor (series color) : box background color border_width (series int) : Box border width. Default is 1 border_style (series string) : Box border style. Default is line.style_solid extend (series string) : Extend property of box. default is extend.none xloc (series string) : defines if drawing needs to be done based on bar index or time. default is xloc.bar_index BoxText Box Text properties. Fields: boxText (series string) : Text to be printed on the box text_size (series string) : Text size. Default is size.auto text_color (series color) : Box text color. Default is color.yellow. text_halign (series string) : horizontal align style - default is text.align_center text_valign (series string) : vertical align style - default is text.align_center text_wrap (series string) : text wrap style - default is text.wrap_auto text_font_family (series string) : Text font. Default is Box Box object Fields: p1 (chart.point) : Diagonal point one p2 (chart.point) : Diagonal point two properties (BoxProperties) : Box properties textProperties (BoxText) : Box text properties object (series box) : Box object created PolyLineProperties Fields: curved (series bool) closed (series bool) xloc (series string) lineColor (series color) fillColor (series color) lineStyle (series string) lineWidth (series int) PolyLine Fields: points (array) properties (PolyLineProperties) object (series polyline)

مكتبة Pine Script®

من ‎Trendoscope‎

تم تحديثه

DrawingTypes Library "DrawingTypes" User Defined Types for basic drawing structure. Other types and methods will be built on these. Point Point refers to point on chart Fields: price : pivot price bar : pivot bar bartime : pivot bar time LineProperties Properties of line object Fields: xloc : X Reference - can be either xloc.bar_index or xloc.bar_time. Default is xloc.bar_index extend : Property which sets line to extend towards either right or left or both. Valid values are extend.right, extend.left, extend.both, extend.none. Default is extend.none color : Line color style : Line style, valid values are line.style_solid, line.style_dashed, line.style_dotted, line.style_arrow_left, line.style_arrow_right, line.style_arrow_both. Default is line.style_solid width : Line width. Default is 1 Line Line object created from points Fields: start : Starting point of the line end : Ending point of the line properties : LineProperties object which defines the style of line object : Derived line object LabelProperties Properties of label object Fields: xloc : X Reference - can be either xloc.bar_index or xloc.bar_time. Default is xloc.bar_index yloc : Y reference - can be yloc.price, yloc.abovebar, yloc.belowbar. Default is yloc.price color : Label fill color style : Label style as defined in www.tradingview.com Default is label.style_none textcolor : text color. Default is color.black size : Label text size. Default is size.normal. Other values are size.auto, size.tiny, size.small, size.normal, size.large, size.huge textalign : Label text alignment. Default if text.align_center. Other allowed values - text.align_right, text.align_left, text.align_top, text.align_bottom text_font_family : The font family of the text. Default value is font.family_default. Other available option is font.family_monospace Label Label object Fields: point : Point where label is drawn lblText : label text tooltip : Tooltip text. Default is na properties : LabelProperties object object : Pine label object Linefill Linefill object Fields: line1 : First line to create linefill line2 : Second line to create linefill fillColor : Fill color transparency : Fill transparency range from 0 to 100 object : linefill object created from wrapper BoxProperties BoxProperties object Fields: border_color : Box border color. Default is color.blue bgcolor : box background color border_width : Box border width. Default is 1 border_style : Box border style. Default is line.style_solid extend : Extend property of box. default is extend.none xloc : defines if drawing needs to be done based on bar index or time. default is xloc.bar_index BoxText Box Text properties. Fields: boxText : Text to be printed on the box text_size : Text size. Default is size.auto text_color : Box text color. Default is color.yellow. text_halign : horizontal align style - default is text.align_center text_valign : vertical align style - default is text.align_center text_wrap : text wrap style - default is text.wrap_auto text_font_family : Text font. Default is Box Box object Fields: p1 : Diagonal point one p2 : Diagonal point two properties : Box properties textProperties : Box text properties object : Box object created

مكتبة Pine Script®

من ‎Trendoscope‎

تم تحديثه

ObjectHelpers Library "ObjectHelpers" Line | Box | Label | Linefill -- Maker, Setter, Getter Library TODO: add table functionality set(object) set all params for `line`, `box`, `label`, `linefill` objects with 1 function *** ## Overloaded *** ``` method set(line Line, int x1=na, float y1=na, int x2=na, float y2=na,string xloc=na,string extend=na,color color=na,string style=na,int width=na,bool update=na) => line ``` ### Params - **Line** `line` - line object | `required` - **x1** `int` - value to set x1 - **y1** `float` - value to set y1 - **x2** `int` - value to set x2 - **y2** `float` - value to set y2 - **xloc** `int` - value to set xloc - **yloc** `int` - value to set yloc - **extend** `string` - value to set extend - **color** `color` - value to set color - **style** `string` - value to set style - **width** `int` - value to set width - **update** `bool` - value to set update *** ``` method set(box Box,int left=na,float top=na,int right=na, float bottom=na,color bgcolor=na,color border_color=na,string border_style=na,int border_width=na,string extend=na,string txt=na,color text_color=na,string text_font_family=na,string text_halign=na,string text_valign=na,string text_wrap=na,bool update=false) => box ``` ### Params - **Box** `box` - box object - **left** `int` - value to set left - **top** `float` - value to set top - **right** `int` - value to set right - **bottom** `float` - value to set bottom - **bgcolor** `color` - value to set bgcolor - **border_color** `color` - value to set border_color - **border_style** `string` - value to set border_style - **border_width** `int` - value to set border_width - **extend** `string` - value to set extend - **txt** `string` - value to set _text - **text_color** `color` - value to set text_color - **text_font_family** `string` - value to set text_font_family - **text_halign** `string` - value to set text_halign - **text_valign** `string` - value to set text_valign - **text_wrap** `string` - value to set text_wrap - **update** `bool` - value to set update *** ``` method set(label Label,int x=na,float y=na, string txt=na,string xloc=na,color color=na,color textcolor=na,string size=na,string style=na,string textalign=na,string tooltip=na,string text_font_family=na,bool update=false) => label ``` ### Paramas - **Label** `label` - label object - **x** `int` - value to set x - **y** `float` - value to set y - **txt** `string` - value to set text add`"+++"` to the _text striing to have the current label text concatenated to the location of the "+++") - **textcolor** `color` - value to set textcolor - **size** `string` - value to set size - **style** `string` - value to set style (use "flip" ,as the style to have label flip to top or bottom of bar depending on if open > close and vice versa) - **text_font_family** `string` - value to set text_font_family - **textalign** `string` - value to set textalign - **tooltip** `string` - value to set tooltip - **update** `bool` - update label to next bar *** ``` method set(linefill Linefill=na,line line1=na,line line2=na,color color=na) => linefill ``` ### Params - **linefill** `linefill` - linefill object - **line1** `line` - line object - **line2** `line` - line object - **color** `color` - color Parameters: object (obj) Returns: `line`, `box`, `label`, `linefill` method set(Line, x1, y1, x2, y2, xloc, extend, color, style, width, update) set the location params of a line with 1 function auto detects time or bar_index for xloc param Namespace types: series line Parameters: Line (line) : `line` - line object | `required` x1 (int) : `int` - value to set x1 y1 (float) : `float` - value to set y1 x2 (int) : `int` - value to set x2 y2 (float) : `float` - value to set y2 xloc (string) : `int` - value to set xloc extend (string) : `string` - value to set extend color (color) : `color` - value to set color style (string) : `string` - value to set style width (int) : `int` - value to set width update (bool) : `bool` - value to set update Returns: `line` method set(Box, left, top, right, bottom, bgcolor, border_color, border_style, border_width, extend, txt, text_color, text_font_family, text_halign, text_valign, text_wrap, update) set the location params of a box with 1 function Namespace types: series box Parameters: Box (box) : `box` - box object | `required` left (int) : `int` - value to set left top (float) : `float` - value to set top right (int) : `int` - value to set right bottom (float) : `float` - value to set bottom bgcolor (color) : `color` - value to set bgcolor border_color (color) : `color` - value to set border_color border_style (string) : `string` - value to set border_style border_width (int) : `int` - value to set border_width extend (string) : `string` - value to set extend txt (string) : `string` - value to set _text text_color (color) : `color` - value to set text_color text_font_family (string) : `string` - value to set text_font_family text_halign (string) : `string` - value to set text_halign text_valign (string) : `string` - value to set text_valign text_wrap (string) : `string` - value to set text_wrap update (bool) : `bool` - value to set update Returns: `box` method set(Label, x, y, txt, xloc, color, textcolor, size, style, textalign, tooltip, text_font_family, update) set the location params of a label with 1 function auto detects time or bar_index for xloc param Namespace types: series label Parameters: Label (label) : `label` | `required` x (int) : `int` - value to set x y (float) : `float` - value to set y txt (string) : `string` - value to set text add`"+++"` to the _text striing to have the current label text concatenated to the location of the "+++") xloc (string) color (color) textcolor (color) : `color` - value to set textcolor size (string) : `string` - value to set size style (string) : `string` - value to set style (use "flip" ,as the style to have label flip to top or bottom of bar depending on if open > close and vice versa) textalign (string) : `string` - value to set textalign tooltip (string) : `string` - value to set tooltip text_font_family (string) : `string` - value to set text_font_family update (bool) : `bool` - update label to next bar Returns: `label` method set(Linefill, line1, line2, color) change the 1 or 2 of the lines in a linefill object Namespace types: series linefill Parameters: Linefill (linefill) line1 (line) : `line` - line object line2 (line) : `line` - line object color (color) : `color` - color Returns: `linefill` get(object) get all of the location variables for `line`, `box`, `label` objects or the line objects from a `linefill` *** ## Overloaded *** ``` method get(line Line) => ``` ### Params - **Line** `line` - line object | `required` *** ``` method get(box Box) => ``` ### Params - **Box** `box` - box object | `required` *** ``` method get(label Label) => ``` ### Paramas - **Label** `label` - label object | `required` *** ``` method get(linefill Linefill) => ``` ### Params - **Linefill** `linefill` - linefill object | `required` Parameters: object (obj) Returns: ` ` method get(Line) Gets the location paramaters of a Line Namespace types: series line Parameters: Line (line) : `line` - line object Returns: method get(Box) Gets the location paramaters of a Box Namespace types: series box Parameters: Box (box) : `box` - box object Returns: method get(Label) Gets the `x`, `y`, `text` of a Label Namespace types: series label Parameters: Label (label) : `label` - label object Returns: method get(Linefill) Gets `line 1`, `line 2` from a Linefill Namespace types: series linefill Parameters: Linefill (linefill) : `linefill` - linefill object Returns: method set_x(Line, x1, x2) set the `x1`, `x2` of a line *** ### Params - **Line** `line` - line object | `required` - **x1** `int` - value to set x1 | `required` - **x2** `int` - value to set x2 | `required` Namespace types: series line Parameters: Line (line) : `line` - line object x1 (int) : `int` - value to set x1 x2 (int) : `int` - value to set x2 Returns: `line` method set_y(Line, y1, y2) set `y1`, `y2` of a line *** ### Params - **Line** `line` - line object | `required` - **y1** `float` - value to set y1 | `required` - **y2** `float` - value to set y2 | `required` Namespace types: series line Parameters: Line (line) : `line` - line object y1 (float) : `float` - value to set y1 y2 (float) : `float` - value to set y2 Returns: `line` method Line(x1, y1, x2, y2, extend, color, style, width) Similar to `line.new()` but can detect time or bar_index for xloc param and has defaults for all params but `x1`, `y1`, `x2`, `y2` *** ### Params - **x1** `int` - value to set - **y1** `float` - value to set - **x2** `int` - value to set - **y2** `float` - value to set - **extend** `string` - extend value to set line - **color** `color` - color to set line - **style** `string` - style to set line - **width** `int` - width to set line Namespace types: series int, simple int, input int, const int Parameters: x1 (int) : `int` - value to set y1 (float) : `float` - value to set x2 (int) : `int` - value to set y2 (float) : `float` - value to set extend (string) : `string` - extend value to set line color (color) : `color` - color to set line style (string) : `string` - style to set line width (int) : `int` - width to set line Returns: `line` method Box(left, top, right, bottom, extend, border_color, bgcolor, text_color, border_width, border_style, txt, text_halign, text_valign, text_size, text_wrap) similar to box.new() with the but can detect xloc param and has defaults for everything but location params *** ### Params - **left** `int` - value to set - **top** `float` - value to set - **right** `int` - value to set - **bottom** `float` - value to set - **extend** `string` - extend value to set box - **border_color** `color` - color to set border - **bgcolor** `color` - color to set background - **text_color** `color` - color to set text - **border_width** `int` - width to set border - **border_style** `string` - style to set border - **txt** `string` - text to set - **text_halign** `string` - horizontal alignment to set text - **text_valign** `string` - vertical alignment to set text - **text_size** `string` - size to set text - **text_wrap** `string` - wrap to set text Namespace types: series int, simple int, input int, const int Parameters: left (int) : `int` - value to set top (float) : `float` - value to set right (int) : `int` - value to set bottom (float) : `float` - value to set extend (string) : `string` - extend value to set box border_color (color) : `color` - color to set border bgcolor (color) : `color` - color to set background text_color (color) : `color` - color to set text border_width (int) : `int` - width to set border border_style (string) : `string` - style to set border txt (string) : `string` - text to set text_halign (string) : `string` - horizontal alignment to set text text_valign (string) : `string` - vertical alignment to set text text_size (string) : `string` - size to set text text_wrap (string) : `string` - wrap to set text Returns: `box` method Label(txt, x, y, yloc, color, textcolor, style, size, textalign, text_font_family, tooltip) Similar to label.new() but can detect time or bar_index for xloc param and has defaults for all params but x, y, txt, tooltip \n *** ### Params - **txt** `string` - string to set - **x** `int` - value to set - **y** `float` - value to set - **yloc** `string` - y location to set - **color** `color` - label color to set - **textcolor** `color` - text color to set - **style** `string` - style to set - **size** `string` - size to set - **textalign** `string` - text alignment to set - **text_font_family** `string` - font family to set - **tooltip** `string` - tooltip to set Namespace types: series string, simple string, input string, const string Parameters: txt (string) : `string` - string to set x (int) : `int` - value to set y (float) : `float` - value to set yloc (string) : `string` - y location to set color (color) : `color` - label color to set textcolor (color) : `color` - text color to set style (string) : `string` - style to set size (string) : `string` - size to set textalign (string) : `string` - text alignment to set text_font_family (string) : `string` - font family to set tooltip (string) : `string` - tooltip to set Returns: `label` obj Fields: obj (series__string)

