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Larry Williams Strategies Indicator This indicator is a trend following indicator. It plots some of the trend following strategies described by Larry Williams in his book 'Long Term Secrets to Short Term Trading'. Below are types of trend following strategies you can trade using this indicator. These are notes taken directly from Larry Williams' book. Short Term Low Strategy Short Term Low - Any daily low with higher lows on each side of it. Intermediate Term Low – Any short term low with higher short term lows on each side of it. Long Term Low – Any intermediate term low with higher intermediate term lows on each side of it. Conceptual pattern for best buying opportunity is when forming an intermediate term low higher than the last intermediate term low. This setup can be used on all time frames. However since Larry Williams usually trades the daily chart, the daily chart is probably the best timeframe to trade using this strategy. Entry point – High of the day that has a higher high on the right side of it. (My interpretation: price crossing above the high of the previous day is the buy signal) Target – Markets have a strong tendency to rally above the last intermediate term high by the same amount it moved from the last intermediate term high to the lowest point prior to advancing to new highs. Trailing Stop – Set stop to most recent short term low, move up as new short term lows are formed. Can also use formation of next intermediate term high as an exit point. A 'run' to the upside is over when price fails to move higher the next day and falls below the prior day's low. Short Term High Strategy Short Term High - Any daily high with lower highs on each side of it. Intermediate Term High – Any short term high with lower short term highs on each side of it. Long Term High – Any intermediate term high with lower intermediate term highs on each side of it. Conceptual pattern for best selling opportunity is when forming an intermediate term high lower than the last intermediate term high. This setup can be used on all time frames. However since Larry Williams usually trades the daily chart, the daily chart is probably the best timeframe to trade using this strategy. Entry point – Low of the day that has a lower low on the right side of it. (My interpretation: price crossing below the low of the previous day is the sell short signal) Target – Markets have a strong tendency to fall below the last intermediate term low by the same amount it moved from the last intermediate term low to the highest point prior to declining to new lows. Trailing Stop – Set stop to most recent short term high, move down as new short term highs are formed. Can also use formation of next intermediate term low as an exit point. A 'run' to the downside is over when price fails to move lower the next day and rises above the prior day's high. Trend Reversals A trend change from down to up occurs when a short term high is exceeded on the upside, a trend change from up to down is identified by price going below the most recent low. Can take these signals to make trades, but it is best to filter them with a confirmation or edge such as Trading Day of the Week, Trading Day of the Month, trendlines, etc. to cut down on false signals. Three Bar High/Low System Calculate a three bar moving average of the highs and a three bar moving average of the lows. Strategy is to buy at the at the price of the three bar moving average of the lows - if the trend is positive according to the swing point trend identification technique - and take profits at the three bar moving average of the highs. Selling is just the opposite. Sell short at the three bar moving average of the highs and take profits at the three bar moving average of the lows, using the trend identification technique above for confirmation. This strategy can work on any timeframe, but was described as a daytrading system by Larry Williams.

Wskaźnik Pine Script®

Zaktualizowano

Kawabunga Swing Failure Points Candles (SFP) by RRB Kawabunga Swing Failure Points Candles (SFP) by RagingRocketBull 2019 Version 1.0 This indicator shows Swing Failure Points (SFP) and Swing Confirmation Points (SCP) as candles on a chart. SFP/SCP candles are used by traders as signals for trend confirmation/possible reversal. The signal is stronger on a higher volume/larger candle size. A Swing Failure Point (SFP) candle is used to spot a reversal: - up trend SFP is a failure to close above prev high after making a new higher high => implies reversal down - down trend SFP is a failure to close below prev low after making a new lower low => implies reversal up A Swing Confirmation Point (SCP) candle is just the opposite and is used to confirm the current trend: - up trend SCP is a successful close above prev high after making a new higher high => confirms the trend and implies continuation up - down trend SCP is a successful close below prev low after making a new lower low => confirms the trend and implies continuation down Features: - uses fractal pivots with optional filter - show/hide SFP/SCP candles, pivots, zigzag, last min/max pivot bands - dim lag zones/hide false signals introduced by lagging fractals or - use unconfirmed pivots to eliminate fractal lag/false signals. 2 modes: fractals 1,1 and highest/lowest - filter only SFP/SCP candles confirmed with volume/candle size - SFP/SCP candles color highlighting, dim non-important bars Usage: - adjust fractal settings to get pivots that best match your data (lower values => more frequent pivots. 0,0 - each candle is a pivot) - use one of the unconfirmed pivot modes to eliminate false signals or just ignore all signals in the gray lag zones - optionally filter only SFP/SCP candles with large volume/candle size (volume % change relative to prev bar, abs candle body size value) - up/down trend SCP (lime/fuchsia) => continuation up/down; up/down trend SFP (orange/aqua) => possible reversal down/up. lime/aqua => up; fuchsia/orange => down. - when in doubt use show/hide pivots/unconfirmed pivots, min/max pivot bands to see which prev pivot and min/max value were used in comparisons to generate a signal on the following candle. - disable offset to check on which bar the signal was generated Notes: Fractal Pivots: - SFP/SCP candles depend on fractal pivots, you will get different signals with different pivot settings. Usually 4,4 or 2,2 settings are used to produce fractal pivots, but you can try custom values that fit your data best. - fractal pivots are a mixed series of highs and lows in no particular order. Pivots must be filtered to produce a proper zigzag where ideally a high is followed by a low and another high in orderly fashion. Fractal Lag/False Signals: - only past fractal pivots can be processed on the current bar introducing a lag, therefore, pivots and min/max pivot bands are shown with offset=-rightBars to match their target bars. For unconfirmed pivots an offset=-1 is used with a lag of just 1 bar. - new pivot is not a confirmed fractal and "does not exist yet" while the distance between it and the current bar is < rightBars => prev old fractal pivot in the same dir is used for comparisons => gives a false signal for that dir - to show false signals enable lag zones. SFP/SCP candles in lag zones are false. New pivots will be eventually confirmed, but meanwhile you get a false signal because prev pivot in the same dir was used instead. - to solve this problem you can either temporary hide false signals or completely eliminate them by using unconfirmed pivots of a smaller degree/lag. - hiding false signals only works for history and should be used only temporary (left disabled). In realtime/replay mode it disables all signals altogether due to TradingView's bug (barcolor doesn't support negative offsets) Unconfirmed Pivots: - you have 2 methods to check for unconfirmed pivots: highest/lowest(rightBars) or fractals(1,1) with a min possible step. The first is essentially fractals(0,0) where each candle is a pivot. Both produce more frequent pivots (weaker signals). - an unconfirmed pivot is used in comparisons to generate a valid signal only when it is a higher high (> max high) or a lower low (< min low) in the dir of a trend. Confirmed pivots of a higher degree are not affected. Zigzag is not affected. - you can also manually disable the offset to check on which bar the pivot was confirmed. If the pivot just before an SCP/SFP suddenly jumps ahead of it - prev pivot was used, generating a false signal. - last max high/min low bands can be used to check which value was used in candle comparison to generate a signal: min(pivot min_low, upivot min_low) and max(pivot max_high, upivot max_high) are used - in the unconfirmed pivots mode the max high/min low pivot bands partially break because you can't have a variable offset to match the random pos of an unconfirmed pivot (anywhere in 0..rightBars from the current bar) to its target bar. - in the unconfirmed pivots mode h (green) and l (red) pivots become H and L, and h (lime) and l (fuchsia) are used to show unconfirmed pivots of a smaller degree. Some of them will be confirmed later as H and L pivots of a higher degree. Pivot Filter: - pivot filter is used to produce a better looking zigzag. Essentially it keeps only higher highs/lower lows in the trend direction until it changes, skipping: - after a new high: all subsequent lower highs until a new low - after a new low: all subsequent higher lows until a new high - you can't filter out all prev highs/lows to keep just the last min/max pivots of the current swing because they were already confirmed as pivots and you can't delete/change history - alternatively you could just pick the first high following a low and the first low following a high in a sequence and ignore the rest of the pivots in the same dir, producing a crude looking zigzag where obvious max high/min lows are ignored. - pivot filter affects SCP/SFP signals because it skips some pivots - pivot filter is not applied to/not affected by the unconfirmed pivots - zigzag is affected by pivot filter, but not by the unconfirmed pivots. You can't have both high/low on the same bar in a zigzag. High has priority over Low. - keep same bar pivots option lets you choose which pivots to keep when there are both high/low pivots on the same bar (both kept by default) SCP/SFP Filters: - you can confirm/filter only SCP/SFP signals with volume % change/candle size larger than delta. Higher volume/larger candle means stronger signal. - technically SCP/SFP is always the first matching candle, but it can be invalidated by the following signal in the opposite dir which in turn can be negated by the next signal. - show first matching SCP/SFP = true - shows only the first signal candle (and any invalidations that follow) and hides further duplicate signals in the same dir, does not highlight the trend. - show first matching SCP/SFP = false - produces a sequence of candles with duplicate signals, highlights the whole trend until its dir changes (new pivot). Good Luck! Feel free to learn from/reuse the code to build your own indicators!