مكتبة Pine Script®

من ‎FFriZz‎

تم تحديثه

SR & POI Indicator //@version=5 indicator(title='SR & POI Indicator', overlay=true, max_boxes_count=500, max_lines_count=500, max_labels_count=500) //============================================================================ // SUPPLY/DEMAND & POI SETTINGS //============================================================================ swing_length = input.int(10, title = 'Swing High/Low Length', group = 'Supply/Demand Settings', minval = 1, maxval = 50) history_of_demand_to_keep = input.int(20, title = 'History To Keep', group = 'Supply/Demand Settings', minval = 5, maxval = 50) box_width = input.float(2.5, title = 'Supply/Demand Box Width', group = 'Supply/Demand Settings', minval = 1, maxval = 10, step = 0.5) show_price_action_labels = input.bool(false, title = 'Show Price Action Labels', group = 'Supply/Demand Visual Settings') supply_color = input.color(color.new(#EDEDED,70), title = 'Supply', group = 'Supply/Demand Visual Settings', inline = '3') supply_outline_color = input.color(color.new(color.white,75), title = 'Outline', group = 'Supply/Demand Visual Settings', inline = '3') demand_color = input.color(color.new(#00FFFF,70), title = 'Demand', group = 'Supply/Demand Visual Settings', inline = '4') demand_outline_color = input.color(color.new(color.white,75), title = 'Outline', group = 'Supply/Demand Visual Settings', inline = '4') bos_label_color = input.color(color.white, title = 'BOS Label', group = 'Supply/Demand Visual Settings') poi_label_color = input.color(color.white, title = 'POI Label', group = 'Supply/Demand Visual Settings') swing_type_color = input.color(color.black, title = 'Price Action Label', group = 'Supply/Demand Visual Settings') //============================================================================ // SR SETTINGS //============================================================================ enableSR = input(true, "SR On/Off", group="SR Settings") colorSup = input(#00DBFF, "Support Color", group="SR Settings") colorRes = input(#E91E63, "Resistance Color", group="SR Settings") strengthSR = input.int(2, "S/R Strength", 1, group="SR Settings") lineStyle = input.string("Dotted", "Line Style", , group="SR Settings") lineWidth = input.int(2, "S/R Line Width", 1, group="SR Settings") useZones = input(true, "Zones On/Off", group="SR Settings") useHLZones = input(true, "High Low Zones On/Off", group="SR Settings") zoneWidth = input.int(2, "Zone Width %", 0, tooltip="it's calculated using % of the distance between highest/lowest in last 300 bars", group="SR Settings") expandSR = input(true, "Expand SR", group="SR Settings") //============================================================================ // SUPPLY/DEMAND FUNCTIONS //============================================================================ // Function to add new and remove last in array f_array_add_pop(array, new_value_to_add) => array.unshift(array, new_value_to_add) array.pop(array) // Function for swing H & L labels f_sh_sl_labels(array, swing_type) => var string label_text = na if swing_type == 1 if array.get(array, 0) >= array.get(array, 1) label_text := 'HH' else label_text := 'LH' label.new(bar_index - swing_length, array.get(array,0), text = label_text, style=label.style_label_down, textcolor = swing_type_color, color = color.new(swing_type_color, 100), size = size.tiny) else if swing_type == -1 if array.get(array, 0) >= array.get(array, 1) label_text := 'HL' else label_text := 'LL' label.new(bar_index - swing_length, array.get(array,0), text = label_text, style=label.style_label_up, textcolor = swing_type_color, color = color.new(swing_type_color, 100), size = size.tiny) // Function to check overlapping f_check_overlapping(new_poi, box_array, atr) => atr_threshold = atr * 2 okay_to_draw = true for i = 0 to array.size(box_array) - 1 top = box.get_top(array.get(box_array, i)) bottom = box.get_bottom(array.get(box_array, i)) poi = (top + bottom) / 2 upper_boundary = poi + atr_threshold lower_boundary = poi - atr_threshold if new_poi >= lower_boundary and new_poi <= upper_boundary okay_to_draw := false break else okay_to_draw := true okay_to_draw // Function to draw supply or demand zone f_supply_demand(value_array, bn_array, box_array, label_array, box_type, atr) => atr_buffer = atr * (box_width / 10) box_left = array.get(bn_array, 0) box_right = bar_index var float box_top = 0.00 var float box_bottom = 0.00 var float poi = 0.00 if box_type == 1 box_top := array.get(value_array, 0) box_bottom := box_top - atr_buffer poi := (box_top + box_bottom) / 2 else if box_type == -1 box_bottom := array.get(value_array, 0) box_top := box_bottom + atr_buffer poi := (box_top + box_bottom) / 2 okay_to_draw = f_check_overlapping(poi, box_array, atr) if box_type == 1 and okay_to_draw box.delete( array.get(box_array, array.size(box_array) - 1) ) f_array_add_pop(box_array, box.new( left = box_left, top = box_top, right = box_right, bottom = box_bottom, border_color = supply_outline_color, bgcolor = supply_color, extend = extend.right, text = 'SUPPLY', text_halign = text.align_center, text_valign = text.align_center, text_color = poi_label_color, text_size = size.small, xloc = xloc.bar_index)) box.delete( array.get(label_array, array.size(label_array) - 1) ) f_array_add_pop(label_array, box.new( left = box_left, top = poi, right = box_right, bottom = poi, border_color = color.new(poi_label_color,90), bgcolor = color.new(poi_label_color,90), extend = extend.right, text = 'POI', text_halign = text.align_left, text_valign = text.align_center, text_color = poi_label_color, text_size = size.small, xloc = xloc.bar_index)) else if box_type == -1 and okay_to_draw box.delete( array.get(box_array, array.size(box_array) - 1) ) f_array_add_pop(box_array, box.new( left = box_left, top = box_top, right = box_right, bottom = box_bottom, border_color = demand_outline_color, bgcolor = demand_color, extend = extend.right, text = 'DEMAND', text_halign = text.align_center, text_valign = text.align_center, text_color = poi_label_color, text_size = size.small, xloc = xloc.bar_index)) box.delete( array.get(label_array, array.size(label_array) - 1) ) f_array_add_pop(label_array, box.new( left = box_left, top = poi, right = box_right, bottom = poi, border_color = color.new(poi_label_color,90), bgcolor = color.new(poi_label_color,90), extend = extend.right, text = 'POI', text_halign = text.align_left, text_valign = text.align_center, text_color = poi_label_color, text_size = size.small, xloc = xloc.bar_index)) // Function to change supply/demand to BOS if broken f_sd_to_bos(box_array, bos_array, label_array, zone_type) => if zone_type == 1 for i = 0 to array.size(box_array) - 1 level_to_break = box.get_top(array.get(box_array,i)) if close >= level_to_break copied_box = box.copy(array.get(box_array,i)) f_array_add_pop(bos_array, copied_box) mid = (box.get_top(array.get(box_array,i)) + box.get_bottom(array.get(box_array,i))) / 2 box.set_top(array.get(bos_array,0), mid) box.set_bottom(array.get(bos_array,0), mid) box.set_extend( array.get(bos_array,0), extend.none) box.set_right( array.get(bos_array,0), bar_index) box.set_text( array.get(bos_array,0), 'BOS' ) box.set_text_color( array.get(bos_array,0), bos_label_color) box.set_text_size( array.get(bos_array,0), size.small) box.set_text_halign( array.get(bos_array,0), text.align_center) box.set_text_valign( array.get(bos_array,0), text.align_center) box.delete(array.get(box_array, i)) box.delete(array.get(label_array, i)) if zone_type == -1 for i = 0 to array.size(box_array) - 1 level_to_break = box.get_bottom(array.get(box_array,i)) if close <= level_to_break copied_box = box.copy(array.get(box_array,i)) f_array_add_pop(bos_array, copied_box) mid = (box.get_top(array.get(box_array,i)) + box.get_bottom(array.get(box_array,i))) / 2 box.set_top(array.get(bos_array,0), mid) box.set_bottom(array.get(bos_array,0), mid) box.set_extend( array.get(bos_array,0), extend.none) box.set_right( array.get(bos_array,0), bar_index) box.set_text( array.get(bos_array,0), 'BOS' ) box.set_text_color( array.get(bos_array,0), bos_label_color) box.set_text_size( array.get(bos_array,0), size.small) box.set_text_halign( array.get(bos_array,0), text.align_center) box.set_text_valign( array.get(bos_array,0), text.align_center) box.delete(array.get(box_array, i)) box.delete(array.get(label_array, i)) // Function to extend box endpoint f_extend_box_endpoint(box_array) => for i = 0 to array.size(box_array) - 1 box.set_right(array.get(box_array, i), bar_index + 100) //============================================================================ // SR FUNCTIONS //============================================================================ percWidth(len, perc) => (ta.highest(len) - ta.lowest(len)) * perc / 100 //============================================================================ // SUPPLY/DEMAND CALCULATIONS //============================================================================ atr = ta.atr(50) swing_high = ta.pivothigh(high, swing_length, swing_length) swing_low = ta.pivotlow(low, swing_length, swing_length) var swing_high_values = array.new_float(5,0.00) var swing_low_values = array.new_float(5,0.00) var swing_high_bns = array.new_int(5,0) var swing_low_bns = array.new_int(5,0) var current_supply_box = array.new_box(history_of_demand_to_keep, na) var current_demand_box = array.new_box(history_of_demand_to_keep, na) var current_supply_poi = array.new_box(history_of_demand_to_keep, na) var current_demand_poi = array.new_box(history_of_demand_to_keep, na) var supply_bos = array.new_box(5, na) var demand_bos = array.new_box(5, na) // New swing high if not na(swing_high) f_array_add_pop(swing_high_values, swing_high) f_array_add_pop(swing_high_bns, bar_index ) if show_price_action_labels f_sh_sl_labels(swing_high_values, 1) f_supply_demand(swing_high_values, swing_high_bns, current_supply_box, current_supply_poi, 1, atr) // New swing low else if not na(swing_low) f_array_add_pop(swing_low_values, swing_low) f_array_add_pop(swing_low_bns, bar_index ) if show_price_action_labels f_sh_sl_labels(swing_low_values, -1) f_supply_demand(swing_low_values, swing_low_bns, current_demand_box, current_demand_poi, -1, atr) f_sd_to_bos(current_supply_box, supply_bos, current_supply_poi, 1) f_sd_to_bos(current_demand_box, demand_bos, current_demand_poi, -1) f_extend_box_endpoint(current_supply_box) f_extend_box_endpoint(current_demand_box) //============================================================================ // SR CALCULATIONS & PLOTTING //============================================================================ rb = 10 prd = 284 ChannelW = 10 label_loc = 55 style = lineStyle == "Solid" ? line.style_solid : lineStyle == "Dotted" ? line.style_dotted : line.style_dashed ph = ta.pivothigh(rb, rb) pl = ta.pivotlow (rb, rb) sr_levels = array.new_float(21, na) prdhighest = ta.highest(prd) prdlowest = ta.lowest(prd) cwidth = percWidth(prd, ChannelW) zonePerc = percWidth(300, zoneWidth) aas = array.new_bool(41, true) u1 = 0.0, u1 := nz(u1 ) d1 = 0.0, d1 := nz(d1 ) highestph = 0.0, highestph := highestph lowestpl = 0.0, lowestpl := lowestpl var sr_levs = array.new_float(21, na) label hlabel = na, label.delete(hlabel ) label llabel = na, label.delete(llabel ) var sr_lines = array.new_line(21, na) var sr_linesH = array.new_line(21, na) var sr_linesL = array.new_line(21, na) var sr_linesF = array.new_linefill(21, na) var sr_labels = array.new_label(21, na) if ph or pl for x = 0 to array.size(sr_levels) - 1 array.set(sr_levels, x, na) highestph := prdlowest lowestpl := prdhighest countpp = 0 for x = 0 to prd if na(close ) break if not na(ph ) or not na(pl ) highestph := math.max(highestph, nz(ph , prdlowest), nz(pl , prdlowest)) lowestpl := math.min(lowestpl, nz(ph , prdhighest), nz(pl , prdhighest)) countpp += 1 if countpp > 40 break if array.get(aas, countpp) upl = (ph ? high : low ) + cwidth dnl = (ph ? high : low ) - cwidth u1 := countpp == 1 ? upl : u1 d1 := countpp == 1 ? dnl : d1 tmp = array.new_bool(41, true) cnt = 0 tpoint = 0 for xx = 0 to prd if na(close ) break if not na(ph ) or not na(pl ) chg = false cnt += 1 if cnt > 40 break if array.get(aas, cnt) if not na(ph ) if high <= upl and high >= dnl tpoint += 1 chg := true if not na(pl ) if low <= upl and low >= dnl tpoint += 1 chg := true if chg and cnt < 41 array.set(tmp, cnt, false) if tpoint >= strengthSR for g = 0 to 40 by 1 if not array.get(tmp, g) array.set(aas, g, false) if ph and countpp < 21 array.set(sr_levels, countpp, high ) if pl and countpp < 21 array.set(sr_levels, countpp, low ) // Plot SR var line highest_ = na, line.delete(highest_) var line lowest_ = na, line.delete(lowest_) var line highest_fill1 = na, line.delete(highest_fill1) var line highest_fill2 = na, line.delete(highest_fill2) var line lowest_fill1 = na, line.delete(lowest_fill1) var line lowest_fill2 = na, line.delete(lowest_fill2) hi_col = close >= highestph ? colorSup : colorRes lo_col = close >= lowestpl ? colorSup : colorRes if enableSR highest_ := line.new(bar_index - 311, highestph, bar_index, highestph, xloc.bar_index, expandSR ? extend.both : extend.right, hi_col, style, lineWidth) lowest_ := line.new(bar_index - 311, lowestpl , bar_index, lowestpl , xloc.bar_index, expandSR ? extend.both : extend.right, lo_col, style, lineWidth) if useHLZones highest_fill1 := line.new(bar_index - 311, highestph + zonePerc, bar_index, highestph + zonePerc, xloc.bar_index, expandSR ? extend.both : extend.right, na) highest_fill2 := line.new(bar_index - 311, highestph - zonePerc, bar_index, highestph - zonePerc, xloc.bar_index, expandSR ? extend.both : extend.right, na) lowest_fill1 := line.new(bar_index - 311, lowestpl + zonePerc , bar_index, lowestpl + zonePerc , xloc.bar_index, expandSR ? extend.both : extend.right, na) lowest_fill2 := line.new(bar_index - 311, lowestpl - zonePerc , bar_index, lowestpl - zonePerc , xloc.bar_index, expandSR ? extend.both : extend.right, na) linefill.new(highest_fill1, highest_fill2, color.new(hi_col, 80)) linefill.new(lowest_fill1 , lowest_fill2 , color.new(lo_col, 80)) if ph or pl for x = 0 to array.size(sr_lines) - 1 array.set(sr_levs, x, array.get(sr_levels, x)) for x = 0 to array.size(sr_lines) - 1 line.delete(array.get(sr_lines, x)) line.delete(array.get(sr_linesH, x)) line.delete(array.get(sr_linesL, x)) linefill.delete(array.get(sr_linesF, x)) if array.get(sr_levs, x) and enableSR line_col = close >= array.get(sr_levs, x) ? colorSup : colorRes array.set(sr_lines, x, line.new(bar_index - 355, array.get(sr_levs, x), bar_index, array.get(sr_levs, x), xloc.bar_index, expandSR ? extend.both : extend.right, line_col, style, lineWidth)) if useZones array.set(sr_linesH, x, line.new(bar_index - 355, array.get(sr_levs, x) + zonePerc, bar_index, array.get(sr_levs, x) + zonePerc, xloc.bar_index, expandSR ? extend.both : extend.right, na)) array.set(sr_linesL, x, line.new(bar_index - 355, array.get(sr_levs, x) - zonePerc, bar_index, array.get(sr_levs, x) - zonePerc, xloc.bar_index, expandSR ? extend.both : extend.right, na)) array.set(sr_linesF, x, linefill.new(array.get(sr_linesH, x), array.get(sr_linesL, x), color.new(line_col, 80))) for x = 0 to array.size(sr_labels) - 1 label.delete(array.get(sr_labels, x)) if array.get(sr_levs, x) and enableSR lab_loc = close >= array.get(sr_levs, x) ? label.style_label_up : label.style_label_down lab_col = close >= array.get(sr_levs, x) ? colorSup : colorRes array.set(sr_labels, x, label.new(bar_index + label_loc, array.get(sr_levs, x), str.tostring(math.round_to_mintick(array.get(sr_levs, x))), color=lab_col , textcolor=#000000, style=lab_loc)) hlabel := enableSR ? label.new(bar_index + label_loc + math.round(math.sign(label_loc)) * 20, highestph, "High Level : " + str.tostring(highestph), color=hi_col, textcolor=#000000, style=label.style_label_down) : na llabel := enableSR ? label.new(bar_index + label_loc + math.round(math.sign(label_loc)) * 20, lowestpl , "Low Level : " + str.tostring(lowestpl) , color=lo_col, textcolor=#000000, style=label.style_label_up ) : na

مؤشر Pine Script®

من ‎doctorUnlocker‎

Volume Delta Volume Signals by Claudio [hapharmonic]// This Pine Script™ code is subject to the terms of the Mozilla Public License 2.0 at mozilla.org // © hapharmonic //@version=6 FV = format.volume FP = format.percent indicator('Volume Delta Volume Signals by Claudio ', format = FV, max_bars_back = 4999, max_labels_count = 500) //------------------------------------------ // Settings | //------------------------------------------ bool usecandle = input.bool(true, title = 'Volume on Candles',display=display.none) color C_Up = input.color(#12cef8, title = 'Volume Buy', inline = ' ', group = 'Style') color C_Down = input.color(#fe3f00, title = 'Volume Sell', inline = ' ', group = 'Style') // ✅ Nueva entrada para colores de señales color buySignalColor = input.color(color.new(color.green, 0), "Buy Signal Color", group = "Signals") color sellSignalColor = input.color(color.new(color.red, 0), "Sell Signal Color", group = "Signals") string P_ = input.string(position.top_right,"Position",options = , group = "Style",display=display.none) string sL = input.string(size.small , 'Size Label', options = , group = 'Style',display=display.none) string sT = input.string(size.normal, 'Size Table', options = , group = 'Style',display=display.none) bool Label = input.bool(false, inline = 'l') History = input.bool(true, inline = 'l') // Inputs for EMA lengths and volume confirmation bool MAV = input.bool(true, title = 'EMA', group = 'EMA') string volumeOption = input.string('Use Volume Confirmation', title = 'Volume Option', options = , group = 'EMA',display=display.none) bool useVolumeConfirmation = volumeOption == 'none' ? false : true int emaFastLength = input(12, title = 'Fast EMA Length', group = 'EMA',display=display.none) int emaSlowLength = input(26, title = 'Slow EMA Length', group = 'EMA',display=display.none) int volumeConfirmationLength = input(6, title = 'Volume Confirmation Length', group = 'EMA',display=display.none) string alert_freq = input.string(alert.freq_once_per_bar_close, title="Alert Frequency", options= ,group = "EMA", tooltip="If you choose once_per_bar, you will receive immediate notifications (but this may cause interference or indicator repainting). \n However, if you choose once_per_bar_close, it will wait for the candle to confirm the signal before notifying.",display=display.none) //------------------------------------------ // UDT_identifier | //------------------------------------------ type OHLCV float O = open float H = high float L = low float C = close float V = volume type VolumeData float buyVol float sellVol float pcBuy float pcSell bool isBuyGreater float higherVol float lowerVol color higherCol color lowerCol //------------------------------------------ // Calculate volumes and percentages | //------------------------------------------ calcVolumes(OHLCV ohlcv) => var VolumeData data = VolumeData.new() data.buyVol := ohlcv.V * (ohlcv.C - ohlcv.L) / (ohlcv.H - ohlcv.L) data.sellVol := ohlcv.V - data.buyVol data.pcBuy := data.buyVol / ohlcv.V * 100 data.pcSell := 100 - data.pcBuy data.isBuyGreater := data.buyVol > data.sellVol data.higherVol := data.isBuyGreater ? data.buyVol : data.sellVol data.lowerVol := data.isBuyGreater ? data.sellVol : data.buyVol data.higherCol := data.isBuyGreater ? C_Up : C_Down data.lowerCol := data.isBuyGreater ? C_Down : C_Up data //------------------------------------------ // Get volume data | //------------------------------------------ ohlcv = OHLCV.new() volData = calcVolumes(ohlcv) // Plot volumes and create labels plot(ohlcv.V, color=color.new(volData.higherCol, 90), style=plot.style_columns, title='Total',display = display.all - display.status_line) plot(ohlcv.V, color=volData.higherCol, style=plot.style_stepline_diamond, title='Total2', linewidth = 2,display = display.pane) plot(volData.higherVol, color=volData.higherCol, style=plot.style_columns, title='Higher Volume', display = display.all - display.status_line) plot(volData.lowerVol , color=volData.lowerCol , style=plot.style_columns, title='Lower Volume',display = display.all - display.status_line) S(D,F)=>str.tostring(D,F) volStr = S(math.sign(ta.change(ohlcv.C)) * ohlcv.V, FV) buyVolStr = S(volData.buyVol , FV ) sellVolStr = S(volData.sellVol , FV ) // ✅ MODIFICACIÓN: Porcentaje sin decimales buyPercentStr = str.tostring(math.round(volData.pcBuy)) + " %" sellPercentStr = str.tostring(math.round(volData.pcSell)) + " %" totalbuyPercentC_ = volData.buyVol / (volData.buyVol + volData.sellVol) * 100 sup = not na(ohlcv.V) if sup TC = text.align_center CW = color.white var table tb = table.new(P_, 6, 6, bgcolor = na, frame_width = 2, frame_color = chart.fg_color, border_width = 1, border_color = CW) tb.cell(0, 0, text = 'Volume Candles', text_color = #FFBF00, bgcolor = #0E2841, text_halign = TC, text_valign = TC, text_size = sT) tb.merge_cells(0, 0, 5, 0) tb.cell(0, 1, text = 'Current Volume', text_color = CW, bgcolor = #0B3040, text_halign = TC, text_valign = TC, text_size = sT) tb.merge_cells(0, 1, 1, 1) tb.cell(0, 2, text = 'Buy', text_color = #000000, bgcolor = #92D050, text_halign = TC, text_valign = TC, text_size = sT) tb.cell(1, 2, text = 'Sell', text_color = #000000, bgcolor = #FF0000, text_halign = TC, text_valign = TC, text_size = sT) tb.cell(0, 3, text = buyVolStr, text_color = CW, bgcolor = #074F69, text_halign = TC, text_valign = TC, text_size = sT) tb.cell(1, 3, text = sellVolStr, text_color = CW, bgcolor = #074F69, text_halign = TC, text_valign = TC, text_size = sT) tb.cell(0, 5, text = 'Net: ' + volStr, text_color = CW, bgcolor = #074F69, text_halign = TC, text_valign = TC, text_size = sT) tb.merge_cells(0, 5, 1, 5) tb.cell(0, 4, text = buyPercentStr, text_color = CW, bgcolor = #074F69, text_halign = TC, text_valign = TC, text_size = sT) tb.cell(1, 4, text = sellPercentStr, text_color = CW, bgcolor = #074F69, text_halign = TC, text_valign = TC, text_size = sT) cellCount = 20 filledCells = 0 for r = 5 to 1 by 1 for c = 2 to 5 by 1 if filledCells < cellCount * (totalbuyPercentC_ / 100) tb.cell(c, r, text = '', bgcolor = C_Up) else tb.cell(c, r, text = '', bgcolor = C_Down) filledCells := filledCells + 1 filledCells if Label sp = ' ' l = label.new(bar_index, ohlcv.V, text=str.format('Net: {0}\nBuy: {1} ({2})\nSell: {3} ({4})\n{5}/\\\n {5}l\n {5}l', volStr, buyVolStr, buyPercentStr, sellVolStr, sellPercentStr, sp), style=label.style_none, textcolor=volData.higherCol, size=sL, textalign=text.align_left) if not History (l ).delete() //------------------------------------------ // Draw volume levels on the candlesticks | //------------------------------------------ float base = na,float value = na bool uc = usecandle and sup if volData.isBuyGreater base := math.min(ohlcv.O, ohlcv.C) value := base + math.abs(ohlcv.O - ohlcv.C) * (volData.pcBuy / 100) else base := math.max(ohlcv.O, ohlcv.C) value := base - math.abs(ohlcv.O - ohlcv.C) * (volData.pcSell / 100) barcolor(sup ? color.new(na, na) : ohlcv.C < ohlcv.O ? color.red : color.green,display = usecandle? display.all:display.none) UseC = uc ? volData.higherCol:color.new(na, na) plotcandle(uc?base:na, uc?base:na, uc?value:na, uc?value:na, title='Body', color=UseC, bordercolor=na, wickcolor=UseC, display = usecandle ? display.all - display.status_line : display.none, force_overlay=true,editable=false) plotcandle(uc?ohlcv.O:na, uc?ohlcv.H:na, uc?ohlcv.L:na, uc?ohlcv.C:na, title='Fill', color=color.new(UseC,80), bordercolor=UseC, wickcolor=UseC, display = usecandle ? display.all - display.status_line : display.none, force_overlay=true,editable=false) //------------------------------------------------------------ // Plot the EMA and filter out the noise with volume control. | //------------------------------------------------------------ float emaFast = ta.ema(ohlcv.C, emaFastLength) float emaSlow = ta.ema(ohlcv.C, emaSlowLength) bool signal = emaFast > emaSlow color c_signal = signal ? C_Up : C_Down float volumeMA = ta.sma(ohlcv.V, volumeConfirmationLength) bool crossover = ta.crossover(emaFast, emaSlow) bool crossunder = ta.crossunder(emaFast, emaSlow) isVolumeConfirmed(source, length, ma) => math.sum(source > ma ? source : 0, length) >= math.sum(source < ma ? source : 0, length) bool ISV = isVolumeConfirmed(ohlcv.V, volumeConfirmationLength, volumeMA) bool crossoverConfirmed = crossover and (not useVolumeConfirmation or ISV) bool crossunderConfirmed = crossunder and (not useVolumeConfirmation or ISV) PF = MAV ? emaFast : na PS = MAV ? emaSlow : na p1 = plot(PF, color = c_signal, editable = false, force_overlay = true, display = display.pane) plot(PF, color = color.new(c_signal, 80), linewidth = 10, editable = false, force_overlay = true, display = display.pane) plot(PF, color = color.new(c_signal, 90), linewidth = 20, editable = false, force_overlay = true, display = display.pane) plot(PF, color = color.new(c_signal, 95), linewidth = 30, editable = false, force_overlay = true, display = display.pane) plot(PF, color = color.new(c_signal, 98), linewidth = 45, editable = false, force_overlay = true, display = display.pane) p2 = plot(PS, color = c_signal, editable = false, force_overlay = true, display = display.pane) plot(PS, color = color.new(c_signal, 80), linewidth = 10, editable = false, force_overlay = true, display = display.pane) plot(PS, color = color.new(c_signal, 90), linewidth = 20, editable = false, force_overlay = true, display = display.pane) plot(PS, color = color.new(c_signal, 95), linewidth = 30, editable = false, force_overlay = true, display = display.pane) plot(PS, color = color.new(c_signal, 98), linewidth = 45, editable = false, force_overlay = true, display = display.pane) fill(p1, p2, top_value=crossover ? emaFast : emaSlow, bottom_value =crossover ? emaSlow : emaFast, top_color =color.new(c_signal, 80), bottom_color =color.new(c_signal, 95) ) // ✅ Usar colores configurables para señales plotshape(crossoverConfirmed and MAV, style=shape.triangleup , location=location.belowbar, color=buySignalColor , size=size.small, force_overlay=true,display =display.pane) plotshape(crossunderConfirmed and MAV, style=shape.triangledown, location=location.abovebar, color=sellSignalColor, size=size.small, force_overlay=true,display =display.pane) string msg = '---------\n'+"Buy volume ="+buyVolStr+"\nBuy Percent = "+buyPercentStr+"\nSell volume = "+sellVolStr+"\nSell Percent = "+sellPercentStr+"\nNet = "+volStr+'\n---------' if crossoverConfirmed alert("Price (" + str.tostring(close) + ") Crossed over MA\n" + msg, alert_freq) if crossunderConfirmed alert("Price (" + str.tostring(close) + ") Crossed under MA\n" + msg, alert_freq)

مؤشر Pine Script®

من ‎claudiogabrielventola‎

تم تحديثه

lib_plot_objects Library "lib_plot_objects" library wrapping basic builtin object constructors, to be able to do calculations with points/lines/boxes/triangles/polygons via libraries and on securities. inspired by Trendoscope's ( and ) with added update mechanism to not have to recreate objects on every iteration for continously drawn items, automated xloc selection for coordinates, compatibility check for Points, added Triangle and Polygon types, object reflection via tostring to valid json (logging via webhook) method assert_same_xloc(a, b, test) checks two points for compatibility, i.e. having the same xloc Namespace types: Point Parameters: a (Point) b (Point) test (Test type from robbatt/lib_unit/6) method assert_same_xloc(a, b, test) checks two lines for compatibility, i.e. having the same xloc Namespace types: Line Parameters: a (Line) b (Line) test (Test type from robbatt/lib_unit/6) method or_default(args) checks args oject for being na, if so, provide a default instead Namespace types: LineArgs Parameters: args (LineArgs) method or_default(args) checks args oject for being na, if so, provide a default instead Namespace types: LabelArgs Parameters: args (LabelArgs) method or_default(args) checks args oject for being na, if so, provide a default instead Namespace types: BoxArgs Parameters: args (BoxArgs) method or_default(args) checks args oject for being na, if so, provide a default instead Namespace types: BoxTextArgs Parameters: args (BoxTextArgs) method x(point, xloc) automatically returns the correct x coordinate, based on the point's set xloc Namespace types: Point Parameters: point (Point) xloc (string) method tostring(this, date_format) converts object to json representation Namespace types: Point Parameters: this (Point) date_format (string) method tostring(this, date_format) converts object to json representation Namespace types: Point Parameters: this (Point ) date_format (string) method tostring(this) converts object to json representation Namespace types: LineArgs Parameters: this (LineArgs) method tostring(this, date_format) converts object to json representation Namespace types: Line Parameters: this (Line) date_format (string) method tostring(this) Namespace types: LabelArgs Parameters: this (LabelArgs) method tostring(this, date_format) Namespace types: Label Parameters: this (Label) date_format (string) method tostring(this, date_format) Namespace types: LineFill Parameters: this (LineFill) date_format (string) method tostring(this) Namespace types: BoxArgs Parameters: this (BoxArgs) method tostring(this) Namespace types: BoxTextArgs Parameters: this (BoxTextArgs) method tostring(this, date_format) Namespace types: Box Parameters: this (Box) date_format (string) method tostring(this, date_format) Namespace types: Triangle Parameters: this (Triangle) date_format (string) method tostring(this, date_format) Namespace types: TriangleFill Parameters: this (TriangleFill) date_format (string) method tostring(this, date_format) Namespace types: Polygon Parameters: this (Polygon) date_format (string) method tostring(this, date_format) Namespace types: PolygonFill Parameters: this (PolygonFill) date_format (string) method tostring(this, date_format) Namespace types: Line Parameters: this (Line ) date_format (string) method tostring(this, date_format) Namespace types: Box Parameters: this (Box ) date_format (string) method tostring(this, date_format) Namespace types: Triangle Parameters: this (Triangle ) date_format (string) method tostring(this, date_format) Namespace types: Polygon Parameters: this (Polygon ) date_format (string) method tostring(this, date_format) Namespace types: PolygonFill Parameters: this (PolygonFill ) date_format (string) method create_center(points) Namespace types: Point Parameters: points (Point ) method create_center(this, other) Namespace types: Point Parameters: this (Point) other (Point) method create_center(this) Namespace types: Line Parameters: this (Line) method create_line(this, other, args) Namespace types: Point Parameters: this (Point) other (Point) args (LineArgs) method create_triangle(this, b, c, args) Namespace types: Point Parameters: this (Point) b (Point) c (Point) args (LineArgs) method create_triangle(this, c) Namespace types: Line Parameters: this (Line) c (Point) method create_box(this, other, txt, args, text_args) Namespace types: Point Parameters: this (Point) other (Point) txt (string) args (BoxArgs) text_args (BoxTextArgs) method create_box(this, txt, args, text_args) Namespace types: Line Parameters: this (Line) txt (string) args (BoxArgs) text_args (BoxTextArgs) method create_polygon(points, args) Namespace types: Point Parameters: points (Point ) args (LineArgs) method create_polygon(start, others, args) Namespace types: Point Parameters: start (Point) others (Point ) args (LineArgs) method create_fill(this, other, fill_color) Namespace types: Line Parameters: this (Line) other (Line) fill_color (color) method create_fill(this, fill_color) Namespace types: Triangle Parameters: this (Triangle) fill_color (color) method create_fill(this, fill_color) Namespace types: Polygon Parameters: this (Polygon) fill_color (color) method create_label(this, txt, args, tooltip) Namespace types: Point Parameters: this (Point) txt (string) args (LabelArgs) tooltip (string) method create_label(this, txt, args, tooltip) Namespace types: Line Parameters: this (Line) txt (string) args (LabelArgs) tooltip (string) method create_label(this, txt, args, tooltip) Namespace types: Box Parameters: this (Box) txt (string) args (LabelArgs) tooltip (string) method create_label(this, txt, args, tooltip) Namespace types: Triangle Parameters: this (Triangle) txt (string) args (LabelArgs) tooltip (string) method create_label(this, txt, args, tooltip) Namespace types: Polygon Parameters: this (Polygon) txt (string) args (LabelArgs) tooltip (string) method update(this, bar_time, bar_idx, price) Namespace types: Point Parameters: this (Point) bar_time (int) bar_idx (int) price (float) method update(this, update) Namespace types: Point Parameters: this (Point) update (Point) method update(this, point) Namespace types: Label Parameters: this (Label) point (Point) method update(this, start, end) Namespace types: Line Parameters: this (Line) start (Point) end (Point) method update(this, left_top, right_bottom) Namespace types: Box Parameters: this (Box) left_top (Point) right_bottom (Point) method update(this, a, b, c) Namespace types: Triangle Parameters: this (Triangle) a (Point) b (Point) c (Point) method update(this, points) Namespace types: Polygon Parameters: this (Polygon) points (Point ) method delete(this) Namespace types: Line Parameters: this (Line) method delete(this) Namespace types: Label Parameters: this (Label) method delete(this) Namespace types: LineFill Parameters: this (LineFill) method delete(this) Namespace types: Box Parameters: this (Box) method delete(this) Namespace types: TriangleFill Parameters: this (TriangleFill) method delete(this) Namespace types: Triangle Parameters: this (Triangle) method delete(this) Namespace types: Polygon Parameters: this (Polygon) method delete(this) Namespace types: PolygonFill Parameters: this (PolygonFill) method delete(this) Namespace types: Line Parameters: this (Line ) method delete(this) Namespace types: Label Parameters: this (Label ) method delete(this) Namespace types: LineFill Parameters: this (LineFill ) method delete(this) Namespace types: Box Parameters: this (Box ) method delete(this) Namespace types: TriangleFill Parameters: this (TriangleFill ) method delete(this) Namespace types: Polygon Parameters: this (Polygon ) method delete(this) Namespace types: Triangle Parameters: this (Triangle ) method delete(this) Namespace types: PolygonFill Parameters: this (PolygonFill ) method draw(this) Namespace types: Label Parameters: this (Label) method draw(this) Namespace types: Line Parameters: this (Line) method draw(this) Namespace types: Box Parameters: this (Box) method draw(this) Namespace types: Triangle Parameters: this (Triangle) method draw(this) Namespace types: Polygon Parameters: this (Polygon) method draw(this) Namespace types: LineFill Parameters: this (LineFill) method draw(this) Namespace types: TriangleFill Parameters: this (TriangleFill) method draw(this) Namespace types: PolygonFill Parameters: this (PolygonFill) Point Fields: bar_time (series int) : time based x coordinate bar_idx (series int) : bar index based x coordinate price (series float) : price based y coordinate xloc (series string) : To select if x coordinate is represented by bar_idx or bar_time. Possible values: xloc.bar_index and xloc.bar_time. Default is xloc.bar_index. LabelArgs Fields: text_color (series color) : Text color. bg_color (series color) : Color of the label border and arrow. text_font_family (series string) : The font family of the text. Optional. The default value is font.family_default. Possible values: font.family_default, font.family_monospace. yloc (series string) : Possible values are yloc.price, yloc.abovebar, yloc.belowbar. If yloc=yloc.price, y argument specifies the price of the label position. If yloc=yloc.abovebar, label is located above bar. If yloc=yloc.belowbar, label is located below bar. Default is yloc.price. style (series string) : Label style. Possible values: label.style_none, label.style_xcross, label.style_cross, label.style_triangleup, label.style_triangledown, label.style_flag, label.style_circle, label.style_arrowup, label.style_arrowdown, label.style_label_up, label.style_label_down, label.style_label_left, label.style_label_right, label.style_label_lower_left, label.style_label_lower_right, label.style_label_upper_left, label.style_label_upper_right, label.style_label_center, label.style_square, label.style_diamond, label.style_text_outline. Default is label.style_label_down. size (series string) : Label size. Possible values: size.auto, size.tiny, size.small, size.normal, size.large, size.huge. Default value is size.normal. text_align (series string) : Label text alignment. Possible values: text.align_left, text.align_center, text.align_right. Default value is text.align_center. Label Fields: point (Point) : The Label coordinates txt (series string) : Label text. Default is empty string. args (LabelArgs) : Wrapper for reusable arguments for label.new() tooltip (series string) : Hover to see tooltip label. plot (series label) : The label object to be added and plotted via draw() LineArgs Fields: line_color (series color) : Line color. style (series string) : Line style. Possible values: line.style_solid, line.style_dotted, line.style_dashed, line.style_arrow_left, line.style_arrow_right, line.style_arrow_both. width (series int) : Line width in pixels. extend (series string) : f extend=extend.none, draws segment starting at point (x1, y1) and ending at point (x2, y2). If extend is equal to extend.right or extend.left, draws a ray starting at point (x1, y1) or (x2, y2), respectively. If extend=extend.both, draws a straight line that goes through these points. Default value is extend.none. Line Fields: start (Point) : starting point of the line end (Point) args (LineArgs) : Wrapper for reusable arguments for line.new() plot (series line) : The line object to be added and plotted via draw() LineFill Fields: a (Line) : The first Line object b (Line) : The second Line object fill_color (series color) : The color used to fill the space between the lines. plot (series linefill) : The linefill object to be added and plotted via draw() BoxArgs Fields: border_color (series color) : Color of the four borders. Optional. The default is color.blue. border_width (series int) : Width of the four borders, in pixels. Optional. The default is 1 pixel. border_style (series string) : Style of the four borders. Possible values: line.style_solid, line.style_dotted, line.style_dashed. Optional. The default value is line.style_solid. bg_color (series color) : Background color of the box. Optional. The default is color.blue. extend (series string) : When extend.none is used, the horizontal borders start at the left border and end at the right border. With extend.left or extend.right, the horizontal borders are extended indefinitely to the left or right of the box, respectively. With extend.both, the horizontal borders are extended on both sides. Optional. The default value is extend.none. BoxTextArgs Fields: text_color (series color) : The color of the text. Optional. The default is color.black. text_size (series string) : The size of the text. An optional parameter, the default value is size.auto. Possible values: size.auto, size.tiny, size.small, size.normal, size.large, size.huge. text_halign (series string) : The horizontal alignment of the box's text. Optional. The default value is text.align_center. Possible values: text.align_left, text.align_center, text.align_right. text_valign (series string) : The vertical alignment of the box's text. Optional. The default value is text.align_center. Possible values: text.align_top, text.align_center, text.align_bottom. text_wrap (series string) : Defines whether the text is presented in a single line, extending past the width of the box if necessary, or wrapped so every line is no wider than the box itself (and clipped by the bottom border of the box if the height of the resulting wrapped text is higher than the height of the box). Optional. The default value is text.wrap_none. Possible values: text.wrap_none, text.wrap_auto. text_font_family (series string) : The font family of the text. Optional. The default value is font.family_default. Possible values: font.family_default, font.family_monospace. Box Fields: left_top (Point) : top-left corner of the box right_bottom (Point) : bottom-right corner of the box txt (series string) : The text to be displayed inside the box. Optional. The default is empty string. args (BoxArgs) : Wrapper for reusable arguments for box.new() text_args (BoxTextArgs) plot (series box) : The box object to be added and plotted via draw() Triangle Fields: a (Point) : first Corner b (Point) : second Corner c (Point) : third Corner args (LineArgs) : Wrapper for reusable arguments for line.new() plot_ab (series line) : The line object to be added and plotted via draw() plot_ac (series line) : The line object to be added and plotted via draw() plot_bc (series line) : The line object to be added and plotted via draw() TriangleFill Fields: triangle (Triangle) : The Triangle object fill_color (series color) : The color used to fill the space between the lines. plot (series linefill) : The linefill object to be added and plotted via draw() Polygon Fields: points (Point ) : array of points that make up the Polygon center (Point) : Center point of the Polygon, can be used for a label and will be center for PolygonFill args (LineArgs) : Wrapper for reusable arguments for line.new() plot (line ) : An array of Lines that form Polygon Border PolygonFill Fields: poly (Polygon) : the Polygon fill_color (series color) : The color used to fill the space between the lines. plot_segments (line ) : An array of helper lines to create linefills plot_fills (linefill ) : An array of linefills that cover the Polygon surface