Wskaźnik Pine Script®

od RagingRocketBull

Zaktualizowano

Dynamic Equity Allocation Model "Cash is Trash"? Not Always. Here's Why Science Beats Guesswork. Every retail trader knows the frustration: you draw support and resistance lines, you spot patterns, you follow market gurus on social media—and still, when the next bear market hits, your portfolio bleeds red. Meanwhile, institutional investors seem to navigate market turbulence with ease, preserving capital when markets crash and participating when they rally. What's their secret? The answer isn't insider information or access to exotic derivatives. It's systematic, scientifically validated decision-making. While most retail traders rely on subjective chart analysis and emotional reactions, professional portfolio managers use quantitative models that remove emotion from the equation and process multiple streams of market information simultaneously. This document presents exactly such a system—not a proprietary black box available only to hedge funds, but a fully transparent, academically grounded framework that any serious investor can understand and apply. The Dynamic Equity Allocation Model (DEAM) synthesizes decades of financial research from Nobel laureates and leading academics into a practical tool for tactical asset allocation. Stop drawing colorful lines on your chart and start thinking like a quant. This isn't about predicting where the market goes next week—it's about systematically adjusting your risk exposure based on what the data actually tells you. When valuations scream danger, when volatility spikes, when credit markets freeze, when multiple warning signals align—that's when cash isn't trash. That's when cash saves your portfolio. The irony of "cash is trash" rhetoric is that it ignores timing. Yes, being 100% cash for decades would be disastrous. But being 100% equities through every crisis is equally foolish. The sophisticated approach is dynamic: aggressive when conditions favor risk-taking, defensive when they don't. This model shows you how to make that decision systematically, not emotionally. Whether you're managing your own retirement portfolio or seeking to understand how institutional allocation strategies work, this comprehensive analysis provides the theoretical foundation, mathematical implementation, and practical guidance to elevate your investment approach from amateur to professional. The choice is yours: keep hoping your chart patterns work out, or start using the same quantitative methods that professionals rely on. The tools are here. The research is cited. The methodology is explained. All you need to do is read, understand, and apply. The Dynamic Equity Allocation Model (DEAM) is a quantitative framework for systematic allocation between equities and cash, grounded in modern portfolio theory and empirical market research. The model integrates five scientifically validated dimensions of market analysis—market regime, risk metrics, valuation, sentiment, and macroeconomic conditions—to generate dynamic allocation recommendations ranging from 0% to 100% equity exposure. This work documents the theoretical foundations, mathematical implementation, and practical application of this multi-factor approach. 1. Introduction and Theoretical Background 1.1 The Limitations of Static Portfolio Allocation Traditional portfolio theory, as formulated by Markowitz (1952) in his seminal work "Portfolio Selection," assumes an optimal static allocation where investors distribute their wealth across asset classes according to their risk aversion. This approach rests on the assumption that returns and risks remain constant over time. However, empirical research demonstrates that this assumption does not hold in reality. Fama and French (1989) showed that expected returns vary over time and correlate with macroeconomic variables such as the spread between long-term and short-term interest rates. Campbell and Shiller (1988) demonstrated that the price-earnings ratio possesses predictive power for future stock returns, providing a foundation for dynamic allocation strategies. The academic literature on tactical asset allocation has evolved considerably over recent decades. Ilmanen (2011) argues in "Expected Returns" that investors can improve their risk-adjusted returns by considering valuation levels, business cycles, and market sentiment. The Dynamic Equity Allocation Model presented here builds on this research tradition and operationalizes these insights into a practically applicable allocation framework. 1.2 Multi-Factor Approaches in Asset Allocation Modern financial research has shown that different factors capture distinct aspects of market dynamics and together provide a more robust picture of market conditions than individual indicators. Ross (1976) developed the Arbitrage Pricing Theory, a model that employs multiple factors to explain security returns. Following this multi-factor philosophy, DEAM integrates five complementary analytical dimensions, each tapping different information sources and collectively enabling comprehensive market understanding. 2. Data Foundation and Data Quality 2.1 Data Sources Used The model draws its data exclusively from publicly available market data via the TradingView platform. This transparency and accessibility is a significant advantage over proprietary models that rely on non-public data. The data foundation encompasses several categories of market information, each capturing specific aspects of market dynamics. First, price data for the S&P 500 Index is obtained through the SPDR S&P 500 ETF (ticker: SPY). The use of a highly liquid ETF instead of the index itself has practical reasons, as ETF data is available in real-time and reflects actual tradability. In addition to closing prices, high, low, and volume data are captured, which are required for calculating advanced volatility measures. Fundamental corporate metrics are retrieved via TradingView's Financial Data API. These include earnings per share, price-to-earnings ratio, return on equity, debt-to-equity ratio, dividend yield, and share buyback yield. Cochrane (2011) emphasizes in "Presidential Address: Discount Rates" the central importance of valuation metrics for forecasting future returns, making these fundamental data a cornerstone of the model. Volatility indicators are represented by the CBOE Volatility Index (VIX) and related metrics. The VIX, often referred to as the market's "fear gauge," measures the implied volatility of S&P 500 index options and serves as a proxy for market participants' risk perception. Whaley (2000) describes in "The Investor Fear Gauge" the construction and interpretation of the VIX and its use as a sentiment indicator. Macroeconomic data includes yield curve information through US Treasury bonds of various maturities and credit risk premiums through the spread between high-yield bonds and risk-free government bonds. These variables capture the macroeconomic conditions and financing conditions relevant for equity valuation. Estrella and Hardouvelis (1991) showed that the shape of the yield curve has predictive power for future economic activity, justifying the inclusion of these data. 2.2 Handling Missing Data A practical problem when working with financial data is dealing with missing or unavailable values. The model implements a fallback system where a plausible historical average value is stored for each fundamental metric. When current data is unavailable for a specific point in time, this fallback value is used. This approach ensures that the model remains functional even during temporary data outages and avoids systematic biases from missing data. The use of average values as fallback is conservative, as it generates neither overly optimistic nor pessimistic signals. 3. Component 1: Market Regime Detection 3.1 The Concept of Market Regimes The idea that financial markets exist in different "regimes" or states that differ in their statistical properties has a long tradition in financial science. Hamilton (1989) developed regime-switching models that allow distinguishing between different market states with different return and volatility characteristics. The practical application of this theory consists of identifying the current market state and adjusting portfolio allocation accordingly. DEAM classifies market regimes using a scoring system that considers three main dimensions: trend strength, volatility level, and drawdown depth. This multidimensional view is more robust than focusing on individual indicators, as it captures various facets of market dynamics. Classification occurs into six distinct regimes: Strong Bull, Bull Market, Neutral, Correction, Bear Market, and Crisis. 3.2 Trend Analysis Through Moving Averages Moving averages are among the oldest and most widely used technical indicators and have also received attention in academic literature. Brock, Lakonishok, and LeBaron (1992) examined in "Simple Technical Trading Rules and the Stochastic Properties of Stock Returns" the profitability of trading rules based on moving averages and found evidence for their predictive power, although later studies questioned the robustness of these results when considering transaction costs. The model calculates three moving averages with different time windows: a 20-day average (approximately one trading month), a 50-day average (approximately one quarter), and a 200-day average (approximately one trading year). The relationship of the current price to these averages and the relationship of the averages to each other provide information about trend strength and direction. When the price trades above all three averages and the short-term average is above the long-term, this indicates an established uptrend. The model assigns points based on these constellations, with longer-term trends weighted more heavily as they are considered more persistent. 3.3 Volatility Regimes Volatility, understood as the standard deviation of returns, is a central concept of financial theory and serves as the primary risk measure. However, research has shown that volatility is not constant but changes over time and occurs in clusters—a phenomenon first documented by Mandelbrot (1963) and later formalized through ARCH and GARCH models (Engle, 1982; Bollerslev, 1986). DEAM calculates volatility not only through the classic method of return standard deviation but also uses more advanced estimators such as the Parkinson estimator and the Garman-Klass estimator. These methods utilize intraday information (high and low prices) and are more efficient than simple close-to-close volatility estimators. The Parkinson estimator (Parkinson, 1980) uses the range between high and low of a trading day and is based on the recognition that this information reveals more about true volatility than just the closing price difference. The Garman-Klass estimator (Garman and Klass, 1980) extends this approach by additionally considering opening and closing prices. The calculated volatility is annualized by multiplying it by the square root of 252 (the average number of trading days per year), enabling standardized comparability. The model compares current volatility with the VIX, the implied volatility from option prices. A low VIX (below 15) signals market comfort and increases the regime score, while a high VIX (above 35) indicates market stress and reduces the score. This interpretation follows the empirical observation that elevated volatility is typically associated with falling markets (Schwert, 1989). 3.4 Drawdown Analysis A drawdown refers to the percentage decline from the highest point (peak) to the lowest point (trough) during a specific period. This metric is psychologically significant for investors as it represents the maximum loss experienced. Calmar (1991) developed the Calmar Ratio, which relates return to maximum drawdown, underscoring the practical relevance of this metric. The model calculates current drawdown as the percentage distance from the highest price of the last 252 trading days (one year). A drawdown below 3% is considered negligible and maximally increases the regime score. As drawdown increases, the score decreases progressively, with drawdowns above 20% classified as severe and indicating a crisis or bear market regime. These thresholds are empirically motivated by historical market cycles, in which corrections typically encompassed 5-10% drawdowns, bear markets 20-30%, and crises over 30%. 3.5 Regime Classification Final regime classification occurs through aggregation of scores from trend (40% weight), volatility (30%), and drawdown (30%). The higher weighting of trend reflects the empirical observation that trend-following strategies have historically delivered robust results (Moskowitz, Ooi, and Pedersen, 2012). A total score above 80 signals a strong bull market with established uptrend, low volatility, and minimal losses. At a score below 10, a crisis situation exists requiring defensive positioning. The six regime categories enable a differentiated allocation strategy that not only distinguishes binarily between bullish and bearish but allows gradual gradations. 4. Component 2: Risk-Based Allocation 4.1 Volatility Targeting as Risk Management Approach The concept of volatility targeting is based on the idea that investors should maximize not returns but risk-adjusted returns. Sharpe (1966, 1994) defined with the Sharpe Ratio the fundamental concept of return per unit of risk, measured as volatility. Volatility targeting goes a step further and adjusts portfolio allocation to achieve constant target volatility. This means that in times of low market volatility, equity allocation is increased, and in times of high volatility, it is reduced. Moreira and Muir (2017) showed in "Volatility-Managed Portfolios" that strategies that adjust their exposure based on volatility forecasts achieve higher Sharpe Ratios than passive buy-and-hold strategies. DEAM implements this principle by defining a target portfolio volatility (default 12% annualized) and adjusting equity allocation to achieve it. The mathematical foundation is simple: if market volatility is 20% and target volatility is 12%, equity allocation should be 60% (12/20 = 0.6), with the remaining 40% held in cash with zero volatility. 4.2 Market Volatility Calculation Estimating current market volatility is central to the risk-based allocation approach. The model uses several volatility estimators in parallel and selects the higher value between traditional close-to-close volatility and the Parkinson estimator. This conservative choice ensures the model does not underestimate true volatility, which could lead to excessive risk exposure. Traditional volatility calculation uses logarithmic returns, as these have mathematically advantageous properties (additive linkage over multiple periods). The logarithmic return is calculated as ln(P_t / P_{t-1}), where P_t is the price at time t. The standard deviation of these returns over a rolling 20-trading-day window is then multiplied by √252 to obtain annualized volatility. This annualization is based on the assumption of independently identically distributed returns, which is an idealization but widely accepted in practice. The Parkinson estimator uses additional information from the trading range (High minus Low) of each day. The formula is: σ_P = (1/√(4ln2)) × √(1/n × Σln²(H_i/L_i)) × √252, where H_i and L_i are high and low prices. Under ideal conditions, this estimator is approximately five times more efficient than the close-to-close estimator (Parkinson, 1980), as it uses more information per observation. 4.3 Drawdown-Based Position Size Adjustment In addition to volatility targeting, the model implements drawdown-based risk control. The logic is that deep market declines often signal further losses and therefore justify exposure reduction. This behavior corresponds with the concept of path-dependent risk tolerance: investors who have already suffered losses are typically less willing to take additional risk (Kahneman and Tversky, 1979). The model defines a maximum portfolio drawdown as a target parameter (default 15%). Since portfolio volatility and portfolio drawdown are proportional to equity allocation (assuming cash has neither volatility nor drawdown), allocation-based control is possible. For example, if the market exhibits a 25% drawdown and target portfolio drawdown is 15%, equity allocation should be at most 60% (15/25). 4.4 Dynamic Risk Adjustment An advanced feature of DEAM is dynamic adjustment of risk-based allocation through a feedback mechanism. The model continuously estimates what actual portfolio volatility and portfolio drawdown would result at the current allocation. If risk utilization (ratio of actual to target risk) exceeds 1.0, allocation is reduced by an adjustment factor that grows exponentially with overutilization. This implements a form of dynamic feedback that avoids overexposure. Mathematically, a risk adjustment factor r_adjust is calculated: if risk utilization u > 1, then r_adjust = exp(-0.5 × (u - 1)). This exponential function ensures that moderate overutilization is gently corrected, while strong overutilization triggers drastic reductions. The factor 0.5 in the exponent was empirically calibrated to achieve a balanced ratio between sensitivity and stability. 5. Component 3: Valuation Analysis 5.1 Theoretical Foundations of Fundamental Valuation DEAM's valuation component is based on the fundamental premise that the intrinsic value of a security is determined by its future cash flows and that deviations between market price and intrinsic value are eventually corrected. Graham and Dodd (1934) established in "Security Analysis" the basic principles of fundamental analysis that remain relevant today. Translated into modern portfolio context, this means that markets with high valuation metrics (high price-earnings ratios) should have lower expected returns than cheaply valued markets. Campbell and Shiller (1988) developed the Cyclically Adjusted P/E Ratio (CAPE), which smooths earnings over a full business cycle. Their empirical analysis showed that this ratio has significant predictive power for 10-year returns. Asness, Moskowitz, and Pedersen (2013) demonstrated in "Value and Momentum Everywhere" that value effects exist not only in individual stocks but also in asset classes and markets. 5.2 Equity Risk Premium as Central Valuation Metric The Equity Risk Premium (ERP) is defined as the expected excess return of stocks over risk-free government bonds. It is the theoretical heart of valuation analysis, as it represents the compensation investors demand for bearing equity risk. Damodaran (2012) discusses in "Equity Risk Premiums: Determinants, Estimation and Implications" various methods for ERP estimation. DEAM calculates ERP not through a single method but combines four complementary approaches with different weights. This multi-method strategy increases estimation robustness and avoids dependence on single, potentially erroneous inputs. The first method (35% weight) uses earnings yield, calculated as 1/P/E or directly from operating earnings data, and subtracts the 10-year Treasury yield. This method follows Fed Model logic (Yardeni, 2003), although this model has theoretical weaknesses as it does not consistently treat inflation (Asness, 2003). The second method (30% weight) extends earnings yield by share buyback yield. Share buybacks are a form of capital return to shareholders and increase value per share. Boudoukh et al. (2007) showed in "The Total Shareholder Yield" that the sum of dividend yield and buyback yield is a better predictor of future returns than dividend yield alone. The third method (20% weight) implements the Gordon Growth Model (Gordon, 1962), which models stock value as the sum of discounted future dividends. Under constant growth g assumption: Expected Return = Dividend Yield + g. The model estimates sustainable growth as g = ROE × (1 - Payout Ratio), where ROE is return on equity and payout ratio is the ratio of dividends to earnings. This formula follows from equity theory: unretained earnings are reinvested at ROE and generate additional earnings growth. The fourth method (15% weight) combines total shareholder yield (Dividend + Buybacks) with implied growth derived from revenue growth. This method considers that companies with strong revenue growth should generate higher future earnings, even if current valuations do not yet fully reflect this. The final ERP is the weighted average of these four methods. A high ERP (above 4%) signals attractive valuations and increases the valuation score to 95 out of 100 possible points. A negative ERP, where stocks have lower expected returns than bonds, results in a minimal score of 10. 5.3 Quality Adjustments to Valuation Valuation metrics alone can be misleading if not interpreted in the context of company quality. A company with a low P/E may be cheap or fundamentally problematic. The model therefore implements quality adjustments based on growth, profitability, and capital structure. Revenue growth above 10% annually adds 10 points to the valuation score, moderate growth above 5% adds 5 points. This adjustment reflects that growth has independent value (Modigliani and Miller, 1961, extended by later growth theory). Net margin above 15% signals pricing power and operational efficiency and increases the score by 5 points, while low margins below 8% indicate competitive pressure and subtract 5 points. Return on equity (ROE) above 20% characterizes outstanding capital efficiency and increases the score by 5 points. Piotroski (2000) showed in "Value Investing: The Use of Historical Financial Statement Information" that fundamental quality signals such as high ROE can improve the performance of value strategies. Capital structure is evaluated through the debt-to-equity ratio. A conservative ratio below 1.0 multiplies the valuation score by 1.2, while high leverage above 2.0 applies a multiplier of 0.8. This adjustment reflects that high debt constrains financial flexibility and can become problematic in crisis times (Korteweg, 2010). 6. Component 4: Sentiment Analysis 6.1 The Role of Sentiment in Financial Markets Investor sentiment, defined as the collective psychological attitude of market participants, influences asset prices independently of fundamental data. Baker and Wurgler (2006, 2007) developed a sentiment index and showed that periods of high sentiment are followed by overvaluations that later correct. This insight justifies integrating a sentiment component into allocation decisions. Sentiment is difficult to measure directly but can be proxied through market indicators. The VIX is the most widely used sentiment indicator, as it aggregates implied volatility from option prices. High VIX values reflect elevated uncertainty and risk aversion, while low values signal market comfort. Whaley (2009) refers to the VIX as the "Investor Fear Gauge" and documents its role as a contrarian indicator: extremely high values typically occur at market bottoms, while low values occur at tops. 6.2 VIX-Based Sentiment Assessment DEAM uses statistical normalization of the VIX by calculating the Z-score: z = (VIX_current - VIX_average) / VIX_standard_deviation. The Z-score indicates how many standard deviations the current VIX is from the historical average. This approach is more robust than absolute thresholds, as it adapts to the average volatility level, which can vary over longer periods. A Z-score below -1.5 (VIX is 1.5 standard deviations below average) signals exceptionally low risk perception and adds 40 points to the sentiment score. This may seem counterintuitive—shouldn't low fear be bullish? However, the logic follows the contrarian principle: when no one is afraid, everyone is already invested, and there is limited further upside potential (Zweig, 1973). Conversely, a Z-score above 1.5 (extreme fear) adds -40 points, reflecting market panic but simultaneously suggesting potential buying opportunities. 6.3 VIX Term Structure as Sentiment Signal The VIX term structure provides additional sentiment information. Normally, the VIX trades in contango, meaning longer-term VIX futures have higher prices than short-term. This reflects that short-term volatility is currently known, while long-term volatility is more uncertain and carries a risk premium. The model compares the VIX with VIX9D (9-day volatility) and identifies backwardation (VIX > 1.05 × VIX9D) and steep backwardation (VIX > 1.15 × VIX9D). Backwardation occurs when short-term implied volatility is higher than longer-term, which typically happens during market stress. Investors anticipate immediate turbulence but expect calming. Psychologically, this reflects acute fear. The model subtracts 15 points for backwardation and 30 for steep backwardation, as these constellations signal elevated risk. Simon and Wiggins (2001) analyzed the VIX futures curve and showed that backwardation is associated with market declines. 6.4 Safe-Haven Flows During crisis times, investors flee from risky assets into safe havens: gold, US dollar, and Japanese yen. This "flight to quality" is a sentiment signal. The model calculates the performance of these assets relative to stocks over the last 20 trading days. When gold or the dollar strongly rise while stocks fall, this indicates elevated risk aversion. The safe-haven component is calculated as the difference between safe-haven performance and stock performance. Positive values (safe havens outperform) subtract up to 20 points from the sentiment score, negative values (stocks outperform) add up to 10 points. The asymmetric treatment (larger deduction for risk-off than bonus for risk-on) reflects that risk-off movements are typically sharper and more informative than risk-on phases. Baur and Lucey (2010) examined safe-haven properties of gold and showed that gold indeed exhibits negative correlation with stocks during extreme market movements, confirming its role as crisis protection. 7. Component 5: Macroeconomic Analysis 7.1 The Yield Curve as Economic Indicator The yield curve, represented as yields of government bonds of various maturities, contains aggregated expectations about future interest rates, inflation, and economic growth. The slope of the yield curve has remarkable predictive power for recessions. Estrella and Mishkin (1998) showed that an inverted yield curve (short-term rates higher than long-term) predicts recessions with high reliability. This is because inverted curves reflect restrictive monetary policy: the central bank raises short-term rates to combat inflation, dampening economic activity. DEAM calculates two spread measures: the 2-year-minus-10-year spread and the 3-month-minus-10-year spread. A steep, positive curve (spreads above 1.5% and 2% respectively) signals healthy growth expectations and generates the maximum yield curve score of 40 points. A flat curve (spreads near zero) reduces the score to 20 points. An inverted curve (negative spreads) is particularly alarming and results in only 10 points. The choice of two different spreads increases analysis robustness. The 2-10 spread is most established in academic literature, while the 3M-10Y spread is often considered more sensitive, as the 3-month rate directly reflects current monetary policy (Ang, Piazzesi, and Wei, 2006). 7.2 Credit Conditions and Spreads Credit spreads—the yield difference between risky corporate bonds and safe government bonds—reflect risk perception in the credit market. Gilchrist and Zakrajšek (2012) constructed an "Excess Bond Premium" that measures the component of credit spreads not explained by fundamentals and showed this is a predictor of future economic activity and stock returns. The model approximates credit spread by comparing the yield of high-yield bond ETFs (HYG) with investment-grade bond ETFs (LQD). A narrow spread below 200 basis points signals healthy credit conditions and risk appetite, contributing 30 points to the macro score. Very wide spreads above 1000 basis points (as during the 2008 financial crisis) signal credit crunch and generate zero points. Additionally, the model evaluates whether "flight to quality" is occurring, identified through strong performance of Treasury bonds (TLT) with simultaneous weakness in high-yield bonds. This constellation indicates elevated risk aversion and reduces the credit conditions score. 7.3 Financial Stability at Corporate Level While the yield curve and credit spreads reflect macroeconomic conditions, financial stability evaluates the health of companies themselves. The model uses the aggregated debt-to-equity ratio and return on equity of the S&P 500 as proxies for corporate health. A low leverage level below 0.5 combined with high ROE above 15% signals robust corporate balance sheets and generates 20 points. This combination is particularly valuable as it represents both defensive strength (low debt means crisis resistance) and offensive strength (high ROE means earnings power). High leverage above 1.5 generates only 5 points, as it implies vulnerability to interest rate increases and recessions. Korteweg (2010) showed in "The Net Benefits to Leverage" that optimal debt maximizes firm value, but excessive debt increases distress costs. At the aggregated market level, high debt indicates fragilities that can become problematic during stress phases. 8. Component 6: Crisis Detection 8.1 The Need for Systematic Crisis Detection Financial crises are rare but extremely impactful events that suspend normal statistical relationships. During normal market volatility, diversified portfolios and traditional risk management approaches function, but during systemic crises, seemingly independent assets suddenly correlate strongly, and losses exceed historical expectations (Longin and Solnik, 2001). This justifies a separate crisis detection mechanism that operates independently of regular allocation components. Reinhart and Rogoff (2009) documented in "This Time Is Different: Eight Centuries of Financial Folly" recurring patterns in financial crises: extreme volatility, massive drawdowns, credit market dysfunction, and asset price collapse. DEAM operationalizes these patterns into quantifiable crisis indicators. 8.2 Multi-Signal Crisis Identification The model uses a counter-based approach where various stress signals are identified and aggregated. This methodology is more robust than relying on a single indicator, as true crises typically occur simultaneously across multiple dimensions. A single signal may be a false alarm, but the simultaneous presence of multiple signals increases confidence. The first indicator is a VIX above the crisis threshold (default 40), adding one point. A VIX above 60 (as in 2008 and March 2020) adds two additional points, as such extreme values are historically very rare. This tiered approach captures the intensity of volatility. The second indicator is market drawdown. A drawdown above 15% adds one point, as corrections of this magnitude can be potential harbingers of larger crises. A drawdown above 25% adds another point, as historical bear markets typically encompass 25-40% drawdowns. The third indicator is credit market spreads above 500 basis points, adding one point. Such wide spreads occur only during significant credit market disruptions, as in 2008 during the Lehman crisis. The fourth indicator identifies simultaneous losses in stocks and bonds. Normally, Treasury bonds act as a hedge against equity risk (negative correlation), but when both fall simultaneously, this indicates systemic liquidity problems or inflation/stagflation fears. The model checks whether both SPY and TLT have fallen more than 10% and 5% respectively over 5 trading days, adding two points. The fifth indicator is a volume spike combined with negative returns. Extreme trading volumes (above twice the 20-day average) with falling prices signal panic selling. This adds one point. A crisis situation is diagnosed when at least 3 indicators trigger, a severe crisis at 5 or more indicators. These thresholds were calibrated through historical backtesting to identify true crises (2008, 2020) without generating excessive false alarms. 8.3 Crisis-Based Allocation Override When a crisis is detected, the system overrides the normal allocation recommendation and caps equity allocation at maximum 25%. In a severe crisis, the cap is set at 10%. This drastic defensive posture follows the empirical observation that crises typically require time to develop and that early reduction can avoid substantial losses (Faber, 2007). This override logic implements a "safety first" principle: in situations of existential danger to the portfolio, capital preservation becomes the top priority. Roy (1952) formalized this approach in "Safety First and the Holding of Assets," arguing that investors should primarily minimize ruin probability. 9. Integration and Final Allocation Calculation 9.1 Component Weighting The final allocation recommendation emerges through weighted aggregation of the five components. The standard weighting is: Market Regime 35%, Risk Management 25%, Valuation 20%, Sentiment 15%, Macro 5%. These weights reflect both theoretical considerations and empirical backtesting results. The highest weighting of market regime is based on evidence that trend-following and momentum strategies have delivered robust results across various asset classes and time periods (Moskowitz, Ooi, and Pedersen, 2012). Current market momentum is highly informative for the near future, although it provides no information about long-term expectations. The substantial weighting of risk management (25%) follows from the central importance of risk control. Wealth preservation is the foundation of long-term wealth creation, and systematic risk management is demonstrably value-creating (Moreira and Muir, 2017). The valuation component receives 20% weight, based on the long-term mean reversion of valuation metrics. While valuation has limited short-term predictive power (bull and bear markets can begin at any valuation), the long-term relationship between valuation and returns is robustly documented (Campbell and Shiller, 1988). Sentiment (15%) and Macro (5%) receive lower weights, as these factors are subtler and harder to measure. Sentiment is valuable as a contrarian indicator at extremes but less informative in normal ranges. Macro variables such as the yield curve have strong predictive power for recessions, but the transmission from recessions to stock market performance is complex and temporally variable. 9.2 Model Type Adjustments DEAM allows users to choose between four model types: Conservative, Balanced, Aggressive, and Adaptive. This choice modifies the final allocation through additive adjustments. Conservative mode subtracts 10 percentage points from allocation, resulting in consistently more cautious positioning. This is suitable for risk-averse investors or those with limited investment horizons. Aggressive mode adds 10 percentage points, suitable for risk-tolerant investors with long horizons. Adaptive mode implements procyclical adjustment based on short-term momentum: if the market has risen more than 5% in the last 20 days, 5 percentage points are added; if it has declined more than 5%, 5 points are subtracted. This logic follows the observation that short-term momentum persists (Jegadeesh and Titman, 1993), but the moderate size of adjustment avoids excessive timing bets. Balanced mode makes no adjustment and uses raw model output. This neutral setting is suitable for investors who wish to trust model recommendations unchanged. 9.3 Smoothing and Stability The allocation resulting from aggregation undergoes final smoothing through a simple moving average over 3 periods. This smoothing is crucial for model practicality, as it reduces frequent trading and thus transaction costs. Without smoothing, the model could fluctuate between adjacent allocations with every small input change. The choice of 3 periods as smoothing window is a compromise between responsiveness and stability. Longer smoothing would excessively delay signals and impede response to true regime changes. Shorter or no smoothing would allow too much noise. Empirical tests showed that 3-period smoothing offers an optimal ratio between these goals. 10. Visualization and Interpretation 10.1 Main Output: Equity Allocation DEAM's primary output is a time series from 0 to 100 representing the recommended percentage allocation to equities. This representation is intuitive: 100% means full investment in stocks (specifically: an S&P 500 ETF), 0% means complete cash position, and intermediate values correspond to mixed portfolios. A value of 60% means, for example: invest 60% of wealth in SPY, hold 40% in money market instruments or cash. The time series is color-coded to enable quick visual interpretation. Green shades represent high allocations (above 80%, bullish), red shades low allocations (below 20%, bearish), and neutral colors middle allocations. The chart background is dynamically colored based on the signal, enhancing readability in different market phases. 10.2 Dashboard Metrics A tabular dashboard presents key metrics compactly. This includes current allocation, cash allocation (complement), an aggregated signal (BULLISH/NEUTRAL/BEARISH), current market regime, VIX level, market drawdown, and crisis status. Additionally, fundamental metrics are displayed: P/E Ratio, Equity Risk Premium, Return on Equity, Debt-to-Equity Ratio, and Total Shareholder Yield. This transparency allows users to understand model decisions and form their own assessments. Component scores (Regime, Risk, Valuation, Sentiment, Macro) are also displayed, each normalized on a 0-100 scale. This shows which factors primarily drive the current recommendation. If, for example, the Risk score is very low (20) while other scores are moderate (50-60), this indicates that risk management considerations are pulling allocation down. 10.3 Component Breakdown (Optional) Advanced users can display individual components as separate lines in the chart. This enables analysis of component dynamics: do all components move synchronously, or are there divergences? Divergences can be particularly informative. If, for example, the market regime is bullish (high score) but the valuation component is very negative, this signals an overbought market not fundamentally supported—a classic "bubble warning." This feature is disabled by default to keep the chart clean but can be activated for deeper analysis. 10.4 Confidence Bands The model optionally displays uncertainty bands around the main allocation line. These are calculated as ±1 standard deviation of allocation over a rolling 20-period window. Wide bands indicate high volatility of model recommendations, suggesting uncertain market conditions. Narrow bands indicate stable recommendations. This visualization implements a concept of epistemic uncertainty—uncertainty about the model estimate itself, not just market volatility. In phases where various indicators send conflicting signals, the allocation recommendation becomes more volatile, manifesting in wider bands. Users can understand this as a warning to act more cautiously or consult alternative information sources. 11. Alert System 11.1 Allocation Alerts DEAM implements an alert system that notifies users of significant events. Allocation alerts trigger when smoothed allocation crosses certain thresholds. An alert is generated when allocation reaches 80% (from below), signaling strong bullish conditions. Another alert triggers when allocation falls to 20%, indicating defensive positioning. These thresholds are not arbitrary but correspond with boundaries between model regimes. An allocation of 80% roughly corresponds to a clear bull market regime, while 20% corresponds to a bear market regime. Alerts at these points are therefore informative about fundamental regime shifts. 11.2 Crisis Alerts Separate alerts trigger upon detection of crisis and severe crisis. These alerts have highest priority as they signal large risks. A crisis alert should prompt investors to review their portfolio and potentially take defensive measures beyond the automatic model recommendation (e.g., hedging through put options, rebalancing to more defensive sectors). 11.3 Regime Change Alerts An alert triggers upon change of market regime (e.g., from Neutral to Correction, or from Bull Market to Strong Bull). Regime changes are highly informative events that typically entail substantial allocation changes. These alerts enable investors to proactively respond to changes in market dynamics. 11.4 Risk Breach Alerts A specialized alert triggers when actual portfolio risk utilization exceeds target parameters by 20%. This is a warning signal that the risk management system is reaching its limits, possibly because market volatility is rising faster than allocation can be reduced. In such situations, investors should consider manual interventions. 12. Practical Application and Limitations 12.1 Portfolio Implementation DEAM generates a recommendation for allocation between equities (S&P 500) and cash. Implementation by an investor can take various forms. The most direct method is using an S&P 500 ETF (e.g., SPY, VOO) for equity allocation and a money market fund or savings account for cash allocation. A rebalancing strategy is required to synchronize actual allocation with model recommendation. Two approaches are possible: (1) rule-based rebalancing at every 10% deviation between actual and target, or (2) time-based monthly rebalancing. Both have trade-offs between responsiveness and transaction costs. Empirical evidence (Jaconetti, Kinniry, and Zilbering, 2010) suggests rebalancing frequency has moderate impact on performance, and investors should optimize based on their transaction costs. 12.2 Adaptation to Individual Preferences The model offers numerous adjustment parameters. Component weights can be modified if investors place more or less belief in certain factors. A fundamentally-oriented investor might increase valuation weight, while a technical trader might increase regime weight. Risk target parameters (target volatility, max drawdown) should be adapted to individual risk tolerance. Younger investors with long investment horizons can choose higher target volatility (15-18%), while retirees may prefer lower volatility (8-10%). This adjustment systematically shifts average equity allocation. Crisis thresholds can be adjusted based on preference for sensitivity versus specificity of crisis detection. Lower thresholds (e.g., VIX > 35 instead of 40) increase sensitivity (more crises are detected) but reduce specificity (more false alarms). Higher thresholds have the reverse effect. 12.3 Limitations and Disclaimers DEAM is based on historical relationships between indicators and market performance. There is no guarantee these relationships will persist in the future. Structural changes in markets (e.g., through regulation, technology, or central bank policy) can break established patterns. This is the fundamental problem of induction in financial science (Taleb, 2007). The model is optimized for US equities (S&P 500). Application to other markets (international stocks, bonds, commodities) would require recalibration. The indicators and thresholds are specific to the statistical properties of the US equity market. The model cannot eliminate losses. Even with perfect crisis prediction, an investor following the model would lose money in bear markets—just less than a buy-and-hold investor. The goal is risk-adjusted performance improvement, not risk elimination. Transaction costs are not modeled. In practice, spreads, commissions, and taxes reduce net returns. Frequent trading can cause substantial costs. Model smoothing helps minimize this, but users should consider their specific cost situation. The model reacts to information; it does not anticipate it. During sudden shocks (e.g., 9/11, COVID-19 lockdowns), the model can only react after price movements, not before. This limitation is inherent to all reactive systems. 12.4 Relationship to Other Strategies DEAM is a tactical asset allocation approach and should be viewed as a complement, not replacement, for strategic asset allocation. Brinson, Hood, and Beebower (1986) showed in their influential study "Determinants of Portfolio Performance" that strategic asset allocation (long-term policy allocation) explains the majority of portfolio performance, but this leaves room for tactical adjustments based on market timing. The model can be combined with value and momentum strategies at the individual stock level. While DEAM controls overall market exposure, within-equity decisions can be optimized through stock-picking models. This separation between strategic (market exposure) and tactical (stock selection) levels follows classical portfolio theory. The model does not replace diversification across asset classes. A complete portfolio should also include bonds, international stocks, real estate, and alternative investments. DEAM addresses only the US equity allocation decision within a broader portfolio. 13. Scientific Foundation and Evaluation 13.1 Theoretical Consistency DEAM's components are based on established financial theory and empirical evidence. The market regime component follows from regime-switching models (Hamilton, 1989) and trend-following literature. The risk management component implements volatility targeting (Moreira and Muir, 2017) and modern portfolio theory (Markowitz, 1952). The valuation component is based on discounted cash flow theory and empirical value research (Campbell and Shiller, 1988; Fama and French, 1992). The sentiment component integrates behavioral finance (Baker and Wurgler, 2006). The macro component uses established business cycle indicators (Estrella and Mishkin, 1998). This theoretical grounding distinguishes DEAM from purely data-mining-based approaches that identify patterns without causal theory. Theory-guided models have greater probability of functioning out-of-sample, as they are based on fundamental mechanisms, not random correlations (Lo and MacKinlay, 1990). 13.2 Empirical Validation While this document does not present detailed backtest analysis, it should be noted that rigorous validation of a tactical asset allocation model should include several elements: In-sample testing establishes whether the model functions at all in the data on which it was calibrated. Out-of-sample testing is crucial: the model should be tested in time periods not used for development. Walk-forward analysis, where the model is successively trained on rolling windows and tested in the next window, approximates real implementation. Performance metrics should be risk-adjusted. Pure return consideration is misleading, as higher returns often only compensate for higher risk. Sharpe Ratio, Sortino Ratio, Calmar Ratio, and Maximum Drawdown are relevant metrics. Comparison with benchmarks (Buy-and-Hold S&P 500, 60/40 Stock/Bond portfolio) contextualizes performance. Robustness checks test sensitivity to parameter variation. If the model only functions at specific parameter settings, this indicates overfitting. Robust models show consistent performance over a range of plausible parameters. 13.3 Comparison with Existing Literature DEAM fits into the broader literature on tactical asset allocation. Faber (2007) presented a simple momentum-based timing system that goes long when the market is above its 10-month average, otherwise cash. This simple system avoided large drawdowns in bear markets. DEAM can be understood as a sophistication of this approach that integrates multiple information sources. Ilmanen (2011) discusses various timing factors in "Expected Returns" and argues for multi-factor approaches. DEAM operationalizes this philosophy. Asness, Moskowitz, and Pedersen (2013) showed that value and momentum effects work across asset classes, justifying cross-asset application of regime and valuation signals. Ang (2014) emphasizes in "Asset Management: A Systematic Approach to Factor Investing" the importance of systematic, rule-based approaches over discretionary decisions. DEAM is fully systematic and eliminates emotional biases that plague individual investors (overconfidence, hindsight bias, loss aversion). References Ang, A. (2014) *Asset Management: A Systematic Approach to Factor Investing*. Oxford: Oxford University Press. Ang, A., Piazzesi, M. and Wei, M. (2006) 'What does the yield curve tell us about GDP growth?', *Journal of Econometrics*, 131(1-2), pp. 359-403. Asness, C.S. (2003) 'Fight the Fed Model', *The Journal of Portfolio Management*, 30(1), pp. 11-24. Asness, C.S., Moskowitz, T.J. and Pedersen, L.H. (2013) 'Value and Momentum Everywhere', *The Journal of Finance*, 68(3), pp. 929-985. Baker, M. and Wurgler, J. (2006) 'Investor Sentiment and the Cross-Section of Stock Returns', *The Journal of Finance*, 61(4), pp. 1645-1680. Baker, M. and Wurgler, J. (2007) 'Investor Sentiment in the Stock Market', *Journal of Economic Perspectives*, 21(2), pp. 129-152. Baur, D.G. and Lucey, B.M. (2010) 'Is Gold a Hedge or a Safe Haven? An Analysis of Stocks, Bonds and Gold', *Financial Review*, 45(2), pp. 217-229. Bollerslev, T. (1986) 'Generalized Autoregressive Conditional Heteroskedasticity', *Journal of Econometrics*, 31(3), pp. 307-327. Boudoukh, J., Michaely, R., Richardson, M. and Roberts, M.R. (2007) 'On the Importance of Measuring Payout Yield: Implications for Empirical Asset Pricing', *The Journal of Finance*, 62(2), pp. 877-915. Brinson, G.P., Hood, L.R. and Beebower, G.L. (1986) 'Determinants of Portfolio Performance', *Financial Analysts Journal*, 42(4), pp. 39-44. Brock, W., Lakonishok, J. and LeBaron, B. (1992) 'Simple Technical Trading Rules and the Stochastic Properties of Stock Returns', *The Journal of Finance*, 47(5), pp. 1731-1764. Calmar, T.W. (1991) 'The Calmar Ratio', *Futures*, October issue. Campbell, J.Y. and Shiller, R.J. (1988) 'The Dividend-Price Ratio and Expectations of Future Dividends and Discount Factors', *Review of Financial Studies*, 1(3), pp. 195-228. Cochrane, J.H. (2011) 'Presidential Address: Discount Rates', *The Journal of Finance*, 66(4), pp. 1047-1108. Damodaran, A. (2012) *Equity Risk Premiums: Determinants, Estimation and Implications*. Working Paper, Stern School of Business. Engle, R.F. (1982) 'Autoregressive Conditional Heteroskedasticity with Estimates of the Variance of United Kingdom Inflation', *Econometrica*, 50(4), pp. 987-1007. Estrella, A. and Hardouvelis, G.A. (1991) 'The Term Structure as a Predictor of Real Economic Activity', *The Journal of Finance*, 46(2), pp. 555-576. Estrella, A. and Mishkin, F.S. (1998) 'Predicting U.S. Recessions: Financial Variables as Leading Indicators', *Review of Economics and Statistics*, 80(1), pp. 45-61. Faber, M.T. (2007) 'A Quantitative Approach to Tactical Asset Allocation', *The Journal of Wealth Management*, 9(4), pp. 69-79. Fama, E.F. and French, K.R. (1989) 'Business Conditions and Expected Returns on Stocks and Bonds', *Journal of Financial Economics*, 25(1), pp. 23-49. Fama, E.F. and French, K.R. (1992) 'The Cross-Section of Expected Stock Returns', *The Journal of Finance*, 47(2), pp. 427-465. Garman, M.B. and Klass, M.J. (1980) 'On the Estimation of Security Price Volatilities from Historical Data', *Journal of Business*, 53(1), pp. 67-78. Gilchrist, S. and Zakrajšek, E. (2012) 'Credit Spreads and Business Cycle Fluctuations', *American Economic Review*, 102(4), pp. 1692-1720. Gordon, M.J. (1962) *The Investment, Financing, and Valuation of the Corporation*. Homewood: Irwin. Graham, B. and Dodd, D.L. (1934) *Security Analysis*. New York: McGraw-Hill. Hamilton, J.D. (1989) 'A New Approach to the Economic Analysis of Nonstationary Time Series and the Business Cycle', *Econometrica*, 57(2), pp. 357-384. Ilmanen, A. (2011) *Expected Returns: An Investor's Guide to Harvesting Market Rewards*. Chichester: Wiley. Jaconetti, C.M., Kinniry, F.M. and Zilbering, Y. (2010) 'Best Practices for Portfolio Rebalancing', *Vanguard Research Paper*. Jegadeesh, N. and Titman, S. (1993) 'Returns to Buying Winners and Selling Losers: Implications for Stock Market Efficiency', *The Journal of Finance*, 48(1), pp. 65-91. Kahneman, D. and Tversky, A. (1979) 'Prospect Theory: An Analysis of Decision under Risk', *Econometrica*, 47(2), pp. 263-292. Korteweg, A. (2010) 'The Net Benefits to Leverage', *The Journal of Finance*, 65(6), pp. 2137-2170. Lo, A.W. and MacKinlay, A.C. (1990) 'Data-Snooping Biases in Tests of Financial Asset Pricing Models', *Review of Financial Studies*, 3(3), pp. 431-467. Longin, F. and Solnik, B. (2001) 'Extreme Correlation of International Equity Markets', *The Journal of Finance*, 56(2), pp. 649-676. Mandelbrot, B. (1963) 'The Variation of Certain Speculative Prices', *The Journal of Business*, 36(4), pp. 394-419. Markowitz, H. (1952) 'Portfolio Selection', *The Journal of Finance*, 7(1), pp. 77-91. Modigliani, F. and Miller, M.H. (1961) 'Dividend Policy, Growth, and the Valuation of Shares', *The Journal of Business*, 34(4), pp. 411-433. Moreira, A. and Muir, T. (2017) 'Volatility-Managed Portfolios', *The Journal of Finance*, 72(4), pp. 1611-1644. Moskowitz, T.J., Ooi, Y.H. and Pedersen, L.H. (2012) 'Time Series Momentum', *Journal of Financial Economics*, 104(2), pp. 228-250. Parkinson, M. (1980) 'The Extreme Value Method for Estimating the Variance of the Rate of Return', *Journal of Business*, 53(1), pp. 61-65. Piotroski, J.D. (2000) 'Value Investing: The Use of Historical Financial Statement Information to Separate Winners from Losers', *Journal of Accounting Research*, 38, pp. 1-41. Reinhart, C.M. and Rogoff, K.S. (2009) *This Time Is Different: Eight Centuries of Financial Folly*. Princeton: Princeton University Press. Ross, S.A. (1976) 'The Arbitrage Theory of Capital Asset Pricing', *Journal of Economic Theory*, 13(3), pp. 341-360. Roy, A.D. (1952) 'Safety First and the Holding of Assets', *Econometrica*, 20(3), pp. 431-449. Schwert, G.W. (1989) 'Why Does Stock Market Volatility Change Over Time?', *The Journal of Finance*, 44(5), pp. 1115-1153. Sharpe, W.F. (1966) 'Mutual Fund Performance', *The Journal of Business*, 39(1), pp. 119-138. Sharpe, W.F. (1994) 'The Sharpe Ratio', *The Journal of Portfolio Management*, 21(1), pp. 49-58. Simon, D.P. and Wiggins, R.A. (2001) 'S&P Futures Returns and Contrary Sentiment Indicators', *Journal of Futures Markets*, 21(5), pp. 447-462. Taleb, N.N. (2007) *The Black Swan: The Impact of the Highly Improbable*. New York: Random House. Whaley, R.E. (2000) 'The Investor Fear Gauge', *The Journal of Portfolio Management*, 26(3), pp. 12-17. Whaley, R.E. (2009) 'Understanding the VIX', *The Journal of Portfolio Management*, 35(3), pp. 98-105. Yardeni, E. (2003) 'Stock Valuation Models', *Topical Study*, 51, Yardeni Research. Zweig, M.E. (1973) 'An Investor Expectations Stock Price Predictive Model Using Closed-End Fund Premiums', *The Journal of Finance*, 28(1), pp. 67-78.