مكتبة Pine Script®

من ‎robbatt‎

تم تحديثه

لbsm15 // This work is licensed under a Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0) creativecommons.org // © LuxAlgo //@version=5 indicator("لbsm15", overlay = true, max_lines_count = 500, max_boxes_count = 500, max_bars_back = 3000) //------------------------------------------------------------------------------ //Settings //-----------------------------------------------------------------------------{ liqGrp = 'Liquidity Detection' liqLen = input.int (7, title = 'Detection Length', minval = 3, maxval = 13, inline = 'LIQ', group = liqGrp) liqMar = 10 / input.float (6.9, 'Margin', minval = 4, maxval = 9, step = 0.1, inline = 'LIQ', group = liqGrp) liqBuy = input.bool (true, 'Buyside Liquidity Zones, Margin', inline = 'Buyside', group = liqGrp) marBuy = input.float(2.3, '', minval = 1.5, maxval = 10, step = .1, inline = 'Buyside', group = liqGrp) cLIQ_B = input.color (color.new(#4caf50, 0), '', inline = 'Buyside', group = liqGrp) liqSel = input.bool (true, 'Sellside Liquidity Zones, Margin', inline = 'Sellside', group = liqGrp) marSel = input.float(2.3, '', minval = 1.5, maxval = 10, step = .1, inline = 'Sellside', group = liqGrp) cLIQ_S = input.color (color.new(#f23645, 0), '', inline = 'Sellside', group = liqGrp) lqVoid = input.bool (false, 'Liquidity Voids, Bullish', inline = 'void', group = liqGrp) cLQV_B = input.color (color.new(#4caf50, 0), '', inline = 'void', group = liqGrp) cLQV_S = input.color (color.new(#f23645, 0), 'Bearish', inline = 'void', group = liqGrp) lqText = input.bool (false, 'Label', inline = 'void', group = liqGrp) mode = input.string('Present', title = 'Mode', options = , inline = 'MOD', group = liqGrp) visLiq = input.int (3, ' # Visible Levels', minval = 1, maxval = 50, inline = 'MOD', group = liqGrp) //-----------------------------------------------------------------------------} //General Calculations //-----------------------------------------------------------------------------{ maxSize = 50 atr = ta.atr(10) atr200 = ta.atr(200) per = mode == 'Present' ? last_bar_index - bar_index <= 500 : true //-----------------------------------------------------------------------------} //User Defined Types //-----------------------------------------------------------------------------{ // @type used to store pivot high/low data // // @field d (array) The array where the trend direction is to be maintained // @field x (array) The array where the bar index value of pivot high/low is to be maintained // @field y (array) The array where the price value of pivot high/low is to be maintained type ZZ int d int x float y // @type bar properties with their values // // @field o (float) open price of the bar // @field h (float) high price of the bar // @field l (float) low price of the bar // @field c (float) close price of the bar // @field i (int) index of the bar type bar float o = open float h = high float l = low float c = close int i = bar_index // @type liquidity object definition // // @field bx (box) box maitaing the liquity level margin extreme levels // @field bxz (box) box maitaing the liquity zone margin extreme levels // @field bxt (box) box maitaing the labels // @field brZ (bool) mainains broken zone status // @field brL (bool) mainains broken level status // @field ln (line) maitaing the liquity level line // @field lne (line) maitaing the liquity extended level line type liq box bx box bxz box bxt bool brZ bool brL line ln line lne //-----------------------------------------------------------------------------} //Variables //-----------------------------------------------------------------------------{ var ZZ aZZ = ZZ.new( array.new (maxSize, 0), array.new (maxSize, 0), array.new (maxSize, na) ) bar b = bar.new() var liq b_liq_B = array.new (1, liq.new(box(na), box(na), box(na), false, false, line(na), line(na))) var liq b_liq_S = array.new (1, liq.new(box(na), box(na), box(na), false, false, line(na), line(na))) var b_liq_V = array.new_box() var int dir = na, var int x1 = na, var float y1 = na, var int x2 = na, var float y2 = na //-----------------------------------------------------------------------------} //Functions/methods //-----------------------------------------------------------------------------{ // @function maintains arrays // it prepends a `value` to the arrays and removes their oldest element at last position // @param aZZ (UDT, array, array>) The UDT obejct of arrays // @param _d (array) The array where the trend direction is maintained // @param _x (array) The array where the bar index value of pivot high/low is maintained // @param _y (array) The array where the price value of pivot high/low is maintained // // @returns none method in_out(ZZ aZZ, int _d, int _x, float _y) => aZZ.d.unshift(_d), aZZ.x.unshift(_x), aZZ.y.unshift(_y), aZZ.d.pop(), aZZ.x.pop(), aZZ.y.pop() // @function (build-in) sets the maximum number of bars that is available for historical reference max_bars_back(time, 1000) //-----------------------------------------------------------------------------} //Calculations //-----------------------------------------------------------------------------{ x2 := b.i - 1 ph = ta.pivothigh(liqLen, 1) pl = ta.pivotlow (liqLen, 1) if ph dir := aZZ.d.get(0) x1 := aZZ.x.get(0) y1 := aZZ.y.get(0) y2 := nz(b.h ) if dir < 1 aZZ.in_out(1, x2, y2) else if dir == 1 and ph > y1 aZZ.x.set(0, x2), aZZ.y.set(0, y2) if per count = 0 st_P = 0. st_B = 0 minP = 0. maxP = 10e6 for i = 0 to maxSize - 1 if aZZ.d.get(i) == 1 if aZZ.y.get(i) > ph + (atr / liqMar) break else if aZZ.y.get(i) > ph - (atr / liqMar) and aZZ.y.get(i) < ph + (atr / liqMar) count += 1 st_B := aZZ.x.get(i) st_P := aZZ.y.get(i) if aZZ.y.get(i) > minP minP := aZZ.y.get(i) if aZZ.y.get(i) < maxP maxP := aZZ.y.get(i) if count > 2 getB = b_liq_B.get(0) if st_B == getB.bx.get_left() getB.bx.set_top(math.avg(minP, maxP) + (atr / liqMar)) getB.bx.set_rightbottom(b.i + 10, math.avg(minP, maxP) - (atr / liqMar)) else b_liq_B.unshift( liq.new( box.new(st_B, math.avg(minP, maxP) + (atr / liqMar), b.i + 10, math.avg(minP, maxP) - (atr / liqMar), bgcolor=color(na), border_color=color(na)), box.new(na, na, na, na, bgcolor = color(na), border_color = color(na)), box.new(st_B, st_P, b.i + 10, st_P, text = 'Buyside liquidity', text_size = size.tiny, text_halign = text.align_left, text_valign = text.align_bottom, text_color = color.new(cLIQ_B, 25), bgcolor = color(na), border_color = color(na)), false, false, line.new(st_B , st_P, b.i - 1, st_P, color = color.new(cLIQ_B, 0)), line.new(b.i - 1, st_P, na , st_P, color = color.new(cLIQ_B, 0), style = line.style_dotted)) ) alert('buyside liquidity level detected/updated for ' + syminfo.ticker) if b_liq_B.size() > visLiq getLast = b_liq_B.pop() getLast.bx.delete() getLast.bxz.delete() getLast.bxt.delete() getLast.ln.delete() getLast.lne.delete() if pl dir := aZZ.d.get (0) x1 := aZZ.x.get (0) y1 := aZZ.y.get (0) y2 := nz(b.l ) if dir > -1 aZZ.in_out(-1, x2, y2) else if dir == -1 and pl < y1 aZZ.x.set(0, x2), aZZ.y.set(0, y2) if per count = 0 st_P = 0. st_B = 0 minP = 0. maxP = 10e6 for i = 0 to maxSize - 1 if aZZ.d.get(i) == -1 if aZZ.y.get(i) < pl - (atr / liqMar) break else if aZZ.y.get(i) > pl - (atr / liqMar) and aZZ.y.get(i) < pl + (atr / liqMar) count += 1 st_B := aZZ.x.get(i) st_P := aZZ.y.get(i) if aZZ.y.get(i) > minP minP := aZZ.y.get(i) if aZZ.y.get(i) < maxP maxP := aZZ.y.get(i) if count > 2 getB = b_liq_S.get(0) if st_B == getB.bx.get_left() getB.bx.set_top(math.avg(minP, maxP) + (atr / liqMar)) getB.bx.set_rightbottom(b.i + 10, math.avg(minP, maxP) - (atr / liqMar)) else b_liq_S.unshift( liq.new( box.new(st_B, math.avg(minP, maxP) + (atr / liqMar), b.i + 10, math.avg(minP, maxP) - (atr / liqMar), bgcolor=color(na), border_color=color(na)), box.new(na, na, na, na, bgcolor=color(na), border_color=color(na)), box.new(st_B, st_P, b.i + 10, st_P, text = 'Sellside liquidity', text_size = size.tiny, text_halign = text.align_left, text_valign = text.align_top, text_color = color.new(cLIQ_S, 25), bgcolor=color(na), border_color=color(na)), false, false, line.new(st_B , st_P, b.i - 1, st_P, color = color.new(cLIQ_S, 0)), line.new(b.i - 1, st_P, na , st_P, color = color.new(cLIQ_S, 0), style = line.style_dotted)) ) alert('sellside liquidity level detected/updated for ' + syminfo.ticker) if b_liq_S.size() > visLiq getLast = b_liq_S.pop() getLast.bx.delete() getLast.bxz.delete() getLast.bxt.delete() getLast.ln.delete() getLast.lne.delete() for i = 0 to b_liq_B.size() - 1 x = b_liq_B.get(i) if not x.brL x.lne.set_x2(b.i) if b.h > x.bx.get_top() x.brL := true x.brZ := true alert('buyside liquidity level breached for ' + syminfo.ticker) x.bxz.set_lefttop(b.i - 1, math.min(x.ln.get_y1() + marBuy * (atr), b.h)) x.bxz.set_rightbottom(b.i + 1, x.ln.get_y1()) x.bxz.set_bgcolor(color.new(cLIQ_B, liqBuy ? 73 : 100)) else if x.brZ if b.l > x.ln.get_y1() - marBuy * (atr) and b.h < x.ln.get_y1() + marBuy * (atr) x.bxz.set_right(b.i + 1) x.bxz.set_top(math.max(b.h, x.bxz.get_top())) if liqBuy x.lne.set_x2(b.i + 1) else x.brZ := false for i = 0 to b_liq_S.size() - 1 x = b_liq_S.get(i) if not x.brL x.lne.set_x2(b.i) if b.l < x.bx.get_bottom() x.brL := true x.brZ := true alert('sellside liquidity level breached for ' + syminfo.ticker) x.bxz.set_lefttop(b.i - 1, x.ln.get_y1()) x.bxz.set_rightbottom(b.i + 1, math.max(x.ln.get_y1() - marSel * (atr), b.l)) x.bxz.set_bgcolor(color.new(cLIQ_S, liqSel ? 73 : 100)) else if x.brZ if b.l > x.ln.get_y1() - marSel * (atr) and b.h < x.ln.get_y1() + marSel * (atr) x.bxz.set_rightbottom(b.i + 1, math.min(b.l, x.bxz.get_bottom())) if liqSel x.lne.set_x2(b.i + 1) else x.brZ := false if lqVoid and per bull = b.l - b.h > atr200 and b.l > b.h and b.c > b.h bear = b.l - b.h > atr200 and b.h < b.l and b.c < b.l if bull l = 13 if bull st = math.abs(b.l - b.l ) / l for i = 0 to l - 1 array.push(b_liq_V, box.new(b.i - 2, b.l + i * st, b.i, b.l + (i + 1) * st, border_color = na, bgcolor = color.new(cLQV_B, 90) )) else st = math.abs(b.l - b.h ) / l for i = 0 to l - 1 if lqText and i == 0 array.push(b_liq_V, box.new(b.i - 2, b.h + i * st, b.i, b.h + (i + 1) * st, text = 'Liquidity Void ', text_size = size.tiny, text_halign = text.align_right, text_valign = text.align_bottom, text_color = na, border_color = na, bgcolor = color.new(cLQV_B, 90) )) else array.push(b_liq_V, box.new(b.i - 2, b.h + i * st, b.i, b.h + (i + 1) * st, border_color = na, bgcolor = color.new(cLQV_B, 90) )) if bear l = 13 if bear st = math.abs(b.h - b.h) / l for i = 0 to l - 1 array.push(b_liq_V, box.new(b.i - 2, b.h + i * st, b.i, b.h + (i + 1) * st, border_color = na, bgcolor = color.new(cLQV_S, 90) )) else st = math.abs(b.l - b.h) / l for i = 0 to l - 1 if lqText and i == l - 1 array.push(b_liq_V, box.new(b.i - 2, b.h + i * st, b.i, b.h + (i + 1) * st, text = 'Liquidity Void ', text_size = size.tiny, text_halign = text.align_right, text_valign = text.align_top, text_color = na, border_color = na, bgcolor = color.new(cLQV_S, 90) )) else array.push(b_liq_V, box.new(b.i - 2, b.h + i * st, b.i, b.h + (i + 1) * st, border_color = na, bgcolor = color.new(cLQV_S, 90) )) if b_liq_V.size() > 0 qt = b_liq_V.size() for bn = qt - 1 to 0 if bn < b_liq_V.size() cb = b_liq_V.get(bn) ba = math.avg(cb.get_bottom(), cb.get_top()) if math.sign(b.c - ba) != math.sign(b.c - ba) or math.sign(b.c - ba) != math.sign(b.l - ba) or math.sign(b.c - ba) != math.sign(b.h - ba) b_liq_V.remove(bn) else cb.set_right(b.i + 1) if b.i - cb.get_left() > 21 cb.set_text_color(color.new(color.gray, 25)) //-----------------------------------------------------------------------------}