Wskaźnik Pine Script®

ATR Future Movement Range Projection The "ATR Future Movement Range Projection" is a custom TradingView Pine Script indicator designed to forecast potential price ranges for a stock (or any asset) over short-term (1-month) and medium-term (3-month) horizons. It leverages the Average True Range (ATR) as a measure of volatility to estimate how far the price might move, while incorporating recent momentum bias based on the proportion of bullish (green) vs. bearish (red) candles. This creates asymmetric projections: in bullish periods, the upside range is larger than the downside, and vice versa. The indicator is overlaid on the chart, plotting horizontal lines for the projected high and low prices for both timeframes. Additionally, it displays a small table in the top-right corner summarizing the projected prices and the percentage change required from the current close to reach them. This makes it useful for traders assessing potential targets, risk-reward ratios, or option strategies, as it combines volatility forecasting with directional sentiment. Key features: - **Volatility Basis**: Uses weekly ATR to derive a stable daily volatility estimate, avoiding noise from shorter timeframes. - **Momentum Adjustment**: Analyzes recent candle colors to tilt projections toward the prevailing trend (e.g., more upside if more green candles). - **Time Horizons**: Fixed at 1 month (21 trading days) and 3 months (63 trading days), assuming ~21 trading days per month (excluding weekends/holidays). - **User Adjustable**: The ATR length/lookback (default 50) can be tweaked via inputs. - **Visuals**: Green/lime lines for highs, red/orange for lows; a semi-transparent table for quick reference. - **Limitations**: This is a probabilistic projection based on historical volatility and momentum—it doesn't predict direction with certainty and assumes volatility persists. It ignores external factors like news, earnings, or market regimes. Best used on daily charts for stocks/ETFs. The indicator doesn't generate buy/sell signals but helps visualize "expected" ranges, similar to how implied volatility informs option pricing. ### How It Works Step-by-Step The script executes on each bar update (typically daily timeframe) and follows this logic: 1. **Input Configuration**: - ATR Length (Lookback): Default 50 bars. This controls both the ATR calculation period and the candle count window. You can adjust it in the indicator settings. 2. **Calculate Weekly ATR**: - Fetches the ATR from the weekly timeframe using `request.security` with a length of 50 weeks. - ATR measures average price range (high-low, adjusted for gaps), representing volatility. 3. **Derive Daily ATR**: - Divides the weekly ATR by 5 (approximating 5 trading days per week) to get an equivalent daily volatility estimate. - Example: If weekly ATR is $5, daily ATR ≈ $1. 4. **Define Projection Periods**: - 1 Month: 21 trading days. - 3 Months: 63 trading days (21 × 3). - These are hardcoded but based on standard trading calendar assumptions. 5. **Compute Base Projections**: - Base projection = Daily ATR × Days in period. - This gives the total expected movement (range) without direction: e.g., for 3 months, $1 daily ATR × 63 = $63 total range. 6. **Analyze Candle Momentum (Win Rate)**: - Counts green candles (close > open) and red candles (close < open) over the last 50 bars (ignores dojis where close == open). - Total colored candles = green + red. - Win rate = green / total colored (as a fraction, e.g., 0.7 for 70%). Defaults to 0.5 if no colored candles. - This acts as a simple momentum proxy: higher win rate implies bullish bias. 7. **Adjust Projections Asymmetrically**: - Upside projection = Base projection × Win rate. - Downside projection = Base projection × (1 - Win rate). - This skews the range: e.g., 70% win rate means 70% of the total range allocated to upside, 30% to downside. 8. **Calculate Projected Prices**: - High = Current close + Upside projection. - Low = Current close - Downside projection. - Done separately for 1M and 3M. 9. **Plot Lines**: - 3M High: Solid green line. - 3M Low: Solid red line. - 1M High: Dashed lime line. - 1M Low: Dashed orange line. - Lines extend horizontally from the current bar onward. 10. **Display Table**: - A 3-column table (Projection, Price, % Change) in the top-right. - Rows for 1M High/Low and 3M High/Low, color-coded. - % Change = ((Projected price - Close) / Close) × 100. - Updates dynamically with new data. The entire process repeats on each new bar, so projections evolve as volatility and momentum change. ### Examples Here are two hypothetical examples using the indicator on a daily chart. Assume it's applied to a stock like AAPL, but with made-up data for illustration. (In TradingView, you'd add the script to see real outputs.) #### Example 1: Bullish Scenario (High Win Rate) - Current Close: $150. - Weekly ATR (50 periods): $10 → Daily ATR: $10 / 5 = $2. - Last 50 Candles: 35 green, 15 red → Total colored: 50 → Win Rate: 35/50 = 0.7 (70%). - Base Projections: - 1M: $2 × 21 = $42. - 3M: $2 × 63 = $126. - Adjusted Projections: - 1M Upside: $42 × 0.7 = $29.4 → High: $150 + $29.4 = $179.4 (+19.6%). - 1M Downside: $42 × 0.3 = $12.6 → Low: $150 - $12.6 = $137.4 (-8.4%). - 3M Upside: $126 × 0.7 = $88.2 → High: $150 + $88.2 = $238.2 (+58.8%). - 3M Downside: $126 × 0.3 = $37.8 → Low: $150 - $37.8 = $112.2 (-25.2%). - On the Chart: Green/lime lines skewed higher; table shows bullish % changes (e.g., +58.8% for 3M high). - Interpretation: Suggests stronger potential upside due to recent bullish momentum; useful for call options or long positions. #### Example 2: Bearish Scenario (Low Win Rate) - Current Close: $50. - Weekly ATR (50 periods): $3 → Daily ATR: $3 / 5 = $0.6. - Last 50 Candles: 20 green, 30 red → Total colored: 50 → Win Rate: 20/50 = 0.4 (40%). - Base Projections: - 1M: $0.6 × 21 = $12.6. - 3M: $0.6 × 63 = $37.8. - Adjusted Projections: - 1M Upside: $12.6 × 0.4 = $5.04 → High: $50 + $5.04 = $55.04 (+10.1%). - 1M Downside: $12.6 × 0.6 = $7.56 → Low: $50 - $7.56 = $42.44 (-15.1%). - 3M Upside: $37.8 × 0.4 = $15.12 → High: $50 + $15.12 = $65.12 (+30.2%). - 3M Downside: $37.8 × 0.6 = $22.68 → Low: $50 - $22.68 = $27.32 (-45.4%). - On the Chart: Red/orange lines skewed lower; table highlights larger downside % (e.g., -45.4% for 3M low). - Interpretation: Indicates bearish risk; might prompt protective puts or short strategies. #### Example 3: Neutral Scenario (Balanced Win Rate) - Current Close: $100. - Weekly ATR: $5 → Daily ATR: $1. - Last 50 Candles: 25 green, 25 red → Win Rate: 0.5 (50%). - Projections become symmetric: - 1M: Base $21 → Upside/Downside $10.5 each → High $110.5 (+10.5%), Low $89.5 (-10.5%). - 3M: Base $63 → Upside/Downside $31.5 each → High $131.5 (+31.5%), Low $68.5 (-31.5%). - Interpretation: Pure volatility-based range, no directional bias—ideal for straddle options or range trading. In real use, test on historical data: e.g., if past projections captured actual moves ~68% of the time (1 standard deviation for ATR), it validates the volatility assumption. Adjust the lookback for different assets (shorter for volatile cryptos, longer for stable blue-chips).