مؤشر Pine Script®

من ‎bsamasaeid11‎

TTB_TableBuilder Library "TTB_TableBuilder" A helper library to make it simpler to create tables in pinescript DefaultDarkStyle() method Size(this, width, height) Change the size (width, height) of the table cell. Namespace types: Cell Parameters: this (Cell) width (int) height (int) Returns: Cell method Size(this, width, height) Change the width of all cells in that row Namespace types: Row Parameters: this (Row) width (int) height (int) Returns: Row method Width(this, width) Change the width of the table cell. Namespace types: Cell Parameters: this (Cell) width (int) Returns: Cell method Width(this, width) Change the width of all cells in that row Namespace types: Row Parameters: this (Row) width (int) Returns: Row method Height(this, height) Change the height of the table cell. Namespace types: Cell Parameters: this (Cell) height (int) Returns: Cell method Height(this, height) Change the height of all cells in that row Namespace types: Row Parameters: this (Row) height (int) Returns: Row method Text(this, text_) Change the text of the table cell. Namespace types: Cell Parameters: this (Cell) text_ (string) Returns: Cell method Text(this, c0, c1, c3, c4, c5, c6, c7, c8, c9, c10, c11, c12, c13, c14, c15, c16, c17, c18, c19, c20, c21, c22, c23, c24, c25, c26, c27, c28, c29) Set text Namespace types: Row Parameters: this (Row) c0 (string) : ... c29 c1 (string) c3 (string) c4 (string) c5 (string) c6 (string) c7 (string) c8 (string) c9 (string) c10 (string) c11 (string) c12 (string) c13 (string) c14 (string) c15 (string) c16 (string) c17 (string) c18 (string) c19 (string) c20 (string) c21 (string) c22 (string) c23 (string) c24 (string) c25 (string) c26 (string) c27 (string) c28 (string) c29 (string) Returns: Row method TextSize(this, text_size) Change the text size of the table cell. Namespace types: Cell Parameters: this (Cell) text_size (string) Returns: Cell method TextSize(this, text_size) Set text size Namespace types: Row Parameters: this (Row) text_size (string) Returns: Row method TextColor(this, c) Change the text color of the table cell. Namespace types: Cell Parameters: this (Cell) c (color) Returns: Cell method TextColor(this, text_color) Change the text color of all cells in that row Namespace types: Row Parameters: this (Row) text_color (color) Returns: Row method Bg(this, c) Change the background color of the table cell. Namespace types: Cell Parameters: this (Cell) c (color) Returns: Cell method Bg(this, bg) Change the background color of all cells in that row Namespace types: Row Parameters: this (Row) bg (color) Returns: Row method Font(this, text_font_family) Change the font family of the table cell. Namespace types: Cell Parameters: this (Cell) text_font_family (string) Returns: Cell method Font(this, text_font_family) Change the width of all cells in that row Namespace types: Row Parameters: this (Row) text_font_family (string) Returns: Row method AlignH(this, halign) Change the horizontal align of the table cell. Namespace types: Cell Parameters: this (Cell) halign (string) Returns: Cell method AlignH(this, halign) Change the horizontal align of all cells in that row Namespace types: Row Parameters: this (Row) halign (string) Returns: Cell method AlignV(this, valign) Change the vertical align of the table cell. Namespace types: Cell Parameters: this (Cell) valign (string) Returns: Cell method AlignV(this, valign) Change the vertical of all cells in that row Namespace types: Row Parameters: this (Row) valign (string) Returns: Cell method C(this, column) Get the cell corresponding to the column number Namespace types: Row Parameters: this (Row) column (int) Returns: Cell method C(this, column, row) Namespace types: Table Parameters: this (Table) column (int) row (int) method R(this, row) Namespace types: Table Parameters: this (Table) row (int) method Style(this, style) Namespace types: Table Parameters: this (Table) style (TableStyle) method Position(this, position) Namespace types: Table Parameters: this (Table) position (string) new(position, columns, rows, style) Parameters: position (string) columns (int) rows (int) style (TableStyle) CellStyle Fields: text_color (series__color) text_halign (series__string) text_valign (series__string) text_size (series__integer) bgcolor (series__color) tooltip (series__string) text_font_family (series__string) TableStyle Fields: bgcolor (series__color) frame_color (series__color) frame_width (series__integer) border_color (series__color) border_width (series__integer) default_cell_style (|CellStyle|#OBJ) Cell Fields: ref (series__table) column (series__integer) row (series__integer) Row Fields: ref (series__table) row (series__integer) cells (array__|Cell|#OBJ) Table Fields: body (series__table) rows (array__|Row|#OBJ)

مكتبة Pine Script®

من ‎thetradingbot‎

Bar Index & Time Library to convert a bar index to a timestamp and vice versa. Utilizes runtime memory to store the 𝚝𝚒𝚖𝚎 and 𝚝𝚒𝚖𝚎_𝚌𝚕𝚘𝚜𝚎 values of every bar on the chart (and optional future bars), with the ability of storing additional custom values for every chart bar. █ PREFACE This library aims to tackle some problems that pine coders (from beginners to advanced) often come across, such as: I'm trying to draw an object with a 𝚋𝚊𝚛_𝚒𝚗𝚍𝚎𝚡 that is more than 10,000 bars into the past, but this causes my script to fail. How can I convert the 𝚋𝚊𝚛_𝚒𝚗𝚍𝚎𝚡 to a UNIX time so that I can draw visuals using xloc.bar_time ? I have a diagonal line drawing and I want to get the "y" value at a specific time, but line.get_price() only accepts a bar index value. How can I convert the timestamp into a bar index value so that I can still use this function? I want to get a previous 𝚘𝚙𝚎𝚗 value that occurred at a specific timestamp. How can I convert the timestamp into a historical offset so that I can use 𝚘𝚙𝚎𝚗 ? I want to reference a very old value for a variable. How can I access a previous value that is older than the maximum historical buffer size of 𝚟𝚊𝚛𝚒𝚊𝚋𝚕𝚎 ? This library can solve the above problems (and many more) with the addition of a few lines of code, rather than requiring the coder to refactor their script to accommodate the limitations. █ OVERVIEW The core functionality provided is conversion between xloc.bar_index and xloc.bar_time values. The main component of the library is the 𝙲𝚑𝚊𝚛𝚝𝙳𝚊𝚝𝚊 object, created via the 𝚌𝚘𝚕𝚕𝚎𝚌𝚝𝙲𝚑𝚊𝚛𝚝𝙳𝚊𝚝𝚊() function which basically stores the 𝚝𝚒𝚖𝚎 and 𝚝𝚒𝚖𝚎_𝚌𝚕𝚘𝚜𝚎 of every bar on the chart, and there are 3 more overloads to this function that allow collecting and storing additional data. Once a 𝙲𝚑𝚊𝚛𝚝𝙳𝚊𝚝𝚊 object is created, use any of the exported methods: Methods to convert a UNIX timestamp into a bar index or bar offset: 𝚝𝚒𝚖𝚎𝚜𝚝𝚊𝚖𝚙𝚃𝚘𝙱𝚊𝚛𝙸𝚗𝚍𝚎𝚡(), 𝚐𝚎𝚝𝙽𝚞𝚖𝚋𝚎𝚛𝙾𝚏𝙱𝚊𝚛𝚜𝙱𝚊𝚌𝚔() Methods to retrieve the stored data for a bar index: 𝚝𝚒𝚖𝚎𝙰𝚝𝙱𝚊𝚛𝙸𝚗𝚍𝚎𝚡(), 𝚝𝚒𝚖𝚎𝙲𝚕𝚘𝚜𝚎𝙰𝚝𝙱𝚊𝚛𝙸𝚗𝚍𝚎𝚡(), 𝚟𝚊𝚕𝚞𝚎𝙰𝚝𝙱𝚊𝚛𝙸𝚗𝚍𝚎𝚡(), 𝚐𝚎𝚝𝙰𝚕𝚕𝚅𝚊𝚛𝚒𝚊𝚋𝚕𝚎𝚜𝙰𝚝𝙱𝚊𝚛𝙸𝚗𝚍𝚎𝚡() Methods to retrieve the stored data at a number of bars back (i.e., historical offset): 𝚝𝚒𝚖𝚎(), 𝚝𝚒𝚖𝚎𝙲𝚕𝚘𝚜𝚎(), 𝚟𝚊𝚕𝚞𝚎() Methods to retrieve all the data points from the earliest bar (or latest bar) stored in memory, which can be useful for debugging purposes: 𝚐𝚎𝚝𝙴𝚊𝚛𝚕𝚒𝚎𝚜𝚝𝚂𝚝𝚘𝚛𝚎𝚍𝙳𝚊𝚝𝚊(), 𝚐𝚎𝚝𝙻𝚊𝚝𝚎𝚜𝚝𝚂𝚝𝚘𝚛𝚎𝚍𝙳𝚊𝚝𝚊() Note: the library's strong suit is referencing data from very old bars in the past, which is especially useful for scripts that perform its necessary calculations only on the last bar. █ USAGE Step 1 Import the library. Replace with the latest available version number for this library. //@version=6 indicator("Usage") import n00btraders/ChartData/ Step 2 Create a 𝙲𝚑𝚊𝚛𝚝𝙳𝚊𝚝𝚊 object to collect data on every bar. Do not declare as `var` or `varip`. chartData = ChartData.collectChartData() // call on every bar to accumulate the necessary data Step 3 Call any method(s) on the 𝙲𝚑𝚊𝚛𝚝𝙳𝚊𝚝𝚊 object. Do not modify its fields directly. if barstate.islast int firstBarTime = chartData.timeAtBarIndex(0) int lastBarTime = chartData.time(0) log.info("First `time`: " + str.format_time(firstBarTime) + ", Last `time`: " + str.format_time(lastBarTime)) █ EXAMPLES • Collect Future Times The overloaded 𝚌𝚘𝚕𝚕𝚎𝚌𝚝𝙲𝚑𝚊𝚛𝚝𝙳𝚊𝚝𝚊() functions that accept a 𝚋𝚊𝚛𝚜𝙵𝚘𝚛𝚠𝚊𝚛𝚍 argument can additionally store time values for up to 500 bars into the future. //@version=6 indicator("Example `collectChartData(barsForward)`") import n00btraders/ChartData/1 chartData = ChartData.collectChartData(barsForward = 500) var rectangle = box.new(na, na, na, na, xloc = xloc.bar_time, force_overlay = true) if barstate.islast int futureTime = chartData.timeAtBarIndex(bar_index + 100) int lastBarTime = time box.set_lefttop(rectangle, lastBarTime, open) box.set_rightbottom(rectangle, futureTime, close) box.set_text(rectangle, "Extending box 100 bars to the right. Time: " + str.format_time(futureTime)) • Collect Custom Data The overloaded 𝚌𝚘𝚕𝚕𝚎𝚌𝚝𝙲𝚑𝚊𝚛𝚝𝙳𝚊𝚝𝚊() functions that accept a 𝚟𝚊𝚛𝚒𝚊𝚋𝚕𝚎𝚜 argument can additionally store custom user-specified values for every bar on the chart. //@version=6 indicator("Example `collectChartData(variables)`") import n00btraders/ChartData/1 var map variables = map.new() variables.put("open", open) variables.put("close", close) variables.put("open-close midpoint", (open + close) / 2) variables.put("boolean", open > close ? 1 : 0) chartData = ChartData.collectChartData(variables = variables) var fgColor = chart.fg_color var table1 = table.new(position.top_right, 2, 9, color(na), fgColor, 1, fgColor, 1, true) var table2 = table.new(position.bottom_right, 2, 9, color(na), fgColor, 1, fgColor, 1, true) if barstate.isfirst table.cell(table1, 0, 0, "ChartData.value()", text_color = fgColor) table.cell(table2, 0, 0, "open ", text_color = fgColor) table.merge_cells(table1, 0, 0, 1, 0) table.merge_cells(table2, 0, 0, 1, 0) for i = 1 to 8 table.cell(table1, 0, i, text_color = fgColor, text_halign = text.align_left, text_font_family = font.family_monospace) table.cell(table2, 0, i, text_color = fgColor, text_halign = text.align_left, text_font_family = font.family_monospace) table.cell(table1, 1, i, text_color = fgColor) table.cell(table2, 1, i, text_color = fgColor) if barstate.islast for i = 1 to 8 float open1 = chartData.value("open", 5000 * i) float open2 = i < 3 ? open : -1 table.cell_set_text(table1, 0, i, "chartData.value(\"open\", " + str.tostring(5000 * i) + "): ") table.cell_set_text(table2, 0, i, "open : ") table.cell_set_text(table1, 1, i, str.tostring(open1)) table.cell_set_text(table2, 1, i, open2 >= 0 ? str.tostring(open2) : "Error") • xloc.bar_index → xloc.bar_time The 𝚝𝚒𝚖𝚎 value (or 𝚝𝚒𝚖𝚎_𝚌𝚕𝚘𝚜𝚎 value) can be retrieved for any bar index that is stored in memory by the 𝙲𝚑𝚊𝚛𝚝𝙳𝚊𝚝𝚊 object. //@version=6 indicator("Example `timeAtBarIndex()`") import n00btraders/ChartData/1 chartData = ChartData.collectChartData() if barstate.islast int start = bar_index - 15000 int end = bar_index - 100 // line.new(start, close, end, close) // !ERROR - `start` value is too far from current bar index start := chartData.timeAtBarIndex(start) end := chartData.timeAtBarIndex(end) line.new(start, close, end, close, xloc.bar_time, width = 10) • xloc.bar_time → xloc.bar_index Use 𝚝𝚒𝚖𝚎𝚜𝚝𝚊𝚖𝚙𝚃𝚘𝙱𝚊𝚛𝙸𝚗𝚍𝚎𝚡() to find the bar that a timestamp belongs to. If the timestamp falls in between the close of one bar and the open of the next bar, the 𝚜𝚗𝚊𝚙 parameter can be used to determine which bar to choose: 𝚂𝚗𝚊𝚙.𝙻𝙴𝙵𝚃 - prefer to choose the leftmost bar (typically used for closing times) 𝚂𝚗𝚊𝚙.𝚁𝙸𝙶𝙷𝚃 - prefer to choose the rightmost bar (typically used for opening times) 𝚂𝚗𝚊𝚙.𝙳𝙴𝙵𝙰𝚄𝙻𝚃 (or 𝚗𝚊) - copies the same behavior as xloc.bar_time uses for drawing objects //@version=6 indicator("Example `timestampToBarIndex()`") import n00btraders/ChartData/1 startTimeInput = input.time(timestamp("01 Aug 2025 08:30 -0500"), "Session Start Time") endTimeInput = input.time(timestamp("01 Aug 2025 15:15 -0500"), "Session End Time") chartData = ChartData.collectChartData() if barstate.islastconfirmedhistory int startBarIndex = chartData.timestampToBarIndex(startTimeInput, ChartData.Snap.RIGHT) int endBarIndex = chartData.timestampToBarIndex(endTimeInput, ChartData.Snap.LEFT) line1 = line.new(startBarIndex, 0, startBarIndex, 1, extend = extend.both, color = color.new(color.green, 60), force_overlay = true) line2 = line.new(endBarIndex, 0, endBarIndex, 1, extend = extend.both, color = color.new(color.green, 60), force_overlay = true) linefill.new(line1, line2, color.new(color.green, 90)) // using Snap.DEFAULT to show that it is equivalent to drawing lines using `xloc.bar_time` (i.e., it aligns to the same bars) startBarIndex := chartData.timestampToBarIndex(startTimeInput) endBarIndex := chartData.timestampToBarIndex(endTimeInput) line.new(startBarIndex, 0, startBarIndex, 1, extend = extend.both, color = color.yellow, width = 3) line.new(endBarIndex, 0, endBarIndex, 1, extend = extend.both, color = color.yellow, width = 3) line.new(startTimeInput, 0, startTimeInput, 1, xloc.bar_time, extend.both, color.new(color.blue, 85), width = 11) line.new(endTimeInput, 0, endTimeInput, 1, xloc.bar_time, extend.both, color.new(color.blue, 85), width = 11) • Get Price of Line at Timestamp The pine script built-in function line.get_price() requires working with bar index values. To get the price of a line in terms of a timestamp, convert the timestamp into a bar index or offset. //@version=6 indicator("Example `line.get_price()` at timestamp") import n00btraders/ChartData/1 lineStartInput = input.time(timestamp("01 Aug 2025 08:30 -0500"), "Line Start") chartData = ChartData.collectChartData() var diagonal = line.new(na, na, na, na, force_overlay = true) if time <= lineStartInput line.set_xy1(diagonal, bar_index, open) if barstate.islastconfirmedhistory line.set_xy2(diagonal, bar_index, close) if barstate.islast int timeOneWeekAgo = timenow - (7 * timeframe.in_seconds("1D") * 1000) // Note: could also use `timetampToBarIndex(timeOneWeekAgo, Snap.DEFAULT)` and pass the value directly to `line.get_price()` int barsOneWeekAgo = chartData.getNumberOfBarsBack(timeOneWeekAgo) float price = line.get_price(diagonal, bar_index - barsOneWeekAgo) string formatString = "Time 1 week ago: {0,number,#}\n - Equivalent to {1} bars ago\n\n𝚕𝚒𝚗𝚎.𝚐𝚎𝚝_𝚙𝚛𝚒𝚌𝚎(): {2,number,#.##}" string labelText = str.format(formatString, timeOneWeekAgo, barsOneWeekAgo, price) label.new(timeOneWeekAgo, price, labelText, xloc.bar_time, style = label.style_label_lower_right, size = 16, textalign = text.align_left, force_overlay = true) █ RUNTIME ERROR MESSAGES This library's functions will generate a custom runtime error message in the following cases: 𝚌𝚘𝚕𝚕𝚎𝚌𝚝𝙲𝚑𝚊𝚛𝚝𝙳𝚊𝚝𝚊() is not called consecutively, or is called more than once on a single bar Invalid 𝚋𝚊𝚛𝚜𝙵𝚘𝚛𝚠𝚊𝚛𝚍 argument in the 𝚌𝚘𝚕𝚕𝚎𝚌𝚝𝙲𝚑𝚊𝚛𝚝𝙳𝚊𝚝𝚊() function Invalid 𝚟𝚊𝚛𝚒𝚊𝚋𝚕𝚎𝚜 argument in the 𝚌𝚘𝚕𝚕𝚎𝚌𝚝𝙲𝚑𝚊𝚛𝚝𝙳𝚊𝚝𝚊() function Invalid 𝚕𝚎𝚗𝚐𝚝𝚑 argument in any of the functions that accept a number of bars back Note: there is no runtime error generated for an invalid 𝚝𝚒𝚖𝚎𝚜𝚝𝚊𝚖𝚙 or 𝚋𝚊𝚛𝙸𝚗𝚍𝚎𝚡 argument in any of the functions. Instead, the functions will assign 𝚗𝚊 to the returned values. Any other runtime errors are due to incorrect usage of the library. █ NOTES • Function Descriptions The library source code uses Markdown for the exported functions. Hover over a function/method call in the Pine Editor to display formatted, detailed information about the function/method. //@version=6 indicator("Demo Function Tooltip") import n00btraders/ChartData/1 chartData = ChartData.collectChartData() int barIndex = chartData.timestampToBarIndex(timenow) log.info(str.tostring(barIndex)) • Historical vs. Realtime Behavior Under the hood, the data collector for this library is declared as `var`. Because of this, the 𝙲𝚑𝚊𝚛𝚝𝙳𝚊𝚝𝚊 object will always reflect the latest available data on realtime updates. Any data that is recorded for historical bars will remain unchanged throughout the execution of a script. //@version=6 indicator("Demo Realtime Behavior") import n00btraders/ChartData/1 var map variables = map.new() variables.put("open", open) variables.put("close", close) chartData = ChartData.collectChartData(variables) if barstate.isrealtime varip float initialOpen = open varip float initialClose = close varip int updateCount = 0 updateCount += 1 float latestOpen = open float latestClose = close float recordedOpen = chartData.valueAtBarIndex("open", bar_index) float recordedClose = chartData.valueAtBarIndex("close", bar_index) string formatString = "# of updates: {0}\n\n𝚘𝚙𝚎𝚗 at update #1: {1,number,#.##}\n𝚌𝚕𝚘𝚜𝚎 at update #1: {2,number,#.##}\n\n" + "𝚘𝚙𝚎𝚗 at update #{0}: {3,number,#.##}\n𝚌𝚕𝚘𝚜𝚎 at update #{0}: {4,number,#.##}\n\n" + "𝚘𝚙𝚎𝚗 stored in memory: {5,number,#.##}\n𝚌𝚕𝚘𝚜𝚎 stored in memory: {6,number,#.##}" string labelText = str.format(formatString, updateCount, initialOpen, initialClose, latestOpen, latestClose, recordedOpen, recordedClose) label.new(bar_index, close, labelText, style = label.style_label_left, force_overlay = true) • Collecting Chart Data for Other Contexts If your use case requires collecting chart data from another context, avoid directly retrieving the 𝙲𝚑𝚊𝚛𝚝𝙳𝚊𝚝𝚊 object as this may exceed memory limits . //@version=6 indicator("Demo Return Calculated Results") import n00btraders/ChartData/1 timeInput = input.time(timestamp("01 Sep 2025 08:30 -0500"), "Time") var int oneMinuteBarsAgo = na // !ERROR - Memory Limits Exceeded // chartDataArray = request.security_lower_tf(syminfo.tickerid, "1", ChartData.collectChartData()) // oneMinuteBarsAgo := chartDataArray.last().getNumberOfBarsBack(timeInput) // function that returns calculated results (a single integer value instead of an entire `ChartData` object) getNumberOfBarsBack() => chartData = ChartData.collectChartData() chartData.getNumberOfBarsBack(timeInput) calculatedResultsArray = request.security_lower_tf(syminfo.tickerid, "1", getNumberOfBarsBack()) oneMinuteBarsAgo := calculatedResultsArray.size() > 0 ? calculatedResultsArray.last() : na if barstate.islast string labelText = str.format("The selected timestamp occurs 1-minute bars ago", oneMinuteBarsAgo) label.new(bar_index, hl2, labelText, style = label.style_label_left, size = 16, force_overlay = true) • Memory Usage The library's convenience and ease of use comes at the cost of increased usage of computational resources. For simple scripts, using this library will likely not cause any issues with exceeding memory limits. But for large and complex scripts, you can reduce memory issues by specifying a lower 𝚌𝚊𝚕𝚌_𝚋𝚊𝚛𝚜_𝚌𝚘𝚞𝚗𝚝 amount in the indicator() or strategy() declaration statement. //@version=6 // !ERROR - Memory Limits Exceeded using the default number of bars available (~20,000 bars for Premium plans) //indicator("Demo `calc_bars_count` parameter") // Reduce number of bars using `calc_bars_count` parameter indicator("Demo `calc_bars_count` parameter", calc_bars_count = 15000) import n00btraders/ChartData/1 map variables = map.new() variables.put("open", open) variables.put("close", close) variables.put("weekofyear", weekofyear) variables.put("dayofmonth", dayofmonth) variables.put("hour", hour) variables.put("minute", minute) variables.put("second", second) // simulate large memory usage chartData0 = ChartData.collectChartData(variables) chartData1 = ChartData.collectChartData(variables) chartData2 = ChartData.collectChartData(variables) chartData3 = ChartData.collectChartData(variables) chartData4 = ChartData.collectChartData(variables) chartData5 = ChartData.collectChartData(variables) chartData6 = ChartData.collectChartData(variables) chartData7 = ChartData.collectChartData(variables) chartData8 = ChartData.collectChartData(variables) chartData9 = ChartData.collectChartData(variables) log.info(str.tostring(chartData0.time(0))) log.info(str.tostring(chartData1.time(0))) log.info(str.tostring(chartData2.time(0))) log.info(str.tostring(chartData3.time(0))) log.info(str.tostring(chartData4.time(0))) log.info(str.tostring(chartData5.time(0))) log.info(str.tostring(chartData6.time(0))) log.info(str.tostring(chartData7.time(0))) log.info(str.tostring(chartData8.time(0))) log.info(str.tostring(chartData9.time(0))) if barstate.islast result = table.new(position.middle_right, 1, 1, force_overlay = true) table.cell(result, 0, 0, "Script Execution Successful ✅", text_size = 40) █ EXPORTED ENUMS Snap Behavior for determining the bar that a timestamp belongs to. Fields: LEFT : Snap to the leftmost bar. RIGHT : Snap to the rightmost bar. DEFAULT : Default `xloc.bar_time` behavior. Note: this enum is used for the 𝚜𝚗𝚊𝚙 parameter of 𝚝𝚒𝚖𝚎𝚜𝚝𝚊𝚖𝚙𝚃𝚘𝙱𝚊𝚛𝙸𝚗𝚍𝚎𝚡(). █ EXPORTED TYPES Note: users of the library do not need to worry about directly accessing the fields of these types; all computations are done through method calls on an object of the 𝙲𝚑𝚊𝚛𝚝𝙳𝚊𝚝𝚊 type. Variable Represents a user-specified variable that can be tracked on every chart bar. Fields: name (series string) : Unique identifier for the variable. values (array) : The array of stored values (one value per chart bar). ChartData Represents data for all bars on a chart. Fields: bars (series int) : Current number of bars on the chart. timeValues (array) : The `time` values of all chart (and future) bars. timeCloseValues (array) : The `time_close` values of all chart (and future) bars. variables (array) : Additional custom values to track on all chart bars. █ EXPORTED FUNCTIONS collectChartData() Collects and tracks the `time` and `time_close` value of every bar on the chart. Returns: `ChartData` object to convert between `xloc.bar_index` and `xloc.bar_time`. collectChartData(barsForward) Collects and tracks the `time` and `time_close` value of every bar on the chart as well as a specified number of future bars. Parameters: barsForward (simple int) : Number of future bars to collect data for. Returns: `ChartData` object to convert between `xloc.bar_index` and `xloc.bar_time`. collectChartData(variables) Collects and tracks the `time` and `time_close` value of every bar on the chart. Additionally, tracks a custom set of variables for every chart bar. Parameters: variables (simple map) : Custom values to collect on every chart bar. Returns: `ChartData` object to convert between `xloc.bar_index` and `xloc.bar_time`. collectChartData(barsForward, variables) Collects and tracks the `time` and `time_close` value of every bar on the chart as well as a specified number of future bars. Additionally, tracks a custom set of variables for every chart bar. Parameters: barsForward (simple int) : Number of future bars to collect data for. variables (simple map) : Custom values to collect on every chart bar. Returns: `ChartData` object to convert between `xloc.bar_index` and `xloc.bar_time`. █ EXPORTED METHODS method timestampToBarIndex(chartData, timestamp, snap) Converts a UNIX timestamp to a bar index. Namespace types: ChartData Parameters: chartData (series ChartData) : The `ChartData` object. timestamp (series int) : A UNIX time. snap (series Snap) : A `Snap` enum value. Returns: A bar index, or `na` if unable to find the appropriate bar index. method getNumberOfBarsBack(chartData, timestamp) Converts a UNIX timestamp to a history-referencing length (i.e., number of bars back). Namespace types: ChartData Parameters: chartData (series ChartData) : The `ChartData` object. timestamp (series int) : A UNIX time. Returns: A bar offset, or `na` if unable to find a valid number of bars back. method timeAtBarIndex(chartData, barIndex) Retrieves the `time` value for the specified bar index. Namespace types: ChartData Parameters: chartData (series ChartData) : The `ChartData` object. barIndex (int) : The bar index. Returns: The `time` value, or `na` if there is no `time` stored for the bar index. method time(chartData, length) Retrieves the `time` value of the bar that is `length` bars back relative to the latest bar. Namespace types: ChartData Parameters: chartData (series ChartData) : The `ChartData` object. length (series int) : Number of bars back. Returns: The `time` value `length` bars ago, or `na` if there is no `time` stored for that bar. method timeCloseAtBarIndex(chartData, barIndex) Retrieves the `time_close` value for the specified bar index. Namespace types: ChartData Parameters: chartData (series ChartData) : The `ChartData` object. barIndex (series int) : The bar index. Returns: The `time_close` value, or `na` if there is no `time_close` stored for the bar index. method timeClose(chartData, length) Retrieves the `time_close` value of the bar that is `length` bars back from the latest bar. Namespace types: ChartData Parameters: chartData (series ChartData) : The `ChartData` object. length (series int) : Number of bars back. Returns: The `time_close` value `length` bars ago, or `na` if there is none stored. method valueAtBarIndex(chartData, name, barIndex) Retrieves the value of a custom variable for the specified bar index. Namespace types: ChartData Parameters: chartData (series ChartData) : The `ChartData` object. name (series string) : The variable name. barIndex (series int) : The bar index. Returns: The value of the variable, or `na` if that variable is not stored for the bar index. method value(chartData, name, length) Retrieves a variable value of the bar that is `length` bars back relative to the latest bar. Namespace types: ChartData Parameters: chartData (series ChartData) : The `ChartData` object. name (series string) : The variable name. length (series int) : Number of bars back. Returns: The value `length` bars ago, or `na` if that variable is not stored for the bar index. method getAllVariablesAtBarIndex(chartData, barIndex) Retrieves all custom variables for the specified bar index. Namespace types: ChartData Parameters: chartData (series ChartData) : The `ChartData` object. barIndex (series int) : The bar index. Returns: Map of all custom variables that are stored for the specified bar index. method getEarliestStoredData(chartData) Gets all values from the earliest bar data that is currently stored in memory. Namespace types: ChartData Parameters: chartData (series ChartData) : The `ChartData` object. Returns: A tuple: method getLatestStoredData(chartData, futureData) Gets all values from the latest bar data that is currently stored in memory. Namespace types: ChartData Parameters: chartData (series ChartData) : The `ChartData` object. futureData (series bool) : Whether to include the future data that is stored in memory. Returns: A tuple:

مكتبة Pine Script®

من ‎n00btraders‎

CCI TIME COUNT //@version=6 indicator("CCI Multi‑TF", overlay=true) // === Inputs === // CCI Inputs cciLength = input.int(20, "CCI Length", minval=1) src = input.source(hlc3, "Source") // Timeframes timeframes = array.from("1", "3", "5", "10", "15", "30", "60", "1D", "1W") labels = array.from("1m", "3m", "5m", "10m", "15m", "30m", "60m", "Daily", "Weekly") // === Table Settings === tblPos = input.string('Top Right', 'Table Position', options = , group = 'Table Settings') i_textSize = input.string('Small', 'Text Size', options = , group = 'Table Settings') textSize = i_textSize == 'Small' ? size.small : i_textSize == 'Normal' ? size.normal : i_textSize == 'Large' ? size.large : size.tiny textColor = color.white // Resolve table position var pos = switch tblPos 'Top Left' => position.top_left 'Top Right' => position.top_right 'Bottom Left' => position.bottom_left 'Bottom Right' => position.bottom_right 'Middle Left' => position.middle_left 'Middle Right' => position.middle_right => position.top_right // === Custom CCI Function === customCCI(source, length) => sma = ta.sma(source, length) dev = ta.dev(source, length) (source - sma) / (0.015 * dev) // === CCI Values for All Timeframes === var float cciVals = array.new_float(array.size(timeframes)) for i = 0 to array.size(timeframes) - 1 tf = array.get(timeframes, i) cciVal = request.security(syminfo.tickerid, tf, customCCI(src, cciLength)) array.set(cciVals, i, cciVal) // === Countdown Timers === var string countdowns = array.new_string(array.size(timeframes)) for i = 0 to array.size(timeframes) - 1 tf = array.get(timeframes, i) closeTime = request.security(syminfo.tickerid, tf, time_close) sec_left = barstate.isrealtime and not na(closeTime) ? math.max(0, (closeTime - timenow) / 1000) : na min_left = sec_left >= 0 ? math.floor(sec_left / 60) : na sec_mod = sec_left >= 0 ? math.floor(sec_left % 60) : na timer_text = barstate.isrealtime and not na(sec_left) ? str.format("{0,number,00}:{1,number,00}", min_left, sec_mod) : "–" array.set(countdowns, i, timer_text) // === Build Table === if barstate.islast rows = array.size(timeframes) + 1 var table t = table.new(pos, 3, rows, frame_color=color.rgb(252, 250, 250), border_color=color.rgb(243, 243, 243)) // Headers table.cell(t, 0, 0, "Timeframe", text_color=textColor, bgcolor=color.rgb(238, 240, 242), text_size=textSize) table.cell(t, 1, 0, "CCI (" + str.tostring(cciLength) + ")", text_color=textColor, bgcolor=color.rgb(239, 243, 246), text_size=textSize) table.cell(t, 2, 0, "Time to Close", text_color=textColor, bgcolor=color.rgb(239, 244, 248), text_size=textSize) // Data Rows for i = 0 to array.size(timeframes) - 1 row = i + 1 label = array.get(labels, i) cciVal = array.get(cciVals, i) countdown = array.get(countdowns, i) // Color CCI: Green if < -100, Red if > 100 cciColor = cciVal < -100 ? color.green : cciVal > 100 ? color.red : color.rgb(236, 237, 240) // Background warning if <60 seconds to close tf = array.get(timeframes, i) closeTime = request.security(syminfo.tickerid, tf, time_close) sec_left = barstate.isrealtime and not na(closeTime) ? math.max(0, (closeTime - timenow) / 1000) : na countdownBg = sec_left < 60 ? color.rgb(255, 220, 220, 90) : na // Table cells table.cell(t, 0, row, label, text_color=color.rgb(239, 240, 244), text_size=textSize) table.cell(t, 1, row, str.tostring(cciVal, "#.##"), text_color=cciColor, text_size=textSize) table.cell(t, 2, row, countdown, text_color=color.rgb(232, 235, 243), bgcolor=countdownBg, text_size=textSize)