Wskaźnik Pine Script®

od bradleypbarber6

PriceAction Library "PriceAction" Hi all! This library will help you to plot the market structure and liquidity. By now, the only part in the price action section is liquidity, but I plan to add more later on. The market structure will be split into two parts, 'Internal' and 'Swing' with separate pivot lengths. For these two trends it will show you: • Break of structure (BOS) • Change of character (CHoCH/CHoCH+) (mandatory) • Equal high/low (EQH/EQL) It's inspired by "Smart Money Concepts (SMC) " by LuxAlgo. This library is now the same code as the code in my library 'MarketStructure', but it has evolved into a more price action oriented library than just a market structure library. This is more accurate and I will continue working on this library to keep it growing. This code does not provide any examples, but you can look at my indicators 'Market structure' () and 'Order blocks' (), where I use the 'MarketStructure' library (which is the same code). Market structure Both of these market structures can be enabled/disabled by setting them to 'na'. The pivots lengths can be configured separately. The pivots found will be the 'base' of and will show you when price breaks it. When that happens a break of structure or a change of character will be created. The latest 5 pivots found within the current trends will be kept to take action on. They are cleared on a change of character, so nothing (break of structures or change of characters) can happen on pivots before a trend change. The internal market structure is shown with dashed lines and swing market structure is shown with solid lines. Labels for a change of character can have either the text 'CHoCH' or 'CHoCH+'. A Change of Character plus is formed when price fails to form a higher high or a lower low before reversing. Note that a pivot that is created after the change of character might have a higher high or a lower low, thus not making the break a 'CHoCH+'. This is not changed after the pivot is found but is kept as is. A break of structure is removed if an earlier pivot within the same trend is broken, i.e. another break of structure (with a longer distance) is created. Like in the images below, the first pivot (in the first image) is removed when an earlier pivot's higher price within the same trend is broken (the second image): [image [https://www.tradingview.com/x/PRP6YtPA/ Equal high/lows have a configurable color setting and can be configured to be extended to the right. Equal high/lows are only possible if it's not been broken by price. A factor (percentage of width) of the Average True Length (of length 14) that the pivot must be within to to be considered an Equal high/low. Equal highs/lows can be of 2 pivots or more. You are able to show the pivots that are used. "HH" (higher high), "HL" (higher low), "LH" (lower high), "LL" (lower low) and "H"/"L" (for pivots (high/low) when the trend has changed) are the labels used. There are also labels for break of structures ('BOS') and change of characters ('CHoCH' or 'CHoCH+'). The size of these texts is set in the 'FontSize' setting. When programming I focused on simplicity and ease of read. I did not focus on performance, I will do so if it's a problem (haven't noticed it is one yet). You can set alerts for when a change of character, break of structure or an equal high/low (new or an addition to a previously found) happens. The alerts that are fired are on 'once_per_bar_close' to avoid repainting. This has the drawback to alert you when the bar closes. Price action The indicator will create lines and zones for spotted liquidity. It will draw a line (with dotted style) at the price level that was liquidated, but it will also draw a zone from that level to the bar that broke the pivot high or low price. If that zone is large the liquidation is big and might be significant. This can be disabled in the settings. You can also change the confirmation candles (that does not close above or below the pivot level) needed after a liquidation and how many pivots back to look at. The lines and boxes drawn will look like this if the color is orange: Hope this is of help! Will draw out the market structure for the disired pivot length. Liqudity(liquidity) Will draw liquidity. Parameters: liquidity (Liquidity) : The 'PriceAction.Liquidity' object. Pivot(structure) Sets the pivots in the structure. Parameters: structure (Structure) PivotLabels(structure) Draws labels for the pivots found. Parameters: structure (Structure) EqualHighOrLow(structure) Draws the boxes for equal highs/lows. Also creates labels for the pivots included. Parameters: structure (Structure) BreakOfStructure(structure) Will create lines when a break of strycture occures. Parameters: structure (Structure) Returns: A boolean that represents if a break of structure was found or not. ChangeOfCharacter(structure) Will create lines when a change of character occures. This line will have a label with "CHoCH" or "CHoCH+". Parameters: structure (Structure) Returns: A boolean that represents if a change of character was found or not. VisualizeCurrent(structure) Will create a box with a background for between the latest high and low pivots. This can be used as the current trading range (if the pivots broke strucure somehow). Parameters: structure (Structure) StructureBreak Holds drawings for a structure break. Fields: Line (series line) : The line object. Label (series label) : The label object. Pivot Holds all the values for a found pivot. Fields: Price (series float) : The price of the pivot. BarIndex (series int) : The bar_index where the pivot occured. Type (series int) : The type of the pivot (-1 = low, 1 = high). Time (series int) : The time where the pivot occured. BreakOfStructureBroken (series bool) : Sets to true if a break of structure has happened. LiquidityBroken (series bool) : Sets to true if a liquidity of the price level has happened. ChangeOfCharacterBroken (series bool) : Sets to true if a change of character has happened. Structure Holds all the values for the market structure. Fields: LeftLength (series int) : Define the left length of the pivots used. RightLength (series int) : Define the right length of the pivots used. Type (series Type) : Set the type of the market structure. Two types can be used, 'internal' and 'swing' (0 = internal, 1 = swing). Trend (series int) : This will be set internally and can be -1 = downtrend, 1 = uptrend. EqualPivotsFactor (series float) : Set how the limits are for an equal pivot. This is a factor of the Average True Length (ATR) of length 14. If a low pivot is considered to be equal if it doesn't break the low pivot (is at a lower value) and is inside the previous low pivot + this limit. ExtendEqualPivotsZones (series bool) : Set to true if you want the equal pivots zones to be extended. ExtendEqualPivotsStyle (series string) : Set the style of equal pivot zones. ExtendEqualPivotsColor (series color) : Set the color of equal pivot zones. EqualHighs (array) : Holds the boxes for zones that contains equal highs. EqualLows (array) : Holds the boxes for zones that contains equal lows. BreakOfStructures (array) : Holds all the break of structures within the trend (before a change of character). Pivots (array) : All the pivots in the current trend, added with the latest first, this is cleared when the trend changes. FontSize (series int) : Holds the size of the font displayed. AlertChangeOfCharacter (series bool) : Holds true or false if a change of character should be alerted or not. AlertBreakOfStructure (series bool) : Holds true or false if a break of structure should be alerted or not. AlerEqualPivots (series bool) : Holds true or false if equal highs/lows should be alerted or not. Liquidity Holds all the values for liquidity. Fields: LiquidityPivotsHigh (array) : All high pivots for liquidity. LiquidityPivotsLow (array) : All low pivots for liquidity. LiquidityConfirmationBars (series int) : The number of bars to confirm that a liquidity is valid. LiquidityPivotsLookback (series int) : A number of pivots to look back for. FontSize (series int) : Holds the size of the font displayed. PriceAction Holds all the values for the general price action and the market structures. Fields: Liquidity (Liquidity) Swing (Structure) : Placeholder for all objects used for the swing market structure. Internal (Structure) : Placeholder for all objects used for the internal market structure.