مؤشر Pine Script®

من ‎rk2007‎

Autotable █ OVERVIEW The library allows to automatically draw a table based on a string or float matrix (or both) controlling all of the parameters of the table (including merging cells) with parameter matrices (like, e.g. matrix of cell colors). All things you would normally do with table.new() and table.cell() are now possible using respective parameters of library's main function, autotable() (as explained further below). Headers can be supplied as arrays. Merging of the cells is controlled with a special matrix of "L" and "U" values which instruct a cell to merged with the cell to the left or upwards (please see examples in the script and in this description). █ USAGE EXAMPLES The simplest and most straightforward: mxF = matrix.new(3,3, 3.14) mxF.autotable(bgcolor = color.rgb(249, 209, 29)) // displays float matrix as a table in the top right corner with defalult settings mxS = matrix.new(3,3,"PI") // displays string matrix as a table in the top right corner with defalult settings mxS.autotable(Ypos = "bottom", Xpos = "right", bgcolor = #b4d400) // displays matrix displaying a string value over a float value in each cell mxS.autotable(mxF, Ypos = "middle", Xpos = "center", bgcolor = color.gray, text_color = #86f62a) Draws this: Tables with headers: if barstate.islast mxF = matrix.new(3,3, 3.14) mxS = matrix.new(3,3,"PI") arColHeaders = array.from("Col1", "Col2", "Col3") arRowHeaders = array.from("Row1", "Row2", "Row3") // float matrix with col headers mxF.autotable( bgcolor = #fdfd6b , arColHeaders = arColHeaders ) // string matrix with row headers mxS.autotable(arRowHeaders = arRowHeaders, Ypos = "bottom", Xpos = "right", bgcolor = #b4d400) // string/float matrix with both row and column headers mxS.autotable(mxF , Ypos = "middle", Xpos = "center" , arRowHeaders = arRowHeaders , arColHeaders = arColHeaders , cornerBgClr = #707070, cornerTitle = "Corner\ncell", cornerTxtClr = #ffdc13 , bgcolor = color.gray, text_color = #86f62a ) Draws this: █ FUNCTIONS One main function is autotable() which has only one required argument mxValS, a string matrix. Please see below the description of all of the function parameters: The table: tbl (table) (Optional) If supplied, this table will be deleted. The data: mxValS (matrix ) (Required) Cell text values mxValF (matrix) (Optional) Numerical part of cell text values. Is concatenated to the mxValS values via `string_float_separator` string (default "\n") Table properties, have same effect as in table.new() : defaultBgColor (color) (Optional) bgcolor to be used if mxBgColor is not supplied Ypos (string) (Optional) "top", "bottom" or "center" Xpos (string) (Optional) "left", "right", or "center" frame_color (color) (Optional) frame_color like in table.new() frame_width (int) (Optional) frame_width like in table.new() border_color (color) (Optional) border_color like in table.new() border_width (int) (Optional) border_width like in table.new() force_overlay (simple bool) (Optional) If true draws table on main pane. Cell parameters, have same effect as in table.cell() ): mxBgColor (matrix) (Optional) like bgcolor argument in table.cell() mxTextColor (matrix) (Optional) like text_color argument in table.cell() mxTt (matrix) (Optional) like tooltip argument in table.cell() mxWidth (matrix) (Optional) like width argument in table.cell() mxHeight (matrix) (Optional) like height argument in table.cell() mxHalign (matrix) (Optional) like text_halign argument in table.cell() mxValign (matrix) (Optional) like text_valign argument in table.cell() mxTextSize (matrix) (Optional) like text_size argument in table.cell() mxFontFamily (matrix) (Optional) like text_font_family argument in table.cell() Other table properties: tableWidth (float) (Optional) Overrides table width if cell widths are non zero. E.g. if there are four columns and cell widths are 20 (either as set via cellW or via mxWidth) then if tableWidth is set to e.g. 50 then cell widths will be 50 * (20 / 80), where 80 is 20*4 = total width of all cells. Works simialar for widths set via mxWidth - determines max sum of widths across all cloumns of mxWidth and adjusts cell widths proportionally to it. If cell widths are 0 (i.e. auto-adjust) tableWidth has no effect. tableHeight (float) (Optional) Overrides table height if cell heights are non zero. E.g. if there are four rows and cell heights are 20 (either as set via cellH or via mxHeight) then if tableHeigh is set to e.g. 50 then cell heights will be 50 * (20 / 80), where 80 is 20*4 = total height of all cells. Works simialar for heights set via mxHeight - determines max sum of heights across all cloumns of mxHeight and adjusts cell heights proportionally to it. If cell heights are 0 (i.e. auto-adjust) tableHeight has no effect. defaultTxtColor (color) (Optional) text_color to be used if mxTextColor is not supplied text_size (string) (Optional) text_size to be used if mxTextSize is not supplied font_family (string) (Optional) cell text_font_family value to be used if a value in mxFontFamily is no supplied cellW (float) (Optional) cell width to be used if a value in mxWidth is no supplied cellH (float) (Optional) cell height to be used if a value in mxHeight is no supplied halign (string) (Optional) cell text_halign value to be used if a value in mxHalign is no supplied valign (string) (Optional) cell text_valign value to be used if a value in mxValign is no supplied Headers parameters: arColTitles (array) (Optional) Array of column titles. If not na a header row is added. arRowTitles (array) (Optional) Array of row titles. If not na a header column is added. cornerTitle (string) (Optional) If both row and column titles are supplied allows to set the value of the corner cell. colTitlesBgColor (color) (Optional) bgcolor for header row colTitlesTxtColor (color) (Optional) text_color for header row rowTitlesBgColor (color) (Optional) bgcolor for header column rowTitlesTxtColor (color) (Optional) text_color for header column cornerBgClr (color) (Optional) bgcolor for the corner cell cornerTxtClr (color) (Optional) text_color for the corner cell Cell merge parameters: mxMerge (matrix) (Optional) A matrix determining how cells will be merged. "L" - cell merges to the left, "U" - upwards. mergeAllColTitles (bool) (Optional) Allows to print a table title instead of column headers, merging all header row cells and leaving just the value of the first cell. For more flexible options use matrix arguments leaving header/row arguments na. mergeAllRowTitles (bool) (Optional) Allows to print one text value merging all header row cells and leaving just the value of the first cell. For more flexible options use matrix arguments leaving header/row arguments na. Format: string_float_separator (string) (Optional) A string used to separate string and float parts of cell values (mxValS and mxValF). Default is "\n" format (string) (Optional) format string like in str.format() used to format numerical values nz (string) (Optional) Determines how na numerical values are displayed. The only other available function is autotable(string,... ) with a string parameter instead of string and float matrices which draws a one cell table. █ SAMPLE USE E.g., CSVParser library demo uses Autotable's for generating complex tables with merged cells. █ CREDITS The library was inspired by @kaigouthro's matrixautotable . A true master. Many thanks to him for his creative, beautiful and very helpful libraries.

مكتبة Pine Script®

من ‎moebius1977‎

Debug Library "Debug" Some debugging functions. label_on_each_bar(txt, y_position, label_size, label_color, txt_color) Prints a label on every bar to show text. By default, only the last 50 labels will be shown on the chart. You can increase this amount up to a maximum of 500 by using the max_labels_count parameter in your script’s indicator() or strategy() declaration statement. Parameters: txt (string) : New label text. y_position (float) : New price of the label position. label_size (string) : Possible values: size.auto, size.tiny, size.small, size.normal, size.large, size.huge. Optional. Default value is `size.small`. label_color (color) : New label border and arrow color. Optional. Default value is `color.blue`. txt_color (color) : New text color. Optional. Default value is `color.white`. Returns: void label_on_last_bar(txt, y_position, label_size, label_color, txt_color, txt_align) Prints one label at last bar to show text. Parameters: txt (string) : New label text. y_position (float) : New price of the label position. label_size (string) : Possible values: size.auto, size.tiny, size.small, size.normal, size.large, size.huge. Optional. Default value is `size.large`. label_color (color) : New label border and arrow color. Optional. Default value is `color.blue`. txt_color (color) : New text color. Optional. Default value is `color.white`. txt_align (string) : Label text alignment. Optional. Possible values: text.align_left, text.align_center, text.align_right. Default value is `text.align_center`. Returns: void table_symbol_informations(table_position, table_color, text_color) Prints a table to show all the Symbol information, including its function names. Parameters: table_position (string) : Position of the table. Optional. Possible values are: position.top_left, position.top_center, position.top_right, position.middle_left, position.middle_center, position.middle_right, position.bottom_left, position.bottom_center, position.bottom_right. Default value is `position.middle_right`. table_color (color) : The background color of the table. Optional. The default is `color.yellow`. text_color (color) : The color of the text. Optional. The default is `color.black`. Returns: void table_array_float(array_float, table_columns, table_rows, table_position, table_color, txt_color, txt_size) Prints a table to show float values of an array. Parameters: array_float (float ) : The array that will be showed. table_columns (int) table_rows (int) : The number of rows to show the values. table_position (string) : Position of the table. Optional. Possible values are: position.top_left, position.top_center, position.top_right, position.middle_left, position.middle_center, position.middle_right, position.bottom_left, position.bottom_center, position.bottom_right. Default value is `position.bottom_center`. table_color (color) : The background color of the table. Optional. By default there is no color. txt_color (color) txt_size (string) : Possible values: size.auto, size.tiny, size.small, size.normal, size.large, size.huge. Optional. Default value is `size.normal`. Returns: void table_array_int(array_float, table_columns, table_rows, table_position, table_color, txt_color, txt_size) Prints a table to show int values of an array. Parameters: array_float (int ) : The array that will be showed. table_columns (int) table_rows (int) : The number of rows to show the values. table_position (string) : Position of the table. Optional. Possible values are: position.top_left, position.top_center, position.top_right, position.middle_left, position.middle_center, position.middle_right, position.bottom_left, position.bottom_center, position.bottom_right. Default value is `position.bottom_center`. table_color (color) : The background color of the table. Optional. By default there is no color. txt_color (color) txt_size (string) : Possible values: size.auto, size.tiny, size.small, size.normal, size.large, size.huge. Optional. Default value is `size.normal`. Returns: void