Biblioteka Pine Script®

Markov Chain [3D] | Fractalyst What exactly is a Markov Chain? This indicator uses a Markov Chain model to analyze, quantify, and visualize the transitions between market regimes (Bull, Bear, Neutral) on your chart. It dynamically detects these regimes in real-time, calculates transition probabilities, and displays them as animated 3D spheres and arrows, giving traders intuitive insight into current and future market conditions. How does a Markov Chain work, and how should I read this spheres-and-arrows diagram? Think of three weather modes: Sunny, Rainy, Cloudy. Each sphere is one mode. The loop on a sphere means “stay the same next step” (e.g., Sunny again tomorrow). The arrows leaving a sphere show where things usually go next if they change (e.g., Sunny moving to Cloudy). Some paths matter more than others. A more prominent loop means the current mode tends to persist. A more prominent outgoing arrow means a change to that destination is the usual next step. Direction isn’t symmetric: moving Sunny→Cloudy can behave differently than Cloudy→Sunny. Now relabel the spheres to markets: Bull, Bear, Neutral. Spheres: market regimes (uptrend, downtrend, range). Self‑loop: tendency for the current regime to continue on the next bar. Arrows: the most common next regime if a switch happens. How to read: Start at the sphere that matches current bar state. If the loop stands out, expect continuation. If one outgoing path stands out, that switch is the typical next step. Opposite directions can differ (Bear→Neutral doesn’t have to match Neutral→Bear). What states and transitions are shown? The three market states visualized are: Bullish (Bull): Upward or strong-market regime. Bearish (Bear): Downward or weak-market regime. Neutral: Sideways or range-bound regime. Bidirectional animated arrows and probability labels show how likely the market is to move from one regime to another (e.g., Bull → Bear or Neutral → Bull). How does the regime detection system work? You can use either built-in price returns (based on adaptive Z-score normalization) or supply three custom indicators (such as volume, oscillators, etc.). Values are statistically normalized (Z-scored) over a configurable lookback period. The normalized outputs are classified into Bull, Bear, or Neutral zones. If using three indicators, their regime signals are averaged and smoothed for robustness. How are transition probabilities calculated? On every confirmed bar, the algorithm tracks the sequence of detected market states, then builds a rolling window of transitions. The code maintains a transition count matrix for all regime pairs (e.g., Bull → Bear). Transition probabilities are extracted for each possible state change using Laplace smoothing for numerical stability, and frequently updated in real-time. What is unique about the visualization? 3D animated spheres represent each regime and change visually when active. Animated, bidirectional arrows reveal transition probabilities and allow you to see both dominant and less likely regime flows. Particles (moving dots) animate along the arrows, enhancing the perception of regime flow direction and speed. All elements dynamically update with each new price bar, providing a live market map in an intuitive, engaging format. Can I use custom indicators for regime classification? Yes! Enable the "Custom Indicators" switch and select any three chart series as inputs. These will be normalized and combined (each with equal weight), broadening the regime classification beyond just price-based movement. What does the “Lookback Period” control? Lookback Period (default: 100) sets how much historical data builds the probability matrix. Shorter periods adapt faster to regime changes but may be noisier. Longer periods are more stable but slower to adapt. How is this different from a Hidden Markov Model (HMM)? It sets the window for both regime detection and probability calculations. Lower values make the system more reactive, but potentially noisier. Higher values smooth estimates and make the system more robust. How is this Markov Chain different from a Hidden Markov Model (HMM)? Markov Chain (as here): All market regimes (Bull, Bear, Neutral) are directly observable on the chart. The transition matrix is built from actual detected regimes, keeping the model simple and interpretable. Hidden Markov Model: The actual regimes are unobservable ("hidden") and must be inferred from market output or indicator "emissions" using statistical learning algorithms. HMMs are more complex, can capture more subtle structure, but are harder to visualize and require additional machine learning steps for training. A standard Markov Chain models transitions between observable states using a simple transition matrix, while a Hidden Markov Model assumes the true states are hidden (latent) and must be inferred from observable “emissions” like price or volume data. In practical terms, a Markov Chain is transparent and easier to implement and interpret; an HMM is more expressive but requires statistical inference to estimate hidden states from data. Markov Chain: states are observable; you directly count or estimate transition probabilities between visible states. This makes it simpler, faster, and easier to validate and tune. HMM: states are hidden; you only observe emissions generated by those latent states. Learning involves machine learning/statistical algorithms (commonly Baum–Welch/EM for training and Viterbi for decoding) to infer both the transition dynamics and the most likely hidden state sequence from data. How does the indicator avoid “repainting” or look-ahead bias? All regime changes and matrix updates happen only on confirmed (closed) bars, so no future data is leaked, ensuring reliable real-time operation. Are there practical tuning tips? Tune the Lookback Period for your asset/timeframe: shorter for fast markets, longer for stability. Use custom indicators if your asset has unique regime drivers. Watch for rapid changes in transition probabilities as early warning of a possible regime shift. Who is this indicator for? Quants and quantitative researchers exploring probabilistic market modeling, especially those interested in regime-switching dynamics and Markov models. Programmers and system developers who need a probabilistic regime filter for systematic and algorithmic backtesting: The Markov Chain indicator is ideally suited for programmatic integration via its bias output (1 = Bull, 0 = Neutral, -1 = Bear). Although the visualization is engaging, the core output is designed for automated, rules-based workflows—not for discretionary/manual trading decisions. Developers can connect the indicator’s output directly to their Pine Script logic (using input.source()), allowing rapid and robust backtesting of regime-based strategies. It acts as a plug-and-play regime filter: simply plug the bias output into your entry/exit logic, and you have a scientifically robust, probabilistically-derived signal for filtering, timing, position sizing, or risk regimes. The MC's output is intentionally "trinary" (1/0/-1), focusing on clear regime states for unambiguous decision-making in code. If you require nuanced, multi-probability or soft-label state vectors, consider expanding the indicator or stacking it with a probability-weighted logic layer in your scripting. Because it avoids subjectivity, this approach is optimal for systematic quants, algo developers building backtested, repeatable strategies based on probabilistic regime analysis. What's the mathematical foundation behind this? The mathematical foundation behind this Markov Chain indicator—and probabilistic regime detection in finance—draws from two principal models: the (standard) Markov Chain and the Hidden Markov Model (HMM). How to use this indicator programmatically? The Markov Chain indicator automatically exports a bias value (+1 for Bullish, -1 for Bearish, 0 for Neutral) as a plot visible in the Data Window. This allows you to integrate its regime signal into your own scripts and strategies for backtesting, automation, or live trading. Step-by-Step Integration with Pine Script (input.source) Add the Markov Chain indicator to your chart. This must be done first, since your custom script will "pull" the bias signal from the indicator's plot. In your strategy, create an input using input.source() Example: //@version=5 strategy("MC Bias Strategy Example") mcBias = input.source(close, "MC Bias Source") After saving, go to your script’s settings. For the “MC Bias Source” input, select the plot/output of the Markov Chain indicator (typically its bias plot). Use the bias in your trading logic Example (long only on Bull, flat otherwise): if mcBias == 1 strategy.entry("Long", strategy.long) else strategy.close("Long") For more advanced workflows, combine mcBias with additional filters or trailing stops. How does this work behind-the-scenes? TradingView’s input.source() lets you use any plot from another indicator as a real-time, “live” data feed in your own script (source). The selected bias signal is available to your Pine code as a variable, enabling logical decisions based on regime (trend-following, mean-reversion, etc.). This enables powerful strategy modularity : decouple regime detection from entry/exit logic, allowing fast experimentation without rewriting core signal code. Integrating 45+ Indicators with Your Markov Chain — How & Why The Enhanced Custom Indicators Export script exports a massive suite of over 45 technical indicators—ranging from classic momentum (RSI, MACD, Stochastic, etc.) to trend, volume, volatility, and oscillator tools—all pre-calculated, centered/scaled, and available as plots. // Enhanced Custom Indicators Export - 45 Technical Indicators // Comprehensive technical analysis suite for advanced market regime detection //@version=6 indicator('Enhanced Custom Indicators Export | Fractalyst', shorttitle='Enhanced CI Export', overlay=false, scale=scale.right, max_labels_count=500, max_lines_count=500) // |----- Input Parameters -----| // momentum_group = "Momentum Indicators" trend_group = "Trend Indicators" volume_group = "Volume Indicators" volatility_group = "Volatility Indicators" oscillator_group = "Oscillator Indicators" display_group = "Display Settings" // Common lengths length_14 = input.int(14, "Standard Length (14)", minval=1, maxval=100, group=momentum_group) length_20 = input.int(20, "Medium Length (20)", minval=1, maxval=200, group=trend_group) length_50 = input.int(50, "Long Length (50)", minval=1, maxval=200, group=trend_group) // Display options show_table = input.bool(true, "Show Values Table", group=display_group) table_size = input.string("Small", "Table Size", options= , group=display_group) // |----- MOMENTUM INDICATORS (15 indicators) -----| // // 1. RSI (Relative Strength Index) rsi_14 = ta.rsi(close, length_14) rsi_centered = rsi_14 - 50 // 2. Stochastic Oscillator stoch_k = ta.stoch(close, high, low, length_14) stoch_d = ta.sma(stoch_k, 3) stoch_centered = stoch_k - 50 // 3. Williams %R williams_r = ta.stoch(close, high, low, length_14) - 100 // 4. MACD (Moving Average Convergence Divergence) = ta.macd(close, 12, 26, 9) // 5. Momentum (Rate of Change) momentum = ta.mom(close, length_14) momentum_pct = (momentum / close ) * 100 // 6. Rate of Change (ROC) roc = ta.roc(close, length_14) // 7. Commodity Channel Index (CCI) cci = ta.cci(close, length_20) // 8. Money Flow Index (MFI) mfi = ta.mfi(close, length_14) mfi_centered = mfi - 50 // 9. Awesome Oscillator (AO) ao = ta.sma(hl2, 5) - ta.sma(hl2, 34) // 10. Accelerator Oscillator (AC) ac = ao - ta.sma(ao, 5) // 11. Chande Momentum Oscillator (CMO) cmo = ta.cmo(close, length_14) // 12. Detrended Price Oscillator (DPO) dpo = close - ta.sma(close, length_20) // 13. Price Oscillator (PPO) ppo = ta.sma(close, 12) - ta.sma(close, 26) ppo_pct = (ppo / ta.sma(close, 26)) * 100 // 14. TRIX trix_ema1 = ta.ema(close, length_14) trix_ema2 = ta.ema(trix_ema1, length_14) trix_ema3 = ta.ema(trix_ema2, length_14) trix = ta.roc(trix_ema3, 1) * 10000 // 15. Klinger Oscillator klinger = ta.ema(volume * (high + low + close) / 3, 34) - ta.ema(volume * (high + low + close) / 3, 55) // 16. Fisher Transform fisher_hl2 = 0.5 * (hl2 - ta.lowest(hl2, 10)) / (ta.highest(hl2, 10) - ta.lowest(hl2, 10)) - 0.25 fisher = 0.5 * math.log((1 + fisher_hl2) / (1 - fisher_hl2)) // 17. Stochastic RSI stoch_rsi = ta.stoch(rsi_14, rsi_14, rsi_14, length_14) stoch_rsi_centered = stoch_rsi - 50 // 18. Relative Vigor Index (RVI) rvi_num = ta.swma(close - open) rvi_den = ta.swma(high - low) rvi = rvi_den != 0 ? rvi_num / rvi_den : 0 // 19. Balance of Power (BOP) bop = (close - open) / (high - low) // |----- TREND INDICATORS (10 indicators) -----| // // 20. Simple Moving Average Momentum sma_20 = ta.sma(close, length_20) sma_momentum = ((close - sma_20) / sma_20) * 100 // 21. Exponential Moving Average Momentum ema_20 = ta.ema(close, length_20) ema_momentum = ((close - ema_20) / ema_20) * 100 // 22. Parabolic SAR sar = ta.sar(0.02, 0.02, 0.2) sar_trend = close > sar ? 1 : -1 // 23. Linear Regression Slope lr_slope = ta.linreg(close, length_20, 0) - ta.linreg(close, length_20, 1) // 24. Moving Average Convergence (MAC) mac = ta.sma(close, 10) - ta.sma(close, 30) // 25. Trend Intensity Index (TII) tii_sum = 0.0 for i = 1 to length_20 tii_sum += close > close ? 1 : 0 tii = (tii_sum / length_20) * 100 // 26. Ichimoku Cloud Components ichimoku_tenkan = (ta.highest(high, 9) + ta.lowest(low, 9)) / 2 ichimoku_kijun = (ta.highest(high, 26) + ta.lowest(low, 26)) / 2 ichimoku_signal = ichimoku_tenkan > ichimoku_kijun ? 1 : -1 // 27. MESA Adaptive Moving Average (MAMA) mama_alpha = 2.0 / (length_20 + 1) mama = ta.ema(close, length_20) mama_momentum = ((close - mama) / mama) * 100 // 28. Zero Lag Exponential Moving Average (ZLEMA) zlema_lag = math.round((length_20 - 1) / 2) zlema_data = close + (close - close ) zlema = ta.ema(zlema_data, length_20) zlema_momentum = ((close - zlema) / zlema) * 100 // |----- VOLUME INDICATORS (6 indicators) -----| // // 29. On-Balance Volume (OBV) obv = ta.obv // 30. Volume Rate of Change (VROC) vroc = ta.roc(volume, length_14) // 31. Price Volume Trend (PVT) pvt = ta.pvt // 32. Negative Volume Index (NVI) nvi = 0.0 nvi := volume < volume ? nvi + ((close - close ) / close ) * nvi : nvi // 33. Positive Volume Index (PVI) pvi = 0.0 pvi := volume > volume ? pvi + ((close - close ) / close ) * pvi : pvi // 34. Volume Oscillator vol_osc = ta.sma(volume, 5) - ta.sma(volume, 10) // 35. Ease of Movement (EOM) eom_distance = high - low eom_box_height = volume / 1000000 eom = eom_box_height != 0 ? eom_distance / eom_box_height : 0 eom_sma = ta.sma(eom, length_14) // 36. Force Index force_index = volume * (close - close ) force_index_sma = ta.sma(force_index, length_14) // |----- VOLATILITY INDICATORS (10 indicators) -----| // // 37. Average True Range (ATR) atr = ta.atr(length_14) atr_pct = (atr / close) * 100 // 38. Bollinger Bands Position bb_basis = ta.sma(close, length_20) bb_dev = 2.0 * ta.stdev(close, length_20) bb_upper = bb_basis + bb_dev bb_lower = bb_basis - bb_dev bb_position = bb_dev != 0 ? (close - bb_basis) / bb_dev : 0 bb_width = bb_dev != 0 ? (bb_upper - bb_lower) / bb_basis * 100 : 0 // 39. Keltner Channels Position kc_basis = ta.ema(close, length_20) kc_range = ta.ema(ta.tr, length_20) kc_upper = kc_basis + (2.0 * kc_range) kc_lower = kc_basis - (2.0 * kc_range) kc_position = kc_range != 0 ? (close - kc_basis) / kc_range : 0 // 40. Donchian Channels Position dc_upper = ta.highest(high, length_20) dc_lower = ta.lowest(low, length_20) dc_basis = (dc_upper + dc_lower) / 2 dc_position = (dc_upper - dc_lower) != 0 ? (close - dc_basis) / (dc_upper - dc_lower) : 0 // 41. Standard Deviation std_dev = ta.stdev(close, length_20) std_dev_pct = (std_dev / close) * 100 // 42. Relative Volatility Index (RVI) rvi_up = ta.stdev(close > close ? close : 0, length_14) rvi_down = ta.stdev(close < close ? close : 0, length_14) rvi_total = rvi_up + rvi_down rvi_volatility = rvi_total != 0 ? (rvi_up / rvi_total) * 100 : 50 // 43. Historical Volatility hv_returns = math.log(close / close ) hv = ta.stdev(hv_returns, length_20) * math.sqrt(252) * 100 // 44. Garman-Klass Volatility gk_vol = math.log(high/low) * math.log(high/low) - (2*math.log(2)-1) * math.log(close/open) * math.log(close/open) gk_volatility = math.sqrt(ta.sma(gk_vol, length_20)) * 100 // 45. Parkinson Volatility park_vol = math.log(high/low) * math.log(high/low) parkinson = math.sqrt(ta.sma(park_vol, length_20) / (4 * math.log(2))) * 100 // 46. Rogers-Satchell Volatility rs_vol = math.log(high/close) * math.log(high/open) + math.log(low/close) * math.log(low/open) rogers_satchell = math.sqrt(ta.sma(rs_vol, length_20)) * 100 // |----- OSCILLATOR INDICATORS (5 indicators) -----| // // 47. Elder Ray Index elder_bull = high - ta.ema(close, 13) elder_bear = low - ta.ema(close, 13) elder_power = elder_bull + elder_bear // 48. Schaff Trend Cycle (STC) stc_macd = ta.ema(close, 23) - ta.ema(close, 50) stc_k = ta.stoch(stc_macd, stc_macd, stc_macd, 10) stc_d = ta.ema(stc_k, 3) stc = ta.stoch(stc_d, stc_d, stc_d, 10) // 49. Coppock Curve coppock_roc1 = ta.roc(close, 14) coppock_roc2 = ta.roc(close, 11) coppock = ta.wma(coppock_roc1 + coppock_roc2, 10) // 50. Know Sure Thing (KST) kst_roc1 = ta.roc(close, 10) kst_roc2 = ta.roc(close, 15) kst_roc3 = ta.roc(close, 20) kst_roc4 = ta.roc(close, 30) kst = ta.sma(kst_roc1, 10) + 2*ta.sma(kst_roc2, 10) + 3*ta.sma(kst_roc3, 10) + 4*ta.sma(kst_roc4, 15) // 51. Percentage Price Oscillator (PPO) ppo_line = ((ta.ema(close, 12) - ta.ema(close, 26)) / ta.ema(close, 26)) * 100 ppo_signal = ta.ema(ppo_line, 9) ppo_histogram = ppo_line - ppo_signal // |----- PLOT MAIN INDICATORS -----| // // Plot key momentum indicators plot(rsi_centered, title="01_RSI_Centered", color=color.purple, linewidth=1) plot(stoch_centered, title="02_Stoch_Centered", color=color.blue, linewidth=1) plot(williams_r, title="03_Williams_R", color=color.red, linewidth=1) plot(macd_histogram, title="04_MACD_Histogram", color=color.orange, linewidth=1) plot(cci, title="05_CCI", color=color.green, linewidth=1) // Plot trend indicators plot(sma_momentum, title="06_SMA_Momentum", color=color.navy, linewidth=1) plot(ema_momentum, title="07_EMA_Momentum", color=color.maroon, linewidth=1) plot(sar_trend, title="08_SAR_Trend", color=color.teal, linewidth=1) plot(lr_slope, title="09_LR_Slope", color=color.lime, linewidth=1) plot(mac, title="10_MAC", color=color.fuchsia, linewidth=1) // Plot volatility indicators plot(atr_pct, title="11_ATR_Pct", color=color.yellow, linewidth=1) plot(bb_position, title="12_BB_Position", color=color.aqua, linewidth=1) plot(kc_position, title="13_KC_Position", color=color.olive, linewidth=1) plot(std_dev_pct, title="14_StdDev_Pct", color=color.silver, linewidth=1) plot(bb_width, title="15_BB_Width", color=color.gray, linewidth=1) // Plot volume indicators plot(vroc, title="16_VROC", color=color.blue, linewidth=1) plot(eom_sma, title="17_EOM", color=color.red, linewidth=1) plot(vol_osc, title="18_Vol_Osc", color=color.green, linewidth=1) plot(force_index_sma, title="19_Force_Index", color=color.orange, linewidth=1) plot(obv, title="20_OBV", color=color.purple, linewidth=1) // Plot additional oscillators plot(ao, title="21_Awesome_Osc", color=color.navy, linewidth=1) plot(cmo, title="22_CMO", color=color.maroon, linewidth=1) plot(dpo, title="23_DPO", color=color.teal, linewidth=1) plot(trix, title="24_TRIX", color=color.lime, linewidth=1) plot(fisher, title="25_Fisher", color=color.fuchsia, linewidth=1) // Plot more momentum indicators plot(mfi_centered, title="26_MFI_Centered", color=color.yellow, linewidth=1) plot(ac, title="27_AC", color=color.aqua, linewidth=1) plot(ppo_pct, title="28_PPO_Pct", color=color.olive, linewidth=1) plot(stoch_rsi_centered, title="29_StochRSI_Centered", color=color.silver, linewidth=1) plot(klinger, title="30_Klinger", color=color.gray, linewidth=1) // Plot trend continuation plot(tii, title="31_TII", color=color.blue, linewidth=1) plot(ichimoku_signal, title="32_Ichimoku_Signal", color=color.red, linewidth=1) plot(mama_momentum, title="33_MAMA_Momentum", color=color.green, linewidth=1) plot(zlema_momentum, title="34_ZLEMA_Momentum", color=color.orange, linewidth=1) plot(bop, title="35_BOP", color=color.purple, linewidth=1) // Plot volume continuation plot(nvi, title="36_NVI", color=color.navy, linewidth=1) plot(pvi, title="37_PVI", color=color.maroon, linewidth=1) plot(momentum_pct, title="38_Momentum_Pct", color=color.teal, linewidth=1) plot(roc, title="39_ROC", color=color.lime, linewidth=1) plot(rvi, title="40_RVI", color=color.fuchsia, linewidth=1) // Plot volatility continuation plot(dc_position, title="41_DC_Position", color=color.yellow, linewidth=1) plot(rvi_volatility, title="42_RVI_Volatility", color=color.aqua, linewidth=1) plot(hv, title="43_Historical_Vol", color=color.olive, linewidth=1) plot(gk_volatility, title="44_GK_Volatility", color=color.silver, linewidth=1) plot(parkinson, title="45_Parkinson_Vol", color=color.gray, linewidth=1) // Plot final oscillators plot(rogers_satchell, title="46_RS_Volatility", color=color.blue, linewidth=1) plot(elder_power, title="47_Elder_Power", color=color.red, linewidth=1) plot(stc, title="48_STC", color=color.green, linewidth=1) plot(coppock, title="49_Coppock", color=color.orange, linewidth=1) plot(kst, title="50_KST", color=color.purple, linewidth=1) // Plot final indicators plot(ppo_histogram, title="51_PPO_Histogram", color=color.navy, linewidth=1) plot(pvt, title="52_PVT", color=color.maroon, linewidth=1) // |----- Reference Lines -----| // hline(0, "Zero Line", color=color.gray, linestyle=hline.style_dashed, linewidth=1) hline(50, "Midline", color=color.gray, linestyle=hline.style_dotted, linewidth=1) hline(-50, "Lower Midline", color=color.gray, linestyle=hline.style_dotted, linewidth=1) hline(25, "Upper Threshold", color=color.gray, linestyle=hline.style_dotted, linewidth=1) hline(-25, "Lower Threshold", color=color.gray, linestyle=hline.style_dotted, linewidth=1) // |----- Enhanced Information Table -----| // if show_table and barstate.islast table_position = position.top_right table_text_size = table_size == "Tiny" ? size.tiny : table_size == "Small" ? size.small : size.normal var table info_table = table.new(table_position, 3, 18, bgcolor=color.new(color.white, 85), border_width=1, border_color=color.gray) // Headers table.cell(info_table, 0, 0, 'Category', text_color=color.black, text_size=table_text_size, bgcolor=color.new(color.blue, 70)) table.cell(info_table, 1, 0, 'Indicator', text_color=color.black, text_size=table_text_size, bgcolor=color.new(color.blue, 70)) table.cell(info_table, 2, 0, 'Value', text_color=color.black, text_size=table_text_size, bgcolor=color.new(color.blue, 70)) // Key Momentum Indicators table.cell(info_table, 0, 1, 'MOMENTUM', text_color=color.purple, text_size=table_text_size, bgcolor=color.new(color.purple, 90)) table.cell(info_table, 1, 1, 'RSI Centered', text_color=color.purple, text_size=table_text_size) table.cell(info_table, 2, 1, str.tostring(rsi_centered, '0.00'), text_color=color.purple, text_size=table_text_size) table.cell(info_table, 0, 2, '', text_color=color.blue, text_size=table_text_size) table.cell(info_table, 1, 2, 'Stoch Centered', text_color=color.blue, text_size=table_text_size) table.cell(info_table, 2, 2, str.tostring(stoch_centered, '0.00'), text_color=color.blue, text_size=table_text_size) table.cell(info_table, 0, 3, '', text_color=color.red, text_size=table_text_size) table.cell(info_table, 1, 3, 'Williams %R', text_color=color.red, text_size=table_text_size) table.cell(info_table, 2, 3, str.tostring(williams_r, '0.00'), text_color=color.red, text_size=table_text_size) table.cell(info_table, 0, 4, '', text_color=color.orange, text_size=table_text_size) table.cell(info_table, 1, 4, 'MACD Histogram', text_color=color.orange, text_size=table_text_size) table.cell(info_table, 2, 4, str.tostring(macd_histogram, '0.000'), text_color=color.orange, text_size=table_text_size) table.cell(info_table, 0, 5, '', text_color=color.green, text_size=table_text_size) table.cell(info_table, 1, 5, 'CCI', text_color=color.green, text_size=table_text_size) table.cell(info_table, 2, 5, str.tostring(cci, '0.00'), text_color=color.green, text_size=table_text_size) // Key Trend Indicators table.cell(info_table, 0, 6, 'TREND', text_color=color.navy, text_size=table_text_size, bgcolor=color.new(color.navy, 90)) table.cell(info_table, 1, 6, 'SMA Momentum %', text_color=color.navy, text_size=table_text_size) table.cell(info_table, 2, 6, str.tostring(sma_momentum, '0.00'), text_color=color.navy, text_size=table_text_size) table.cell(info_table, 0, 7, '', text_color=color.maroon, text_size=table_text_size) table.cell(info_table, 1, 7, 'EMA Momentum %', text_color=color.maroon, text_size=table_text_size) table.cell(info_table, 2, 7, str.tostring(ema_momentum, '0.00'), text_color=color.maroon, text_size=table_text_size) table.cell(info_table, 0, 8, '', text_color=color.teal, text_size=table_text_size) table.cell(info_table, 1, 8, 'SAR Trend', text_color=color.teal, text_size=table_text_size) table.cell(info_table, 2, 8, str.tostring(sar_trend, '0'), text_color=color.teal, text_size=table_text_size) table.cell(info_table, 0, 9, '', text_color=color.lime, text_size=table_text_size) table.cell(info_table, 1, 9, 'Linear Regression', text_color=color.lime, text_size=table_text_size) table.cell(info_table, 2, 9, str.tostring(lr_slope, '0.000'), text_color=color.lime, text_size=table_text_size) // Key Volatility Indicators table.cell(info_table, 0, 10, 'VOLATILITY', text_color=color.yellow, text_size=table_text_size, bgcolor=color.new(color.yellow, 90)) table.cell(info_table, 1, 10, 'ATR %', text_color=color.yellow, text_size=table_text_size) table.cell(info_table, 2, 10, str.tostring(atr_pct, '0.00'), text_color=color.yellow, text_size=table_text_size) table.cell(info_table, 0, 11, '', text_color=color.aqua, text_size=table_text_size) table.cell(info_table, 1, 11, 'BB Position', text_color=color.aqua, text_size=table_text_size) table.cell(info_table, 2, 11, str.tostring(bb_position, '0.00'), text_color=color.aqua, text_size=table_text_size) table.cell(info_table, 0, 12, '', text_color=color.olive, text_size=table_text_size) table.cell(info_table, 1, 12, 'KC Position', text_color=color.olive, text_size=table_text_size) table.cell(info_table, 2, 12, str.tostring(kc_position, '0.00'), text_color=color.olive, text_size=table_text_size) // Key Volume Indicators table.cell(info_table, 0, 13, 'VOLUME', text_color=color.blue, text_size=table_text_size, bgcolor=color.new(color.blue, 90)) table.cell(info_table, 1, 13, 'Volume ROC', text_color=color.blue, text_size=table_text_size) table.cell(info_table, 2, 13, str.tostring(vroc, '0.00'), text_color=color.blue, text_size=table_text_size) table.cell(info_table, 0, 14, '', text_color=color.red, text_size=table_text_size) table.cell(info_table, 1, 14, 'EOM', text_color=color.red, text_size=table_text_size) table.cell(info_table, 2, 14, str.tostring(eom_sma, '0.000'), text_color=color.red, text_size=table_text_size) // Key Oscillators table.cell(info_table, 0, 15, 'OSCILLATORS', text_color=color.purple, text_size=table_text_size, bgcolor=color.new(color.purple, 90)) table.cell(info_table, 1, 15, 'Awesome Osc', text_color=color.blue, text_size=table_text_size) table.cell(info_table, 2, 15, str.tostring(ao, '0.000'), text_color=color.blue, text_size=table_text_size) table.cell(info_table, 0, 16, '', text_color=color.red, text_size=table_text_size) table.cell(info_table, 1, 16, 'Fisher Transform', text_color=color.red, text_size=table_text_size) table.cell(info_table, 2, 16, str.tostring(fisher, '0.000'), text_color=color.red, text_size=table_text_size) // Summary Statistics table.cell(info_table, 0, 17, 'SUMMARY', text_color=color.black, text_size=table_text_size, bgcolor=color.new(color.gray, 70)) table.cell(info_table, 1, 17, 'Total Indicators: 52', text_color=color.black, text_size=table_text_size) regime_color = rsi_centered > 10 ? color.green : rsi_centered < -10 ? color.red : color.gray regime_text = rsi_centered > 10 ? "BULLISH" : rsi_centered < -10 ? "BEARISH" : "NEUTRAL" table.cell(info_table, 2, 17, regime_text, text_color=regime_color, text_size=table_text_size) This makes it the perfect “indicator backbone” for quantitative and systematic traders who want to prototype, combine, and test new regime detection models—especially in combination with the Markov Chain indicator. How to use this script with the Markov Chain for research and backtesting: Add the Enhanced Indicator Export to your chart. Every calculated indicator is available as an individual data stream. Connect the indicator(s) you want as custom input(s) to the Markov Chain’s “Custom Indicators” option. In the Markov Chain indicator’s settings, turn ON the custom indicator mode. For each of the three custom indicator inputs, select the exported plot from the Enhanced Export script—the menu lists all 45+ signals by name. This creates a powerful, modular regime-detection engine where you can mix-and-match momentum, trend, volume, or custom combinations for advanced filtering. Backtest regime logic directly. Once you’ve connected your chosen indicators, the Markov Chain script performs regime detection (Bull/Neutral/Bear) based on your selected features—not just price returns. The regime detection is robust, automatically normalized (using Z-score), and outputs bias (1, -1, 0) for plug-and-play integration. Export the regime bias for programmatic use. As described above, use input.source() in your Pine Script strategy or system and link the bias output. You can now filter signals, control trade direction/size, or design pairs-trading that respect true, indicator-driven market regimes. With this framework, you’re not limited to static or simplistic regime filters. You can rigorously define, test, and refine what “market regime” means for your strategies—using the technical features that matter most to you. Optimize your signal generation by backtesting across a universe of meaningful indicator blends. Enhance risk management with objective, real-time regime boundaries. Accelerate your research: iterate quickly, swap indicator components, and see results with minimal code changes. Automate multi-asset or pairs-trading by integrating regime context directly into strategy logic. Add both scripts to your chart, connect your preferred features, and start investigating your best regime-based trades—entirely within the TradingView ecosystem. References & Further Reading Ang, A., & Bekaert, G. (2002). “Regime Switches in Interest Rates.” Journal of Business & Economic Statistics, 20(2), 163–182. Hamilton, J. D. (1989). “A New Approach to the Economic Analysis of Nonstationary Time Series and the Business Cycle.” Econometrica, 57(2), 357–384. Markov, A. A. (1906). "Extension of the Limit Theorems of Probability Theory to a Sum of Variables Connected in a Chain." The Notes of the Imperial Academy of Sciences of St. Petersburg. Guidolin, M., & Timmermann, A. (2007). “Asset Allocation under Multivariate Regime Switching.” Journal of Economic Dynamics and Control, 31(11), 3503–3544. Murphy, J. J. (1999). Technical Analysis of the Financial Markets. New York Institute of Finance. Brock, W., Lakonishok, J., & LeBaron, B. (1992). “Simple Technical Trading Rules and the Stochastic Properties of Stock Returns.” Journal of Finance, 47(5), 1731–1764. Zucchini, W., MacDonald, I. L., & Langrock, R. (2017). Hidden Markov Models for Time Series: An Introduction Using R (2nd ed.). Chapman and Hall/CRC. On Quantitative Finance and Markov Models: Lo, A. W., & Hasanhodzic, J. (2009). The Heretics of Finance: Conversations with Leading Practitioners of Technical Analysis. Bloomberg Press. Patterson, S. (2016). The Man Who Solved the Market: How Jim Simons Launched the Quant Revolution. Penguin Press. TradingView Pine Script Documentation: www.tradingview.com TradingView Blog: “Use an Input From Another Indicator With Your Strategy” www.tradingview.com GeeksforGeeks: “What is the Difference Between Markov Chains and Hidden Markov Models?” www.geeksforgeeks.org What makes this indicator original and unique? - On‑chart, real‑time Markov. The chain is drawn directly on your chart. You see the current regime, its tendency to stay (self‑loop), and the usual next step (arrows) as bars confirm. - Source‑agnostic by design. The engine runs on any series you select via input.source() — price, your own oscillator, a composite score, anything you compute in the script. - Automatic normalization + regime mapping. Different inputs live on different scales. The script standardizes your chosen source and maps it into clear regimes (e.g., Bull / Bear / Neutral) without you micromanaging thresholds each time. - Rolling, bar‑by‑bar learning. Transition tendencies are computed from a rolling window of confirmed bars. What you see is exactly what the market did in that window. - Fast experimentation. Switch the source, adjust the window, and the Markov view updates instantly. It’s a rapid way to test ideas and feel regime persistence/switch behavior. Integrate your own signals (using input.source()) - In settings, choose the Source . This is powered by input.source() . - Feed it price, an indicator you compute inside the script, or a custom composite series. - The script will automatically normalize that series and process it through the Markov engine, mapping it to regimes and updating the on‑chart spheres/arrows in real time. Credits: Deep gratitude to @RicardoSantos for both the foundational Markov chain processing engine and inspiring open-source contributions, which made advanced probabilistic market modeling accessible to the TradingView community. Special thanks to @Alien_Algorithms for the innovative and visually stunning 3D sphere logic that powers the indicator’s animated, regime-based visualization. Disclaimer This tool summarizes recent behavior. It is not financial advice and not a guarantee of future results.

Wskaźnik Pine Script®

Zaktualizowano

Trend Breakout Description: This Pine Script indicator identifies pivot high and pivot low points based on user-defined left and right candle legs, detecting breakouts to signal potential trend changes. It plots horizontal lines at pivot highs (lime) and pivot lows (red), marking breakout signals with labels ("Br") when the price crosses above a pivot high or below a pivot low. The indicator also changes the background color to reflect the trend (green for uptrend, red for downtrend) with adjustable transparency. The indicator primarily focuses on recognizing specific pivot patterns to define trends and generate trading signals. How It Works • Pivot Detection: Identifies pivot highs and lows using configurable left (Left side Pivot Candle) and right (Right side Pivot Candle) periods. • Pivot Highs (PH): A pivot high is identified when a candle's high is greater than a specified number of preceding candles (left leg) and succeeding candles (right leg). • Pivot Lows (PL): Similarly, a pivot low is identified when a candle's low is less than a specified number of preceding and succeeding candles. The script then tracks the last three pivot highs and pivot lows. Trend Detection and Breakouts 1. High Line (Resistance): When a middle pivot high (out of the three tracked) is higher than both the previous and the next pivot high, a lime green line is drawn from that pivot high. This line acts as a dynamic resistance level. 2. Low Line (Support): Conversely, when a middle pivot low is lower than both the previous and the next pivot low, a red line is drawn from that pivot low. This line acts as a dynamic support level. ________________________________________ Trading Signals : The indicator generates signals based on price crossing these dynamically drawn lines . • Long Signal (Uptrend): o A "Long" signal is triggered when the close price crosses above the current high line (resistance), and the indicator is not already in an uptrend. o When a long signal occurs, the background turns green, and the high line becomes dotted and thinner. A "Br" (Breakout) label appears below the candle. • Short Signal (Downtrend): o A "Short" signal is triggered when the close price crosses below the current low line (support), and the indicator is not already in a downtrend. o When a short signal occurs, the background turns red, and the low line becomes dotted and thinner. A "Br" (Breakout) label appears above the candle. ________________________________________ Customizable Settings The indicator provides three user-adjustable inputs: • Right Side Pivot Candle (fpivotLeg): This setting (default 10) determines the number of candles to the right that must have lower highs/higher lows for a pivot to be confirmed. • Left Side Pivot Candle (bpivotLeg): This setting (default 15) determines the number of candles to the left that must have lower highs/higher lows for a pivot to be confirmed. • Adjust Color Visualization (Colortrnp): This setting (default 85) controls the transparency of the background color changes, allowing you to adjust how prominently the green (uptrend) and red (downtrend) backgrounds are displayed. ________________________________________ How to Use It This indicator can be used by traders to: • Identify potential reversals: The formation of new pivot highs and lows can signal shifts in market direction. • Spot breakout opportunities: Crossing above the high line or below the low line can indicate the start of a new trend or the continuation of an existing one. • Confirm trend strength: The presence and extension of the high and low lines can provide visual cues about the prevailing trend. • Ideal for swing traders or trend-following strategies. • Use the breakout labels ("Br") and background color to confirm trend direction. • Adjust pivot leg inputs to fine-tune sensitivity for different timeframes or assets. • Customize transparency to suit chart readability. Example: On a breakout above a pivot high, a green "Br" label appears, the background turns green, and the pivot line becomes dotted. This signals a potential uptrend, helping traders identify entry points or trend confirmations. Disclaimer: No indicator guarantees profits. Always use this indicator in conjunction with other analysis methods and proper risk management.

Wskaźnik Pine Script®

od Trend_MyFrend

Zaktualizowano

Divergence Strategy [Trendoscope®]🎲 Overview The Divergence Strategy is a sophisticated TradingView strategy that enhances the Divergence Screener by adding automated trade signal generation, risk management, and trade visualization. It leverages the screener’s robust divergence detection to identify bullish, bearish, regular, and hidden divergences, then executes trades with precise entry, stop-loss, and take-profit levels. Designed for traders seeking automated trading solutions, this strategy offers customizable trade parameters and visual feedback to optimize performance across various markets and timeframes. For core divergence detection features, including oscillator options, trend detection methods, zigzag pivot analysis, and visualization, refer to the Divergence Screener documentation. This description focuses on the strategy-specific enhancements for automated trading and risk management. 🎲 Strategy Features 🎯Automated Trade Signal Generation Trade Direction Control : Restrict trades to long-only or short-only to align with market bias or strategy goals, preventing conflicting orders. Divergence Type Selection : Choose to trade regular divergences (bullish/bearish), hidden divergences, or both, targeting reversals or trend continuations. Entry Type Options : Cautious : Enters conservatively at pivot points and exits quickly to minimize risk exposure. Confident : Enters aggressively at the latest price and holds longer to capture larger moves. Mixed : Combines conservative entries with delayed exits for a balanced approach. Market vs. Stop Orders: Opt for market orders for instant execution or stop orders for precise price entry. 🎯 Enhanced Risk Management Risk/Reward Ratio : Define a risk-reward ratio (default: 2.0) to set profit targets relative to stop-loss levels, ensuring consistent trade sizing. Bracket Orders : Trades include entry, stop-loss, and take-profit levels calculated from divergence pivot points, tailored to the entry type and risk-reward settings. Stop-Loss Placement : Stops are strategically set (e.g., at recent pivot or last price point) based on entry type, balancing risk and trade validity. Order Cancellation : Optionally cancel pending orders when a divergence is broken (e.g., price moves past the pivot in the wrong direction), reducing invalid trades. This feature is toggleable for flexibility. 🎯 Trade Visualization Target and Stop Boxes : Displays take-profit (lime) and stop-loss (orange) levels as boxes on the price chart, extending 10 bars forward for clear visibility. Dynamic Trade Updates : Trade visualizations are added, updated, or removed as trades are executed, canceled, or invalidated, ensuring accurate feedback. Overlay Integration : Trade levels overlay the price chart, complementing the screener’s oscillator-based divergence lines and labels. 🎯 Strategy Default Configuration Capital and Sizing : Set initial capital (default: $1,000,000) and position size (default: 20% of equity) for realistic backtesting. Pyramiding : Allows up to 4 concurrent trades, enabling multiple divergence-based entries in trending markets. Commission and Margin : Accounts for commission (default: 0.01%) and margin (100% for long/short) to reflect trading costs. Performance Optimization : Processes up to 5,000 bars dynamically, balancing historical analysis and real-time execution. 🎲 Inputs and Configuration 🎯Trade Settings Direction : Select Long or Short (default: Long). Divergence : Trade Regular, Hidden, or Both divergence types (default: Both). Entry/Exit Type : Choose Cautious, Confident, or Mixed (default: Cautious). Risk/Reward : Set the risk-reward ratio for profit targets (default: 2.0). Use Market Order : Enable market orders for immediate entry (default: false, uses limit orders). Cancel On Break : Cancel pending orders when divergence is broken (default: true). 🎯Inherited Settings The strategy inherits all inputs from the Divergence Screener, including: Oscillator Settings : Oscillator type (e.g., RSI, CCI), length, and external oscillator option. Trend Settings : Trend detection method (Zigzag, MA Difference, External), MA type, and length. Zigzag Settings : Zigzag length (fixed repaint = true). 🎲 Entry/Exit Types for Divergence Scenarios The Divergence Strategy offers three Entry/Exit Type options—Cautious, Confident, and Mixed—which determine how trades are entered and exited based on divergence pivot points. This section explains how these settings apply to different divergence scenarios, with placeholders for screenshots to illustrate each case. The divergence pattern forms after 3 pivots. The stop and entry levels are formed on one of these levels based on Entry/Exit types. 🎯Bullish Divergence (Reversal) A bullish divergence occurs when price forms a lower low, but the oscillator forms a higher low, signaling a potential upward reversal. 💎 Cautious: Entry : At the pivot high point for a conservative entry. Exit : Stop-loss at the last pivot point (previous low that is higher than the current pivot low); take-profit at risk-reward ratio. Canceled if price breaks below the pivot (if Cancel On Break is enabled). Behavior : Enters after confirmation and exits quickly to limit downside risk. 💎Confident: Entry : At the last pivot low, (previous low which is higher than the current pivot low) for an aggressive entry. Exit : Stop-loss at recent pivot low, which is the lowest point; take-profit at risk-reward ratio. Canceled if price breaks below the pivot. (lazy exit) Behavior : Enters early to capture trend continuation, holding longer for gains. 💎Mixed: Entry : At the pivot high point (conservative). Exit : Stop-loss at the recent pivot point that has resulted in lower low (lazy exit). Canceled if price breaks below the pivot. Behavior : Balances entry caution with extended holding for trend continuation. 🎯Bearish Divergence (Reversal) A bearish divergence occurs when price forms a higher high, but the oscillator forms a lower high, indicating a potential downward reversal. 💎Cautious: Entry : At the pivot low point (lower high) for a conservative short entry. Exit : Stop-loss at the previous pivot high point (previous high); take-profit at risk-reward ratio. Canceled if price breaks above the pivot (if Cancel On Break is enabled). Behavior : Enters conservatively and exits quickly to minimize risk. 💎Confident: Entry : At the last price point (previous high) for an aggressive short entry. Exit : Stop-loss at the pivot point; take-profit at risk-reward ratio. Canceled if price breaks above the pivot. Behavior : Enters early to maximize trend continuation, holding longer. 💎Mixed: Entry : At the previous piot high point (conservative). Exit : Stop-loss at the last price point (delayed exit). Canceled if price breaks above the pivot. Behavior : Combines conservative entry with extended holding for downtrend gains. 🎯Bullish Hidden Divergence (Continuation) A bullish hidden divergence occurs when price forms a higher low, but the oscillator forms a lower low, suggesting uptrend continuation. In case of Hidden bullish divergence, b]Entry is always on the previous pivot high (unless it is a market order) 💎Cautious: Exit : Stop-loss at the recent pivot low point (higher than previous pivot low); take-profit at risk-reward ratio. Canceled if price breaks below the pivot (if Cancel On Break is enabled). Behavior : Enters after confirmation and exits quickly to limit downside risk. 💎Confident: Exit : Stop-loss at previous pivot low, which is the lowest point; take-profit at risk-reward ratio. Canceled if price breaks below the pivot. (lazy exit) Behavior : Enters early to capture trend continuation, holding longer for gains. 🎯Bearish Hidden Divergence (Continuation) A bearish hidden divergence occurs when price forms a lower high, but the oscillator forms a higher high, suggesting downtrend continuation. In case of Hidden Bearish divergence, b]Entry is always on the previous pivot low (unless it is a market order) 💎Cautious: Exit : Stop-loss at the latest pivot high point (which is a lower high); take-profit at risk-reward ratio. Canceled if price breaks above the pivot (if Cancel On Break is enabled). Behavior : Enters conservatively and exits quickly to minimize risk. 💎Confident/Mixed: Exit : Stop-loss at the previous pivot high point; take-profit at risk-reward ratio. Canceled if price breaks above the pivot. Behavior : Uses the late exit point to hold longer. 🎲 Usage Instructions 🎯Add to Chart: Add the Divergence Strategy to your TradingView chart. The oscillator and divergence signals appear in a separate pane, with trade levels (target/stop boxes) overlaid on the price chart. 🎯Configure Settings: Adjust trade settings (direction, divergence type, entry type, risk-reward, market orders, cancel on break). Modify inherited Divergence Screener settings (oscillator, trend method, zigzag length) as needed. Enable/disable alerts for divergence notifications. 🎯Interpret Signals: Long Trades: Triggered on bullish or bullish hidden divergences (if allowed), shown with green/lime lines and labels. Short Trades: Triggered on bearish or bearish hidden divergences (if allowed), shown with red/orange lines and labels. Monitor lime (target) and orange (stop) boxes for trade levels. Review strategy performance metrics (e.g., profit/loss, win rate) in the strategy tester. 🎯Backtest and Optimize: Use TradingView’s strategy tester to evaluate performance on historical data. Fine-tune risk-reward, entry type, position sizing, and cancellation settings to suit your market and timeframe. For questions, suggestions, or support, contact Trendoscope via TradingView or official support channels. Stay tuned for updates and enhancements to the Divergence Strategy!

Strategia Pine Script®

Zaktualizowano

Wick Sweep The Wick Sweep indicator identifies potential trend reversal zones based on price action patterns and swing points. Specifically, it looks for "Wick Sweeps," a concept where the market temporarily breaks a swing low or high (creating a "wick"), only to reverse in the opposite direction. This pattern is often indicative of a market attempting to trap traders before making a larger move. The indicator marks these zones using dashed lines, helping traders spot key areas of potential price action. Key Features: * Swing Low and High Detection: The indicator identifies significant swing lows and highs within a user-defined period by employing Williams fractals. * Wick Sweep Detection: Once a swing low or high is identified, the indicator looks for price movements that break through the low or high (creating a wick) and then reverses direction. * Fractal Plotting: Optionally, the indicator plots fractal points (triangle shapes) on the chart when a swing low or high is detected. This can assist in visually identifying the potential wick sweep areas. * Line Plotting: When a wick sweep is detected, a dashed line is drawn at the price level of the failed low or high, visually marking the potential reversal zone. Inputs: * Periods: The number of bars used to identify swing highs and lows. A higher value results in fewer, more significant swing points. * Line Color: The color of the dashed lines drawn when a wick sweep is detected. Customize this to match your chart's theme or preferences. * Show Fractals: A toggle that, when enabled, plots triangle shapes above and below bars indicating swing highs (up triangles) and swing lows (down triangles). Functionality: * Swing High and Low Calculation: - The indicator calculates the swing low and swing high based on the periods input. A swing low is identified when the current low is the lowest within a range of (2 * periods + 1), with the lowest point being at the center of the period. - Similarly, a swing high is identified when the current high is the highest within the same range. * Wick Sweep Detection: - Once a swing low or high is detected, the script looks for a potential wick. This happens when the price breaks the swing low or high and then reverses in the opposite direction. - For a valid wick sweep, the price should briefly move beyond the identified swing point but then close in the opposite direction (i.e., a bullish reversal for a swing low and a bearish reversal for a swing high). - A line is drawn at the price level of the failed low or high when a wick sweep is confirmed. Confirmations for Reversal: * The confirmation for a wick sweep requires that the price not only break the swing low/high but also close in the opposite direction (i.e., close above the low for a bullish reversal or close below the high for a bearish reversal). * The confirmation is further refined by checking that the price movement is within a reasonable distance from the original swing point, which prevents the indicator from marking distant, unimportant price levels. Additional Notes: * The Wick Sweep indicator does not provide standalone trading signals; it is best used in conjunction with other technical analysis tools, such as trend analysis, oscillators, or volume indicators. * The periods input can be adjusted based on the trader’s preferred level of sensitivity. A lower period value will result in more frequent swing points and potentially more signals, while a higher value will focus on more significant market swings. * The indicator may work well in ranging markets where price tends to oscillate between key support and resistance levels.

Wskaźnik Pine Script®

Zaktualizowano

Market Structure - HH, HL, LH, LL with Trendlines & Alerts Market Structure Script – HH, HL, LH, LL with Trendlines & Alerts This Pine Script is designed to help identify key market structure patterns such as Higher Highs (HH), Higher Lows (HL), Lower Highs (LH), and Lower Lows (LL) on price charts. It also draws trendlines connecting the respective swing points and provides alerts when these important price patterns occur. Key Features: Swing High and Low Detection: The script uses the ta.pivothigh and ta.pivotlow functions to identify significant swing highs and swing lows based on the pivot length (pivotLen). These points mark local peaks and troughs in the price action. Dynamic Pivot Length: The script adjusts the pivotLen (which defines the number of bars used to calculate swing points) based on the current timeframe of the chart. For example, for a 15-minute chart, it uses a pivot length of 5 bars, while for a daily chart, it uses 10 bars. This dynamic adjustment ensures that the script works across different timeframes. Higher Highs (HH), Higher Lows (HL), Lower Highs (LH), Lower Lows (LL): Higher High (HH): Identifies a price peak that is higher than the previous swing high, indicating an uptrend. Higher Low (HL): Identifies a price trough that is higher than the previous swing low, supporting the idea of an ongoing uptrend. Lower High (LH): Identifies a price peak that is lower than the previous swing high, suggesting a potential reversal or downtrend. Lower Low (LL): Identifies a price trough that is lower than the previous swing low, indicating a downtrend. Trendlines: For each identified Higher High, Higher Low, Lower High, or Lower Low, the script automatically draws a trendline connecting the corresponding swing points. These trendlines provide a visual representation of the market’s price structure, showing support and resistance levels. Labels: The script places labels on the chart next to the respective swing points. These labels mark whether the point is a Higher High (HH), Higher Low (HL), Lower High (LH), or Lower Low (LL). This helps traders easily visualize the price pattern at a glance. Alerts: Alert conditions are set for when a Higher High (HH), Higher Low (HL), Lower High (LH), or Lower Low (LL) is detected. Users can set up alerts to be notified whenever one of these key market structure patterns forms. Alerts are an essential feature for traders who want to act quickly when important trend changes are happening.