مكتبة Pine Script®

من ‎weak_hand‎

تم تحديثه

RSI Overbought/Oversold + Divergence Indicator (new)//@version=5 indicator('CryptoSignalScanner - RSI Overbought/Oversold + Divergence Indicator (new)', //--------------------------------------------------------------------------------------------------------------------------------- //--- Define Colors --------------------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------------------------------------- vWhite = #FFFFFF vViolet = #C77DF3 vIndigo = #8A2BE2 vBlue = #009CDF vGreen = #5EBD3E vYellow = #FFB900 vRed = #E23838 longColor = color.green shortColor = color.red textColor = color.white bullishColor = color.rgb(38,166,154,0) //Used in the display table bearishColor = color.rgb(239,83,79,0) //Used in the display table nomatchColor = color.silver //Used in the display table //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- //--- Functions-------------------------------------------------------------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- TF2txt(TF) => switch TF "S" => "RSI 1s:" "5S" => "RSI 5s:" "10S" => "RSI 10s:" "15S" => "RSI 15s:" "30S" => "RSI 30s" "1" => "RSI 1m:" "3" => "RSI 3m:" "5" => "RSI 5m:" "15" => "RSI 15m:" "30" => "RSI 30m" "45" => "RSI 45m" "60" => "RSI 1h:" "120" => "RSI 2h:" "180" => "RSI 3h:" "240" => "RSI 4h:" "480" => "RSI 8h:" "D" => "RSI 1D:" "1D" => "RSI 1D:" "2D" => "RSI 2D:" "3D" => "RSI 2D:" "3D" => "RSI 3W:" "W" => "RSI 1W:" "1W" => "RSI 1W:" "M" => "RSI 1M:" "1M" => "RSI 1M:" "3M" => "RSI 3M:" "6M" => "RSI 6M:" "12M" => "RSI 12M:" //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- //--- Show/Hide Settings ---------------------------------------------------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- rsiShowInput = input(true, title='Show RSI', group='Show/Hide Settings') maShowInput = input(false, title='Show MA', group='Show/Hide Settings') showRSIMAInput = input(true, title='Show RSIMA Cloud', group='Show/Hide Settings') rsiBandShowInput = input(true, title='Show Oversold/Overbought Lines', group='Show/Hide Settings') rsiBandExtShowInput = input(true, title='Show Oversold/Overbought Extended Lines', group='Show/Hide Settings') rsiHighlightShowInput = input(true, title='Show Oversold/Overbought Highlight Lines', group='Show/Hide Settings') DivergenceShowInput = input(true, title='Show RSI Divergence Labels', group='Show/Hide Settings') //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- //--- Table Settings -------------------------------------------------------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- rsiShowTable = input(true, title='Show RSI Table Information box', group="RSI Table Settings") rsiTablePosition = input.string(title='Location', defval='middle_right', options= , group="RSI Table Settings", inline='1') rsiTextSize = input.string(title=' Size', defval='small', options= , group="RSI Table Settings", inline='1') rsiShowTF1 = input(true, title='Show TimeFrame1', group="RSI Table Settings", inline='tf1') rsiTF1 = input.timeframe("15", title=" Time", group="RSI Table Settings", inline='tf1') rsiShowTF2 = input(true, title='Show TimeFrame2', group="RSI Table Settings", inline='tf2') rsiTF2 = input.timeframe("60", title=" Time", group="RSI Table Settings", inline='tf2') rsiShowTF3 = input(true, title='Show TimeFrame3', group="RSI Table Settings", inline='tf3') rsiTF3 = input.timeframe("240", title=" Time", group="RSI Table Settings", inline='tf3') rsiShowTF4 = input(true, title='Show TimeFrame4', group="RSI Table Settings", inline='tf4') rsiTF4 = input.timeframe("D", title=" Time", group="RSI Table Settings", inline='tf4') rsiShowHist = input(true, title='Show RSI Historical Columns', group="RSI Table Settings", tooltip='Show the information of the 2 previous closed candles') //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- //--- RSI Input Settings ---------------------------------------------------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- rsiSourceInput = input.source(close, 'Source', group='RSI Settings') rsiLengthInput = input.int(14, minval=1, title='RSI Length', group='RSI Settings', tooltip='Here we set the RSI lenght') rsiColorInput = input.color(#26a69a, title="RSI Color", group='RSI Settings') rsimaColorInput = input.color(#ef534f, title="RSIMA Color", group='RSI Settings') rsiBandColorInput = input.color(#787B86, title="RSI Band Color", group='RSI Settings') rsiUpperBandExtInput = input.int(title='RSI Overbought Extended Line', defval=80, minval=50, maxval=100, group='RSI Settings') rsiUpperBandInput = input.int(title='RSI Overbought Line', defval=70, minval=50, maxval=100, group='RSI Settings') rsiLowerBandInput = input.int(title='RSI Oversold Line', defval=30, minval=0, maxval=50, group='RSI Settings') rsiLowerBandExtInput = input.int(title='RSI Oversold Extended Line', defval=20, minval=0, maxval=50, group='RSI Settings') //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- //--- MA Input Settings ----------------------------------------------------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- maTypeInput = input.string("EMA", title="MA Type", options= , group="MA Settings") maLengthInput = input.int(14, title="MA Length", group="MA Settings") maColorInput = input.color(color.yellow, title="MA Color", group='MA Settings') //#7E57C2 //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- //--- Divergence Input Settings --------------------------------------------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- lbrInput = input(title="Pivot Lookback Right", defval=2, group='RSI Divergence Settings') lblInput = input(title="Pivot Lookback Left", defval=2, group='RSI Divergence Settings') lbRangeMaxInput = input(title="Max of Lookback Range", defval=10, group='RSI Divergence Settings') lbRangeMinInput = input(title="Min of Lookback Range", defval=2, group='RSI Divergence Settings') plotBullInput = input(title="Plot Bullish", defval=true, group='RSI Divergence Settings') plotHiddenBullInput = input(title="Plot Hidden Bullish", defval=true, group='RSI Divergence Settings') plotBearInput = input(title="Plot Bearish", defval=true, group='RSI Divergence Settings') plotHiddenBearInput = input(title="Plot Hidden Bearish", defval=true, group='RSI Divergence Settings') //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- //--- RSI Calculation ------------------------------------------------------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- rsi = ta.rsi(rsiSourceInput, rsiLengthInput) rsiprevious = rsi = request.security(syminfo.tickerid, rsiTF1, [rsi, rsi , rsi ], lookahead=barmerge.lookahead_on) = request.security(syminfo.tickerid, rsiTF2, [rsi, rsi , rsi ], lookahead=barmerge.lookahead_on) = request.security(syminfo.tickerid, rsiTF3, [rsi, rsi , rsi ], lookahead=barmerge.lookahead_on) = request.security(syminfo.tickerid, rsiTF4, [rsi, rsi , rsi ], lookahead=barmerge.lookahead_on) //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- //--- MA Calculation ------------------------------------------------------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- ma(source, length, type) => switch type "SMA" => ta.sma(source, length) "Bollinger Bands" => ta.sma(source, length) "EMA" => ta.ema(source, length) "SMMA (RMA)" => ta.rma(source, length) "WMA" => ta.wma(source, length) "VWMA" => ta.vwma(source, length) rsiMA = ma(rsi, maLengthInput, maTypeInput) rsiMAPrevious = rsiMA //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- //--- Stoch RSI Settings + Calculation -------------------------------------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- showStochRSI = input(false, title="Show Stochastic RSI", group='Stochastic RSI Settings') smoothK = input.int(title="Stochastic K", defval=3, minval=1, maxval=10, group='Stochastic RSI Settings') smoothD = input.int(title="Stochastic D", defval=4, minval=1, maxval=10, group='Stochastic RSI Settings') lengthRSI = input.int(title="Stochastic RSI Lenght", defval=14, minval=1, group='Stochastic RSI Settings') lengthStoch = input.int(title="Stochastic Lenght", defval=14, minval=1, group='Stochastic RSI Settings') colorK = input.color(color.rgb(41,98,255,0), title="K Color", group='Stochastic RSI Settings', inline="1") colorD = input.color(color.rgb(205,109,0,0), title="D Color", group='Stochastic RSI Settings', inline="1") StochRSI = ta.rsi(rsiSourceInput, lengthRSI) k = ta.sma(ta.stoch(StochRSI, StochRSI, StochRSI, lengthStoch), smoothK) //Blue Line d = ta.sma(k, smoothD) //Red Line //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- //--- Divergence Settings ------------------------------------------------------------------------------------------------------------------------------------------ //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- bearColor = color.red bullColor = color.green hiddenBullColor = color.new(color.green, 50) hiddenBearColor = color.new(color.red, 50) //textColor = color.white noneColor = color.new(color.white, 100) osc = rsi plFound = na(ta.pivotlow(osc, lblInput, lbrInput)) ? false : true phFound = na(ta.pivothigh(osc, lblInput, lbrInput)) ? false : true _inRange(cond) => bars = ta.barssince(cond == true) lbRangeMinInput <= bars and bars <= lbRangeMaxInput //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- //--- Define Plot & Line Colors --------------------------------------------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- rsiColor = rsi >= rsiMA ? rsiColorInput : rsimaColorInput //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- //--- Plot Lines ------------------------------------------------------------------------------------------------------------------------------------------------------ //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- // Create a horizontal line at a specific price level myLine = line.new(bar_index , 75, bar_index, 75, color = color.rgb(187, 14, 14), width = 2) bottom = line.new(bar_index , 50, bar_index, 50, color = color.rgb(223, 226, 28), width = 2) mymainLine = line.new(bar_index , 60, bar_index, 60, color = color.rgb(13, 154, 10), width = 3) hline(50, title='RSI Baseline', color=color.new(rsiBandColorInput, 50), linestyle=hline.style_solid, editable=false) hline(rsiBandExtShowInput ? rsiUpperBandExtInput : na, title='RSI Upper Band', color=color.new(rsiBandColorInput, 10), linestyle=hline.style_dashed, editable=false) hline(rsiBandShowInput ? rsiUpperBandInput : na, title='RSI Upper Band', color=color.new(rsiBandColorInput, 10), linestyle=hline.style_dashed, editable=false) hline(rsiBandShowInput ? rsiLowerBandInput : na, title='RSI Upper Band', color=color.new(rsiBandColorInput, 10), linestyle=hline.style_dashed, editable=false) hline(rsiBandExtShowInput ? rsiLowerBandExtInput : na, title='RSI Upper Band', color=color.new(rsiBandColorInput, 10), linestyle=hline.style_dashed, editable=false) bgcolor(rsiHighlightShowInput ? rsi >= rsiUpperBandExtInput ? color.new(rsiColorInput, 70) : na : na, title="Show Extended Oversold Highlight", editable=false) bgcolor(rsiHighlightShowInput ? rsi >= rsiUpperBandInput ? rsi < rsiUpperBandExtInput ? color.new(#64ffda, 90) : na : na: na, title="Show Overbought Highlight", editable=false) bgcolor(rsiHighlightShowInput ? rsi <= rsiLowerBandInput ? rsi > rsiLowerBandExtInput ? color.new(#F43E32, 90) : na : na : na, title="Show Extended Oversold Highlight", editable=false) bgcolor(rsiHighlightShowInput ? rsi <= rsiLowerBandInput ? color.new(rsimaColorInput, 70) : na : na, title="Show Oversold Highlight", editable=false) maPlot = plot(maShowInput ? rsiMA : na, title='MA', color=color.new(maColorInput,0), linewidth=1) rsiMAPlot = plot(showRSIMAInput ? rsiMA : na, title="RSI EMA", color=color.new(rsimaColorInput,0), editable=false, display=display.none) rsiPlot = plot(rsiShowInput ? rsi : na, title='RSI', color=color.new(rsiColor,0), linewidth=1) fill(rsiPlot, rsiMAPlot, color=color.new(rsiColor, 60), title="RSIMA Cloud") plot(showStochRSI ? k : na, title='Stochastic K', color=colorK, linewidth=1) plot(showStochRSI ? d : na, title='Stochastic D', color=colorD, linewidth=1) //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- //--- Plot Divergence ------------------------------------------------------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- // Regular Bullish // Osc: Higher Low oscHL = osc > ta.valuewhen(plFound, osc , 1) and _inRange(plFound ) // Price: Lower Low priceLL = low < ta.valuewhen(plFound, low , 1) bullCond = plotBullInput and priceLL and oscHL and plFound plot( plFound ? osc : na, offset=-lbrInput, title="Regular Bullish", linewidth=2, color=(bullCond ? bullColor : noneColor) ) plotshape( DivergenceShowInput ? bullCond ? osc : na : na, offset=-lbrInput, title="Regular Bullish Label", text=" Bull ", style=shape.labelup, location=location.absolute, color=bullColor, textcolor=textColor ) //------------------------------------------------------------------------------ // Hidden Bullish // Osc: Lower Low oscLL = osc < ta.valuewhen(plFound, osc , 1) and _inRange(plFound ) // Price: Higher Low priceHL = low > ta.valuewhen(plFound, low , 1) hiddenBullCond = plotHiddenBullInput and priceHL and oscLL and plFound plot( plFound ? osc : na, offset=-lbrInput, title="Hidden Bullish", linewidth=2, color=(hiddenBullCond ? hiddenBullColor : noneColor) ) plotshape( DivergenceShowInput ? hiddenBullCond ? osc : na : na, offset=-lbrInput, title="Hidden Bullish Label", text=" H Bull ", style=shape.labelup, location=location.absolute, color=bullColor, textcolor=textColor ) //------------------------------------------------------------------------------ // Regular Bearish // Osc: Lower High oscLH = osc < ta.valuewhen(phFound, osc , 1) and _inRange(phFound ) // Price: Higher High priceHH = high > ta.valuewhen(phFound, high , 1) bearCond = plotBearInput and priceHH and oscLH and phFound plot( phFound ? osc : na, offset=-lbrInput, title="Regular Bearish", linewidth=2, color=(bearCond ? bearColor : noneColor) ) plotshape( DivergenceShowInput ? bearCond ? osc : na : na, offset=-lbrInput, title="Regular Bearish Label", text=" Bear ", style=shape.labeldown, location=location.absolute, color=bearColor, textcolor=textColor ) //------------------------------------------------------------------------------ // Hidden Bearish // Osc: Higher High oscHH = osc > ta.valuewhen(phFound, osc , 1) and _inRange(phFound ) // Price: Lower High priceLH = high < ta.valuewhen(phFound, high , 1) hiddenBearCond = plotHiddenBearInput and priceLH and oscHH and phFound plot( phFound ? osc : na, offset=-lbrInput, title="Hidden Bearish", linewidth=2, color=(hiddenBearCond ? hiddenBearColor : noneColor) ) plotshape( DivergenceShowInput ? hiddenBearCond ? osc : na : na, offset=-lbrInput, title="Hidden Bearish Label", text=" H Bear ", style=shape.labeldown, location=location.absolute, color=bearColor, textcolor=textColor ) //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- //--- Check RSI Lineup ------------------------------------------------------------------------------------------------------------------------------------------------ //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- bullTF = rsi > rsi and rsi > rsi bearTF = rsi < rsi and rsi < rsi bullTF1 = rsi1 > rsi1_1 and rsi1_1 > rsi1_2 bearTF1 = rsi1 < rsi1_1 and rsi1_1 < rsi1_2 bullTF2 = rsi2 > rsi2_1 and rsi2_1 > rsi2_2 bearTF2 = rsi2 < rsi2_1 and rsi2_1 < rsi2_2 bullTF3 = rsi3 > rsi3_1 and rsi3_1 > rsi3_2 bearTF3 = rsi3 < rsi3_1 and rsi3_1 < rsi3_2 bullTF4 = rsi4 > rsi4_1 and rsi4_1 > rsi4_2 bearTF4 = rsi4 < rsi4_1 and rsi4_1 < rsi4_2 bbTxt(bull,bear) => bull ? "BULLISH" : bear ? "BEARISCH" : 'NO LINEUP' bbColor(bull,bear) => bull ? bullishColor : bear ? bearishColor : nomatchColor newTC(tBox, col, row, txt, width, txtColor, bgColor, txtHA, txtSize) => table.cell(table_id=tBox,column=col, row=row, text=txt, width=width,text_color=txtColor,bgcolor=bgColor, text_halign=txtHA, text_size=txtSize) //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- //--- Define RSI Table Setting ---------------------------------------------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------------------------------------------------------------------------- width_c0 = 0 width_c1 = 0 if rsiShowTable var tBox = table.new(position=rsiTablePosition, columns=5, rows=6, bgcolor=color.rgb(18,22,33,50), frame_color=color.black, frame_width=1, border_color=color.black, border_width=1) newTC(tBox, 0,1,"RSI Current",width_c0,color.orange,color.rgb(0,0,0,100),'right',rsiTextSize) newTC(tBox, 1,1,str.format(" {0,number,#.##} ", rsi),width_c0,vWhite,rsi < 50 ? bearishColor:bullishColor,'left',rsiTextSize) newTC(tBox, 4,1,bbTxt(bullTF, bearTF),width_c0,vWhite,bbColor(bullTF, bearTF),'center',rsiTextSize) if rsiShowHist newTC(tBox, 2,1,str.format(" {0,number,#.##} ", rsi ),width_c0,vWhite,rsi < 50 ? bearishColor:bullishColor,'left',rsiTextSize) newTC(tBox, 3,1,str.format(" {0,number,#.##} ", rsi ),width_c0,vWhite,rsi < 50 ? bearishColor:bullishColor,'left',rsiTextSize) if rsiShowTF1 newTC(tBox, 0,2,TF2txt(rsiTF1),width_c0,vWhite,color.rgb(0,0,0,100),'right',rsiTextSize) newTC(tBox, 1,2,str.format(" {0,number,#.##} ", rsi1),width_c0,vWhite,rsi1 < 50 ? bearishColor:bullishColor,'left',rsiTextSize) newTC(tBox, 4,2,bbTxt(bullTF1, bearTF1),width_c0,vWhite,bbColor(bullTF1,bearTF1),'center',rsiTextSize) if rsiShowHist newTC(tBox, 2,2,str.format(" {0,number,#.##} ", rsi1_1),width_c0,vWhite,rsi1_1 < 50 ? bearishColor:bullishColor,'left',rsiTextSize) newTC(tBox, 3,2,str.format(" {0,number,#.##} ", rsi1_2),width_c0,vWhite,rsi1_2 < 50 ? bearishColor:bullishColor,'left',rsiTextSize) if rsiShowTF2 newTC(tBox, 0,3,TF2txt(rsiTF2),width_c0,vWhite,color.rgb(0,0,0,100),'right',rsiTextSize) newTC(tBox, 1,3,str.format(" {0,number,#.##} ", rsi2),width_c0,vWhite,rsi2 < 50 ? bearishColor:bullishColor,'left',rsiTextSize) newTC(tBox, 4,3,bbTxt(bullTF2, bearTF2),width_c0,vWhite,bbColor(bullTF2,bearTF2),'center',rsiTextSize) if rsiShowHist newTC(tBox, 2,3,str.format(" {0,number,#.##} ", rsi2_1),width_c0,vWhite,rsi2_1 < 50 ? bearishColor:bullishColor,'left',rsiTextSize) newTC(tBox, 3,3,str.format(" {0,number,#.##} ", rsi2_2),width_c0,vWhite,rsi2_2 < 50 ? bearishColor:bullishColor,'left',rsiTextSize) if rsiShowTF3 newTC(tBox, 0,4,TF2txt(rsiTF3),width_c0,vWhite,color.rgb(0,0,0,100),'right',rsiTextSize) newTC(tBox, 1,4,str.format(" {0,number,#.##} ", rsi3),width_c0,vWhite,rsi3 < 50 ? bearishColor:bullishColor,'left',rsiTextSize) newTC(tBox, 4,4,bbTxt(bullTF3, bearTF3),width_c0,vWhite,bbColor(bullTF3,bearTF3),'center',rsiTextSize) if rsiShowHist newTC(tBox, 2,4,str.format(" {0,number,#.##} ", rsi3_1),width_c0,vWhite,rsi3_1 < 50 ? bearishColor:bullishColor,'left',rsiTextSize) newTC(tBox, 3,4,str.format(" {0,number,#.##} ", rsi3_2),width_c0,vWhite,rsi3_2 < 50 ? bearishColor:bullishColor,'left',rsiTextSize) if rsiShowTF4 newTC(tBox, 0,5,TF2txt(rsiTF4),width_c0,vWhite,color.rgb(0,0,0,100),'right',rsiTextSize) newTC(tBox, 1,5,str.format(" {0,number,#.##} ", rsi4),width_c0,vWhite,rsi4 < 50 ? bearishColor:bullishColor,'left',rsiTextSize) newTC(tBox, 4,5,bbTxt(bullTF4, bearTF4),width_c0,vWhite,bbColor(bullTF4,bearTF4),'center',rsiTextSize) if rsiShowHist newTC(tBox, 2,5,str.format(" {0,number,#.##} ", rsi4_1),width_c0,vWhite,rsi4_1 < 50 ? bearishColor:bullishColor,'left',rsiTextSize) newTC(tBox, 3,5,str.format(" {0,number,#.##} ", rsi4_2),width_c0,vWhite,rsi4_2 < 50 ? bearishColor:bullishColor,'left',rsiTextSize) //------------------------------------------------------ //--- Alerts ------------------------------------------- //------------------------------------------------------

مؤشر Pine Script®

من ‎RandyDahlin‎

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إخلاء المسؤولية
سياسة الخصوصية
سياسه تعريف الارتباط
إمكانية الوصول
نصائح الأمان
برنامج مكافئات اكتشاف الثغرات الأمنية
صفحة حالة الموقع

حلول الأعمال

الأدوات
مكتبات الرسوم البيانية
Lightweight Charts™
رسوم بيانية متقدمة
منصة التداول

فرص النمو

الإعلانات
دمج منصات الوسطاء
برنامج الشركاء
برنامج التعليم

التواصل الاجتماعي

وسائل التواصل الاجتماعي
حائط التميز
إحالة صديق
قوانين الموقع
المشرفون

التحاليل

تداول
تعليم
مختارات المحرر

Pine script

المؤشرات والاستراتيجيات
السحرة
عمال مستقلون

حلول الأعمال

الأدوات
مكتبات الرسوم البيانية
Lightweight Charts™
رسوم بيانية متقدمة
منصة التداول

فرص النمو

الإعلانات
دمج منصات الوسطاء
برنامج الشركاء
برنامج التعليم