Wskaźnik Pine Script®

Exposure Oscillator (Cumulative 0 to ±100%) Exposure Oscillator (Cumulative 0 to ±100%) This Pine Script indicator plots an "Exposure Oscillator" on the chart, which tracks the cumulative market exposure from a range of technical buy and sell signals. The exposure is measured on a scale from -100% (maximum short exposure) to +100% (maximum long exposure), helping traders assess the strength of their position in the market. It provides an intuitive visual cue to aid decision-making for trend-following strategies. Buy Signals (Increase Exposure Score by +10%) Buy Signal 1 (Cross Above 21 EMA): This signal is triggered when the price crosses above the 21-period Exponential Moving Average (EMA), where the current bar closes above the EMA21, and the previous bar closed below the EMA21. This indicates a potential upward price movement as the market shifts into a bullish trend. buySignal1 = ta.crossover(close, ema21) Buy Signal 2 (Trending Above 21 EMA): This signal is triggered when the price closes above the 21-period EMA for each of the last 5 bars, indicating a sustained bullish trend. It confirms that the price is consistently above the EMA21 for a significant period. buySignal2 = ta.barssince(close <= ema21) > 5 Buy Signal 3 (Living Above 21 EMA): This signal is triggered when the price has closed above the 21-period EMA for each of the last 15 bars, demonstrating a strong, prolonged uptrend. buySignal3 = ta.barssince(close <= ema21) > 15 Buy Signal 4 (Cross Above 50 SMA): This signal is triggered when the price crosses above the 50-period Simple Moving Average (SMA), where the current bar closes above the 50 SMA, and the previous bar closed below it. It indicates a shift toward bullish momentum. buySignal4 = ta.crossover(close, sma50) Buy Signal 5 (Cross Above 200 SMA): This signal is triggered when the price crosses above the 200-period Simple Moving Average (SMA), where the current bar closes above the 200 SMA, and the previous bar closed below it. This suggests a long-term bullish trend. buySignal5 = ta.crossover(close, sma200) Buy Signal 6 (Low Above 50 SMA): This signal is true when the lowest price of the current bar is above the 50-period SMA, indicating strong bullish pressure as the price maintains itself above the moving average. buySignal6 = low > sma50 Buy Signal 7 (Accumulation Day): An accumulation day occurs when the closing price is in the upper half of the daily range (greater than 50%) and the volume is larger than the previous bar's volume, suggesting buying pressure and accumulation. buySignal7 = (close - low) / (high - low) > 0.5 and volume > volume Buy Signal 8 (Higher High): This signal occurs when the current bar’s high exceeds the highest high of the previous 14 bars, indicating a breakout or strong upward momentum. buySignal8 = high > ta.highest(high, 14) Buy Signal 9 (Key Reversal Bar): This signal is generated when the stock opens below the low of the previous bar but rallies to close above the previous bar’s high, signaling a potential reversal from bearish to bullish. buySignal9 = open < low and close > high Buy Signal 10 (Distribution Day Fall Off): This signal is triggered when a distribution day (a day with high volume and a close near the low of the range) "falls off" the rolling 25-bar period, indicating the end of a bearish trend or selling pressure. buySignal10 = ta.barssince(close < sma50 and close < sma50) > 25 Sell Signals (Decrease Exposure Score by -10%) Sell Signal 1 (Cross Below 21 EMA): This signal is triggered when the price crosses below the 21-period Exponential Moving Average (EMA), where the current bar closes below the EMA21, and the previous bar closed above it. It suggests that the market may be shifting from a bullish trend to a bearish trend. sellSignal1 = ta.crossunder(close, ema21) Sell Signal 2 (Trending Below 21 EMA): This signal is triggered when the price closes below the 21-period EMA for each of the last 5 bars, indicating a sustained bearish trend. sellSignal2 = ta.barssince(close >= ema21) > 5 Sell Signal 3 (Living Below 21 EMA): This signal is triggered when the price has closed below the 21-period EMA for each of the last 15 bars, suggesting a strong downtrend. sellSignal3 = ta.barssince(close >= ema21) > 15 Sell Signal 4 (Cross Below 50 SMA): This signal is triggered when the price crosses below the 50-period Simple Moving Average (SMA), where the current bar closes below the 50 SMA, and the previous bar closed above it. It indicates the start of a bearish trend. sellSignal4 = ta.crossunder(close, sma50) Sell Signal 5 (Cross Below 200 SMA): This signal is triggered when the price crosses below the 200-period Simple Moving Average (SMA), where the current bar closes below the 200 SMA, and the previous bar closed above it. It indicates a long-term bearish trend. sellSignal5 = ta.crossunder(close, sma200) Sell Signal 6 (High Below 50 SMA): This signal is true when the highest price of the current bar is below the 50-period SMA, indicating weak bullishness or a potential bearish reversal. sellSignal6 = high < sma50 Sell Signal 7 (Distribution Day): A distribution day is identified when the closing range of a bar is less than 50% and the volume is larger than the previous bar's volume, suggesting that selling pressure is increasing. sellSignal7 = (close - low) / (high - low) < 0.5 and volume > volume Sell Signal 8 (Lower Low): This signal occurs when the current bar's low is less than the lowest low of the previous 14 bars, indicating a breakdown or strong downward momentum. sellSignal8 = low < ta.lowest(low, 14) Sell Signal 9 (Downside Reversal Bar): A downside reversal bar occurs when the stock opens above the previous bar's high but falls to close below the previous bar’s low, signaling a reversal from bullish to bearish. sellSignal9 = open > high and close < low Sell Signal 10 (Distribution Cluster): This signal is triggered when a distribution day occurs three times in the rolling 7-bar period, indicating significant selling pressure. sellSignal10 = ta.valuewhen((close < low) and volume > volume , 1, 7) >= 3 Theme Mode: Users can select the theme mode (Auto, Dark, or Light) to match the chart's background or to manually choose a light or dark theme for the oscillator's appearance. Exposure Score Calculation: The script calculates a cumulative exposure score based on a series of buy and sell signals. Buy signals increase the exposure score, while sell signals decrease it. Each signal impacts the score by ±10%. Signal Conditions: The buy and sell signals are derived from multiple conditions, including crossovers with moving averages (EMA21, SMA50, SMA200), trend behavior, and price/volume analysis. Oscillator Visualization: The exposure score is visualized as a line on the chart, changing color based on whether the exposure is positive (long position) or negative (short position). It is limited to the range of -100% to +100%. Position Type: The indicator also indicates the position type based on the exposure score, labeling it as "Long," "Short," or "Neutral." Horizontal Lines: Reference lines at 0%, 100%, and -100% visually mark neutral, increasing long, and increasing short exposure levels. Exposure Table: A table displays the current exposure level (in percentage) and position type ("Long," "Short," or "Neutral"), updated dynamically based on the oscillator’s value. Inputs: Theme Mode: Choose "Auto" to use the default chart theme, or manually select "Dark" or "Light." Usage: This oscillator is designed to help traders track market sentiment, gauge exposure levels, and manage risk. It can be used for long-term trend-following strategies or short-term trades based on moving average crossovers and volume analysis. The oscillator operates in conjunction with the chart’s price action and provides a visual representation of the market’s current trend strength and exposure. Important Considerations: Risk Management: While the exposure score provides valuable insight, it should be combined with other risk management tools and analysis for optimal trading decisions. Signal Sensitivity: The accuracy and effectiveness of the signals depend on market conditions and may require adjustments based on the user’s trading strategy or timeframe. Disclaimer: This script is for educational purposes only. Trading involves significant risk, and users should carefully evaluate all market conditions and apply appropriate risk management strategies before using this tool in live trading environments.

Wskaźnik Pine Script®

od starshiptrade

Zaktualizowano

PERFECT PIVOT RANGE DR ABIRAM SIVPRASAD (PPR)PERFECT PIVOT RANGE (PPR) by Dr. Abhiram Sivprasad The Perfect Pivot Range (PPR) indicator is designed to provide traders with a comprehensive view of key support and resistance levels based on pivot points across different timeframes. This versatile tool allows users to visualize daily, weekly, and monthly pivots along with high and low levels from previous periods, helping traders identify potential areas of price reversals or breakouts. Features: Multi-Timeframe Pivots: Daily, weekly, and monthly pivot levels (Pivot Point, Support 1 & 2, Resistance 1 & 2). Helps traders understand price levels across various timeframes, from short-term (daily) to long-term (monthly). Previous High-Low Levels: Displays the previous week, month, and day high-low levels to highlight key zones of historical support and resistance. Traders can easily see areas of price action from prior periods, giving context for future price movements. Customizable Options: Users can choose which pivot levels and high-lows to display, allowing for flexibility based on trading preferences. Visual settings can be toggled on and off to suit different trading strategies and timeframes. Real-Time Data: All pivot points and levels are dynamically calculated based on real-time price data, ensuring accurate and up-to-date information for decision-making. How to Use: Pivot Points: Use daily, weekly, or monthly pivot points to find potential support or resistance levels. Prices above the pivot suggest bullish sentiment, while prices below indicate bearishness. Previous High-Low: The high-low levels from previous days, weeks, or months can serve as critical zones where price may reverse or break through, indicating potential trade entries or exits. Confluence: When pivot points or high-low levels overlap across multiple timeframes, they become even stronger levels of support or resistance. This indicator is suitable for all types of traders (scalpers, swing traders, and long-term investors) looking to enhance their technical analysis and make more informed trading decisions. Here are three detailed trading strategies for using the Perfect Pivot Range (PPR) indicator for options, stocks, and commodities: 1. Options Buying Strategy with PPR Indicator Strategy: Buying Call and Put Options Based on Pivot Breakouts Objective: To capitalize on sharp price movements when key pivot levels are breached, leading to high returns with limited risk in options trading. Timeframe: 15-minute to 1-hour chart for intraday option trading. Steps: Identify the Key Levels: Use weekly pivots for intraday trading, as they provide more significant levels for options. Enable the "Previous Week High-Low" to gauge support and resistance from the previous week. Call Option Setup (Bullish Breakout): Condition: If the price breaks above the weekly pivot point (PP) with high momentum (indicated by a strong bullish candle), it signifies potential bullishness. Action: Buy Call Options at the breakout of the weekly pivot. Confirmation: Check if the price is sustaining above the pivot with a minimum of 1-2 candles (depending on timeframe) and the first resistance (R1) isn’t too far away. Target: The first resistance (R1) or previous week’s high can be your target for exiting the trade. Stop-Loss: Set a stop-loss just below the pivot point (PP) to limit risk. Put Option Setup (Bearish Breakdown): Condition: If the price breaks below the weekly pivot (PP) with strong bearish momentum, it’s a signal to expect a downward move. Action: Buy Put Options on a breakdown below the weekly pivot. Confirmation: Ensure that the price is closing below the pivot, and check for declining volumes or bearish candles. Target: The first support (S1) or the previous week’s low. Stop-Loss: Place the stop-loss just above the pivot point (PP). Example: Let’s say the weekly pivot point (PP) is at 1500, the price breaks above and sustains at 1510. You buy a Call Option with a strike price near 1500, and the target will be the first resistance (R1) at 1530. 2. Stock Trading Strategy with PPR Indicator Strategy: Swing Trading Using Pivot Points and Previous High-Low Levels Objective: To capture mid-term stock price movements using pivot points and historical high-low levels for better trade entries and exits. Timeframe: 1-day or 4-hour chart for swing trading. Steps: Identify the Trend: Start by determining the overall trend of the stock using the weekly pivots. If the price is consistently above the pivot point (PP), the trend is bullish; if below, the trend is bearish. Buy Setup (Bullish Trend Reversal): Condition: When the stock bounces off the weekly pivot point (PP) or previous week’s low, it signals a bullish reversal. Action: Enter a long position near the pivot or previous week’s low. Confirmation: Look for a bullish candle pattern or increasing volumes. Target: Set your first target at the first resistance (R1) or the previous week’s high. Stop-Loss: Place your stop-loss just below the previous week’s low or support (S1). Sell Setup (Bearish Trend Reversal): Condition: When the price hits the weekly resistance (R1) or previous week’s high and starts to reverse downwards, it’s an opportunity to short-sell the stock. Action: Enter a short position near the resistance. Confirmation: Watch for bearish candle patterns or decreasing volume at the resistance. Target: Your first target would be the weekly pivot point (PP), with the second target as the previous week’s low. Stop-Loss: Set a stop-loss just above the resistance (R1). Use Previous High-Low Levels: The previous week’s high and low are key levels where price reversals often occur, so use them as reference points for potential entry and exit. Example: Stock XYZ is trading at 200. The previous week’s low is 195, and it bounces off that level. You enter a long position with a target of 210 (previous week’s high) and place a stop-loss at 193. 3. Commodity Trading Strategy with PPR Indicator Strategy: Trend Continuation and Reversal in Commodities Objective: To capitalize on the strong trends in commodities by using pivot points as key support and resistance levels for trend continuation and reversal. Timeframe: 1-hour to 4-hour charts for commodities like Gold, Crude Oil, Silver, etc. Steps: Identify the Trend: Use monthly pivots for long-term commodities trading since commodities often follow macroeconomic trends. The monthly pivot point (PP) will give an idea of the long-term trend direction. Trend Continuation Setup (Bullish Commodity): Condition: If the price is consistently trading above the monthly pivot and pulling back towards the pivot without breaking below it, it indicates a bullish continuation. Action: Enter a long position when the price tests the monthly pivot (PP) and starts moving up again. Confirmation: Look for a strong bullish candle or an increase in volume to confirm the continuation. Target: The first resistance (R1) or previous month’s high. Stop-Loss: Place the stop-loss below the monthly pivot (PP). Trend Reversal Setup (Bearish Commodity): Condition: When the price reverses from the monthly resistance (R1) or previous month’s high, it’s a signal for a bearish reversal. Action: Enter a short position at the resistance level. Confirmation: Watch for bearish candle patterns or decreasing volumes at the resistance. Target: Set your first target as the monthly pivot (PP) or the first support (S1). Stop-Loss: Stop-loss should be placed just above the resistance level. Using Previous High-Low for Swing Trades: The previous month’s high and low are important in commodities. They often act as barriers to price movement, so traders should look for breakouts or reversals near these levels. Example: Gold is trading at $1800, with a monthly pivot at $1780 and the previous month’s high at $1830. If the price pulls back to $1780 and starts moving up again, you enter a long trade with a target of $1830, placing your stop-loss below $1770. Key Points Across All Strategies: Multiple Timeframes: Always use a combination of timeframes for confirmation. For example, a daily chart may show a bullish setup, but the weekly pivot levels can provide a larger trend context. Volume: Volume is key in confirming the strength of price movement. Always confirm breakouts or reversals with rising or declining volume. Risk Management: Set tight stop-loss levels just below support or above resistance to minimize risk and lock in profits at pivot points. Each of these strategies leverages the powerful pivot and high-low levels provided by the PPR indicator to give traders clear entry, exit, and risk management points across different markets

Wskaźnik Pine Script®

od abiramsivprasad

HTF Triangle HTF Triangle by ZeroHeroTrading aims at detecting ascending and descending triangles using higher time frame data, without repainting nor misalignment issues. It addresses user requests for combining Ascending Triangle and Descending Triangle into one indicator. Ascending triangles are defined by an horizontal upper trend line and a rising lower trend line. It is a chart pattern used in technical analysis to predict the continuation of an uptrend. Descending triangles are defined by a falling upper trend line and an horizontal lower trend line. It is a chart pattern used in technical analysis to predict the continuation of a downtrend. This indicator can be useful if you, like me, believe that higher time frames can offer a broader perspective and provide clearer signals, smoothing out market noise and showing longer-term trends. You can change the indicator settings as you see fit to tighten or loosen the detection, and achieve the best results for your use case. Features It draws the detected ascending and descending triangles on the chart. It supports alerting when a detection occurs. It allows for selecting ascending and/or descending triangle detection. It allows for setting the higher time frame to run the detection on. It allows for setting the minimum number of consecutive valid higher time frame bars to fit the pattern criteria. It allows for setting a high/low factor detection criteria to apply on higher time frame bars high/low as a proportion of the distance between the reference bar high/low and open/close. It allows for turning on an adjustment of the triangle using highest/lowest values within valid higher time frame bars. Settings Ascending checkbox: Turns on/off ascending triangle detection. Default is on. Descending checkbox: Turns on/off descending triangle detection. Default is on. Higher Time Frame dropdown: Selects higher time frame to run the detection on. It must be higher than, and a multiple of, the chart's timeframe. Default is 5 minutes. Valid Bars Minimum field: Sets minimum number of consecutive valid higher time frame bars to fit the pattern criteria. Default is 3. Minimum is 1. High/Low Factor checkbox: Turns on/off high/low factor detection criteria. Default is on. High/Low Factor field: Sets high/low factor to apply on higher time frame bars high/low as a proportion of the distance between the reference bar high/low and open/close. Default is 0. Minimum is 0. Maximum is 1. Adjust Triangle checkbox: Turns on/off triangle adjustment using highest/lowest values within valid higher time frame bars. Default is on. Detection Algorithm Notes The detection algorithm recursively selects a higher time frame bar as reference. Then it looks at the consecutive higher time frame bars (as per the requested number of minimum valid bars) as follows: Ascending Triangle Low must be higher than previous bar. Open/close max value must be lower than (or equal to) reference bar high. When high/low factor criteria is turned on, high must be higher than (or equal to) reference bar open/close max value plus high/low factor proportion of the distance between reference bar high and open/close max value. Descending Triangle High must be lower than previous bar. Open/close min value must be higher than (or equal to) reference bar low. When high/low factor criteria is turned on, low must be lower than (or equal to) reference bar open/close min value minus high/low factor proportion of the distance between reference bar low and open/close min value.

Wskaźnik Pine Script®

od ZeroHeroTrading

Azmi Moving Averages This trading indicator, designed using Pine Script, incorporates two simple moving averages (SMAs) with the same length but different data sources. Here's a detailed description of the indicator: ### Indicator Overview **Name:** Two Moving Averages ### Inputs 1. **Length (20):** The period over which the moving averages are calculated. Both moving averages use a length of 20 periods. 2. **Source:** - **High:** The first moving average is calculated using the high prices of the candles. - **Low:** The second moving average is calculated using the low prices of the candles. ### Calculations 1. **MA High (maHigh):** This is the simple moving average of the high prices over the specified length (20 periods). It smooths the high prices over time, showing the average high price trend. 2. **MA Low (maLow):** This is the simple moving average of the low prices over the same length (20 periods). It smooths the low prices over time, showing the average low price trend. ### Plotting - **MA High (Blue Line):** This line represents the moving average of the high prices. It is plotted in blue with a line width of 2. - **MA Low (Red Line):** This line represents the moving average of the low prices. It is plotted in red with a line width of 2. ### Interpretation 1. **Trend Identification:** - **Bullish Trend:** When the MA High is above the MA Low, it generally indicates a bullish trend, as the average high prices are higher than the average low prices. - **Bearish Trend:** When the MA High is below the MA Low, it suggests a bearish trend, as the average high prices are lower than the average low prices. 2. **Support and Resistance:** - The MA High can act as a dynamic resistance level, where the price may face selling pressure. - The MA Low can act as a dynamic support level, where the price may find buying interest. 3. **Price Channels:** - The area between the MA High and MA Low creates a channel that can help traders visualize the range within which the price is fluctuating. This channel can be used to identify potential breakout or breakdown points. ### Example Usage - **Buy Signal:** A potential buy signal may occur when the price crosses above both the MA High and MA Low, indicating a possible upward trend. - **Sell Signal:** A potential sell signal may occur when the price crosses below both the MA High and MA Low, indicating a possible downward trend. This indicator provides a visual representation of the average high and low prices, helping traders identify trends, potential support and resistance levels, and price channels for better trading decisions.

Wskaźnik Pine Script®

ZigZag Library [TradingFinder]🔵 Introduction The "Zig Zag" indicator is an analytical tool that emerges from pricing changes. Essentially, it connects consecutive high and low points in an oscillatory manner. This method helps decipher price changes and can also be useful in identifying traditional patterns. By sifting through partial price changes, "Zig Zag" can effectively pinpoint price fluctuations within defined time intervals. 🔵 Key Features 1. Drawing the Zig Zag based on Pivot points : The algorithm is based on pivots that operate consecutively and alternately (switch between high and low swing). In this way, zigzag lines are connected from a swing high to a swing low and from a swing low to a swing high. Also, with a very low probability, it is possible to have both low pivots and high pivots in one candle. In these cases, the algorithm tries to make the best decision to make the most suitable choice. You can control what period these decisions are based on through the "PiPe" parameter. 2.Naming and labeling each pivot based on its position as "Higher High" (HH), "Lower Low" (LL), "Higher Low" (HL), and "Lower High" (LH). Additionally, classic patterns such as HH, LH, LL, and HL can be recognized. All traders analyzing financial markets using classic patterns and Elliot Waves can benefit from the "zigzag" indicator to facilitate their analysis. " HH ": When the price is higher than the previous peak (Higher High). " HL ": When the price is higher than the previous low (Higher Low). " LH ": When the price is lower than the previous peak (Lower High). " LL ": When the price is lower than the previous low (Lower Low). 🔵 How to Use First, you can add the library to your code as shown in the example below. import TFlab/ZigZagLibrary_TradingFinder/1 as ZZ Function "ZigZag" Parameters : 🟣 Logical Parameters 1. HIGH : You should place the "high" value here. High is a float variable. 2. LOW : You should place the "low" value here. Low is a float variable. 3. BAR_INDEX : You should place the "bar_index" value here. Bar_index is an integer variable. 4. PiPe : The desired pivot period for plotting Zig Zag is placed in this parameter. For example, if you intend to draw a Zig Zag with a Swing Period of 5, you should input 5. PiPe is an integer variable. Important : Apart from the "PiPe" indicator, which is part of the customization capabilities of this indicator, you can create a multi-time frame mode for the indicator using 3 parameters "High", "Low" and "BAR_INDEX". In this way, instead of the data of the current time frame, use the data of other time frames. Note that it is better to use the current time frame data, because using the multi-time frame mode is associated with challenges that may cause bugs in your code. 🟣 Setting Parameters 5. SHOW_LINE : It's a boolean variable. When true, the Zig Zag line is displayed, and when false, the Zig Zag line display is disabled. 6. STYLE_LINE : In this variable, you can determine the style of the Zig Zag line. You can input one of the 3 options: line.style_solid, line.style_dotted, line.style_dashed. STYLE_LINE is a constant string variable. 7. COLOR_LINE : This variable takes the input of the line color. 8. WIDTH_LINE : The input for this variable is a number from 1 to 3, which is used to adjust the thickness of the line that draws the Zig Zag. WIDTH_LINE is an integer variable. 9. SHOW_LABEL : It's a boolean variable. When true, labels are displayed, and when false, label display is disabled. 10. COLOR_LABEL : The color of the labels is set in this variable. 11. SIZE_LABEL : The size of the labels is set in this variable. You should input one of the following options: size.auto, size.tiny, size.small, size.normal, size.large, size.huge. 12. Show_Support : It's a boolean variable that, when true, plots the last support line, and when false, disables its plotting. 13. Show_Resistance : It's a boolean variable that, when true, plots the last resistance line, and when false, disables its plotting. Suggestion : You can use the following code snippet to import Zig Zag into your code for time efficiency. //import Library import TFlab/ZigZagLibrary_TradingFinder/1 as ZZ // Input and Setting // Zig Zag Line ShZ = input.bool(true , 'Show Zig Zag Line', group = 'Zig Zag') //Show Zig Zag PPZ = input.int(5 ,'Pivot Period Zig Zag Line' , group = 'Zig Zag') //Pivot Period Zig Zag ZLS = input.string(line.style_dashed , 'Zig Zag Line Style' , options = , group = 'Zig Zag' ) //Zig Zag Line Style ZLC = input.color(color.rgb(0, 0, 0) , 'Zig Zag Line Color' , group = 'Zig Zag') //Zig Zag Line Color ZLW = input.int(1 , 'Zig Zag Line Width' , group = 'Zig Zag')//Zig Zag Line Width // Label ShL = input.bool(true , 'Label', group = 'Label') //Show Label LC = input.color(color.rgb(0, 0, 0) , 'Label Color' , group = 'Label')//Label Color LS = input.string(size.tiny , 'Label size' , options = , group = 'Label' )//Label size Show_Support= input.bool(false, 'Show Last Support', tooltip = 'Last Support' , group = 'Support and Resistance') Show_Resistance = input.bool(false, 'Show Last Resistance', tooltip = 'Last Resistance' , group = 'Support and Resistance') //Call Function ZZ.ZigZag(high ,low ,bar_index ,PPZ , ShZ ,ZLS , ZLC, ZLW ,ShL , LC , LS , Show_Support , Show_Resistance )

Biblioteka Pine Script®

Key Levels | Flux Charts 💎 GENERAL OVERVIEW Introducing our new Key Levels indicator! This indicator allows you to see the key levels on the current chart such as previous day lows / highs, pre-market data, yesterday's close, today's open, pivot points, and much more! It's highly user-friendly with every line being individually customizable and having a wide range of text options. Features of the new Key Levels indicator : Today & Yesterday High, Low, Open & Close Previous 3-10th Day Highs & Lows Pre-Market Highs & Lows Previous Month High & Low High & Low Pivots Combination Of Same Levels Wide Customization Options 📌 HOW DOES IT WORK ? Key levels are important areas in a chart where a significant reaction is expected. In this indicator, you can enable up to the previous 10 days highs and lows, yesterday's close / today's open, and the latest pivot points. Key levels generally act like support & resistance. Here are a few examples : As shown, key levels play an important role determining the current trend and can be useful in identifying potential levels where the market will reverse or breakout. 🚩UNIQUENESS 1. More Key Levels We believe that past key levels may be as important as current ones. Some of the key-levels indicators do not include them even though strong reactions can happen around them. Thus, our indicator let's you check up to 10 days backwards. You can select the ones you think that are the most important and just enable them, making the indicator customizable to your liking. 2. Pre-Market Data With assets that have pre-market data available, it's crucial to analyze it to have a better understanding of the market in regular trading hours. Our indicator will plot pre-market highs and lows, even if your chart is in the regular trading hours only mode. We believe this will be helpful with your analyzing process. 3. Combination The indicator can dynamically combine same key levels, so you can have a clear look to the chart without lines & text colliding with each other. This would also help you determine stronger key levels as if a key level occured more than a time, it could be a sign that it's a stronger one. An example : To summarize, using key levels is an essential skill while detecting zones where strong reactions are expected. This indicator provides up to 10 day's high and low levels, and all of them can be individually turned on / off. Traders that believe older key levels can be important and want to look at the whole picture may use this feature. Also for assets that have pre-market data available, the indicator provides pre-market levels as well. Besides all that, High & Low pivots will provide latest key levels so traders can use them in their decisions. ⚙️SETTINGS 1. General Configuration You can enable / disable : 1. Today's High / Low / Open 2. Yesterday's High / Low / Close 3. 3th-10th Day High / Low 4. Pre-Market High / Low 5. Previous Month High / Low You can also change the colors and switch their line styles between solid, dashed and dotted. 2. High & Low Pivots Enabled -> Enable / Disable High & Low Pivots Pivot Range -> The range used in the detection of pivot points. Larger values will result in less pivot points, while smaller values will provide more pivot points. This essentially determines how many bars to the right & left shouldn't exceed the pivot's high or low. You can also change the text color and text size of the pivots from the settings. 3. Style settings Text Offset -> How many bars of offset should the texts have to the right. Increase if text collides with bars while Align Labels option is set to "Right". Extend Lines -> If enabled, lines will be extended infinitely to right & left. If disabled, all lines will be clamped in their timelines. Show Line Values -> If enabled, line information text will contain their price. Align Labels -> Right = Align line labels to right. Center = Line labels will always be at the center of the screen.

Wskaźnik Pine Script®

Zaktualizowano

PinBar and Bloom Pattern Concept (Zeiierman)█ Overview The Precision PinBar and Bloom Pattern Concept by Zeiierman introduces two new patterns, which we call the Bloom Pattern and the Precision PinBar Pattern. These patterns are used in conjunction with market open, high, and low values from different periods and timeframes. Together, they form the basis of the "PinBar and Bloom Pattern Concept." The main idea is to identify key bullish and bearish candlestick patterns around key levels plotted on the chart. The key levels are the Open, High, and Low from the current and previous periods of the selected timeframe. Users can choose how many previous periods to be drawn on the chart. █ How It Works The indicator operates by analyzing market data over selected timeframes. It uses inputs such as previous period open-high-low lines, timeframe selections, and pattern detection settings like Symmetry Precision and Range Threshold. These parameters allow the indicator to identify specific market conditions, including symmetrical movements in price and significant price range deviations, which form the basis of the Bloom and Precision PinBar patterns. Symmetry Signal: Purpose: To detect symmetry in price movements based on a precision threshold. How It Works: This function calculates the symmetry of high and low prices within the specified precision. It returns two boolean values indicating whether the high and low prices are within the symmetry precision. BaselineBound Pattern: Purpose: To identify bullish or bearish patterns based on a range factor. How It Works: The function calculates whether the current close price is within a certain range of the high-low difference of the previous period. It returns bullish and bearish signals based on these calculations. █ ● Bloom Pattern The Bloom Pattern is a unique candlestick pattern designed to identify significant trend reversals or continuations. It's not a single candlestick formation but a combination of a few elements that signal a potential strong move in the market. ⚪ Previous and Current Candle Analysis: The Bloom Pattern looks at the relationship between the current candle and the previous one. It checks whether the current candle's body (the range between its opening and closing prices) fully encompasses the body of the previous candle. This condition is known as "embodying." ⚪ Baseline Bound: The Baseline Bound concept involves comparing the closing price to a range established by the high and low of the previous candle, adjusted by a factor (the rangeFactor). This helps in identifying if the current price is showing a bullish or bearish tendency relative to the previous period's price movement. ⚪ Symmetry Signal: Additionally, it uses the Symmetry Signal, which measures the symmetry between the high and low prices of two consecutive candles. ⚪ Bullish and Bearish Signals: The combination of these conditions (embodying, baseline bound, and symmetry) results in either a bullish or bearish signal. A bullish signal suggests a potential upward trend, while a bearish signal indicates a possible downward trend. █ ● Precision PinBar Pattern The Precision PinBar Pattern is a refined version of the traditional Pin Bar, a well-known candlestick pattern used in trading. This pattern focuses on identifying market reversals with a high degree of accuracy. ⚪ Identification of Pin Bars: The function first identifies a pin bar, characterized by a small body and a long wick. The long wick indicates a rejection of certain price levels, and the small body shows little change between the opening and closing prices. ⚪ Tail and Body Length Analysis: The script calculates the length of the bar's tail (wick) and compares it to the length of the body. A qualifying pin bar typically has a tail at least three times longer than its body, suggesting a strong rejection of prices. ⚪ Positioning and Thresholds: Open-Close Position: The function checks whether the opening and closing prices are within a certain threshold of the high or low of the bar, which helps in distinguishing between bullish and bearish pin bars. ⚪ Baseline Bound and Symmetry: Like the Bloom Pattern, it incorporates Baseline Bound and Symmetry Signal concepts to validate the significance of the pin bar. ⚪ Bullish and Bearish Signals: Depending on these factors, a bullish or bearish pin bar is identified. A bullish PinBar suggests potential upward price movement, while a bearish PinBar indicates possible downward price movement. █ How to Use Using the Bloom and Precision PinBar patterns in conjunction with key market levels, such as previous highs and lows, can be a powerful strategy for traders. These market levels often act as significant points of support and resistance, and combining them with the patterns can offer strong trade signals. Here's how traders can effectively utilize these patterns: Identifying Key Market Levels Previous Highs and Lows: These are the highest and lowest points reached in previous trading periods and are often considered strong levels of resistance (in the case of previous highs) and support (in the case of previous lows). Using the Bloom Pattern Near Previous Highs (Resistance): If a Bloom Pattern emerges near a previous high, it could indicate a potential bearish reversal. Traders might interpret this as a signal to consider short positions, especially if the pattern shows bearish characteristics. Near Previous Lows (Support): Conversely, a bullish Bloom Pattern near a previous low could suggest a trend reversal to the upside. This could be a signal for traders to consider long positions. Using the Precision PinBar Pattern Precision PinBar at Resistance: A bearish Precision PinBar appearing near a previous high can be a strong signal for a potential downward move. This setup is often used by traders to enter short positions, anticipating a price rejection at this resistance level. Precision PinBar at Support: Similarly, a bullish Precision PinBar at or near a previous low suggests that the market is rejecting lower prices, indicating potential upward momentum. This is typically used by traders as a cue to go long. █ Settings Previous Open-High-Low Lines: Determine the number of historical periods to analyze. Settings include toggling the visibility of lines and labels and specifying the number of periods. Timeframe & Current Period: Select the timeframe for current market analysis. Options include different timeframes (e.g., 1H, 1D) and customization of line styles and colors. Pattern Settings: Adjust the Symmetry Precision and Range Threshold to fine-tune the indicator's sensitivity to specific market movements. Bloom & Precision PinBar Pattern: Enable or disable the detection of specific patterns and customize the visual representation of these patterns on the chart. ----------------- Disclaimer The information contained in my Scripts/Indicators/Ideas/Algos/Systems does not constitute financial advice or a solicitation to buy or sell any securities of any type. I will not accept liability for any loss or damage, including without limitation any loss of profit, which may arise directly or indirectly from the use of or reliance on such information. All investments involve risk, and the past performance of a security, industry, sector, market, financial product, trading strategy, backtest, or individual's trading does not guarantee future results or returns. Investors are fully responsible for any investment decisions they make. Such decisions should be based solely on an evaluation of their financial circumstances, investment objectives, risk tolerance, and liquidity needs. My Scripts/Indicators/Ideas/Algos/Systems are only for educational purposes!

Wskaźnik Pine Script®

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Price-Action Candles What is a swing high or swing low? Swing highs and lows are price extremes. For example say we set our swing length to 5. A candle that is a swing high with a swing length of 5 will have 5 bars to the left that are lower and 5 bars to the right that are lower. A candle that is a swing low with a swing length of 5 will have 5 bars to the left that are higher and 5 bars to the right that are higher. How are the trend candles calculated? The trend candles are calculated by storing and comparing historical swing lows and swing highs. The pinescript code goes as follows: The pinescript code goes as follows: var int trend = na trend := ((hh and high >= psh) or close > csh) ? 1 : ((ll and low <= psl) or close < csl) ? -1 : lh or hl ? 0 : trend What does that gibberish mean? -Candle can be GREEN IF - We have a higher high (current swing high is greater than the previous swing high) and the high is greater than the previous swing high - OR The current close is greater than the current swing high -Candle can be RED IF - We have a lower low (current swing low is less than the previous swing low) and the low is less than the previous swing low - OR The current close is less than the current swing low -Candle can be YELLOW IF - We have a new swing high and the new swing high is less than the previous swing high - OR We have a new swing low and the new swing low is greater than the previous swing low If none of the conditions above are true then we continue with whatever color the previous bar was. What is repainting? Repainting is "script behavior causing historical vs realtime calculations or plots to behave differently." That definition comes directly from Tradingview. If you want to read the full explanation you can visit it here www.tradingview.com . The price-action candles use swing highs and swing lows which need bars to the left (past) and bars to the right ("future") in order to confirm the swing level. Because of the need to wait for confirmation to for swing levels the plot style can be repainting. With the price-action candles indicator the only repainting part of the indicator is the labels. The price-action candles themselves WILL NOT REPAINT. The labels however can be set to repaint or not depending on the user preference. If the user opts to use repainting then the label location is shifted back by the length of the price-action. So if the "Price-Action Length" input is set to 10, and the user wants repainting, the swing high/low label will be shifted back 10 bars. If the user opts for no repainting, the label will not be shifted and instead show on the exact bar the swing level was confirmed. Examples Below. Repaint Here the labels are shifted back the price-action length. Non-Repaint Here the labels are not shifted back because the input setting is set to not repaint. Multi-timeframe Analysis The users can view the trend from multiple different timeframes at once with a table displayed at the bottom of their charts. The timeframe can be lower or higher than the chart timeframe. More examples Be on the lookout for the Price Action Candles (Lower) indicator where you can view the multi-timeframe labels on a lower price grid in order to see the history over time!

Wskaźnik Pine Script®

Zaktualizowano

Brake Of Structure (BOS) By Gadatas This indicator is designed to identify and track swing highs and lows in a given market on any timeframe. It plots these swing highs and lows as solid lines on the chart. The indicator allows for customization of the line color and width and using another timeframe. The indicator follows specific rules to determine when a new high or low is created. If the current range is considered bullish (meaning the most recent breakout was to the topside), the indicator will only update the low if a candle's body falls below the current low. However, if the current range is bearish (most recent breakout to the downside), the indicator will only update the high if a candle's body rises above the current high. When a range is identified as bullish, the indicator will continue updating the high until a swing high is formed, denoting the high of the range. The high will only change if a candle's body surpasses the previous high. The low, on the other hand, will be updated based on the last time a candle's body falls below a previous candle's low. The lowest low after this condition is met will be assigned as the low of the range. Conversely, when a range is identified as bearish, the indicator will continue updating the low until a swing low is formed, denoting the low of the range. The low will only change if a candle's body falls below the previous low. The high, in this case, will be updated based on the last time a candle's body rises above a previous candle's high. The highest high after this condition is met will be assigned as the high of the range. Swing highs are determined by having lower highs to the left and right, while swing lows have higher lows to the left and right. These swings are used to determine the final high or low of a bullish or bearish range, respectively. Tis Indicator differs from other indicators by incorporating this concept to track market structure. The indicator assumes that significant market players sell before making heavy purchases in bullish ranges and buy before selling heavily in bearish ranges. The lines on the chart represent prior highs and lows, as well as the current updated highs and lows based on this theory. By using this indicator, one can gain insights into the structure of price movement and potentially identify bullish or bearish continuations. It can also provide confluence when analyzing multiple timeframes to validate trend-following strategies.

Wskaźnik Pine Script®

CNTLibrary Library "CNTLibrary" Custom Functions To Help Code In Pinescript V5 Coded By Christian Nataliano First Coded In 10/06/2023 Last Edited In 22/06/2023 Huge Shout Out To © ZenAndTheArtOfTrading and his ZenLibrary V5, Some Of The Custom Functions Were Heavily Inspired By Matt's Work & His Pine Script Mastery Course Another Shout Out To The TradingView's Team Library ta V5 //==================================================================================================================================================== // Custom Indicator Functions //==================================================================================================================================================== GetKAMA(KAMA_lenght, Fast_KAMA, Slow_KAMA) Calculates An Adaptive Moving Average Based On Perry J Kaufman's Calculations Parameters: KAMA_lenght (int) : Is The KAMA Lenght Fast_KAMA (int) : Is The KAMA's Fastes Moving Average Slow_KAMA (int) : Is The KAMA's Slowest Moving Average Returns: Float Of The KAMA's Current Calculations GetMovingAverage(Source, Lenght, Type) Get Custom Moving Averages Values Parameters: Source (float) : Of The Moving Average, Defval = close Lenght (simple int) : Of The Moving Average, Defval = 50 Type (string) : Of The Moving Average, Defval = Exponential Moving Average Returns: The Moving Average Calculation Based On Its Given Source, Lenght & Calculation Type (Please Call Function On Global Scope) GetDecimals() Calculates how many decimals are on the quote price of the current market © ZenAndTheArtOfTrading Returns: The current decimal places on the market quote price Truncate(number, decimalPlaces) Truncates (cuts) excess decimal places © ZenAndTheArtOfTrading Parameters: number (float) decimalPlaces (simple float) Returns: The given number truncated to the given decimalPlaces ToWhole(number) Converts pips into whole numbers © ZenAndTheArtOfTrading Parameters: number (float) Returns: The converted number ToPips(number) Converts whole numbers back into pips © ZenAndTheArtOfTrading Parameters: number (float) Returns: The converted number GetPctChange(value1, value2, lookback) Gets the percentage change between 2 float values over a given lookback period © ZenAndTheArtOfTrading Parameters: value1 (float) value2 (float) lookback (int) BarsAboveMA(lookback, ma) Counts how many candles are above the MA © ZenAndTheArtOfTrading Parameters: lookback (int) ma (float) Returns: The bar count of how many recent bars are above the MA BarsBelowMA(lookback, ma) Counts how many candles are below the MA © ZenAndTheArtOfTrading Parameters: lookback (int) ma (float) Returns: The bar count of how many recent bars are below the EMA BarsCrossedMA(lookback, ma) Counts how many times the EMA was crossed recently © ZenAndTheArtOfTrading Parameters: lookback (int) ma (float) Returns: The bar count of how many times price recently crossed the EMA GetPullbackBarCount(lookback, direction) Counts how many green & red bars have printed recently (ie. pullback count) © ZenAndTheArtOfTrading Parameters: lookback (int) direction (int) Returns: The bar count of how many candles have retraced over the given lookback & direction GetSwingHigh(Lookback, SwingType) Check If Price Has Made A Recent Swing High Parameters: Lookback (int) : Is For The Swing High Lookback Period, Defval = 7 SwingType (int) : Is For The Swing High Type Of Identification, Defval = 1 Returns: A Bool - True If Price Has Made A Recent Swing High GetSwingLow(Lookback, SwingType) Check If Price Has Made A Recent Swing Low Parameters: Lookback (int) : Is For The Swing Low Lookback Period, Defval = 7 SwingType (int) : Is For The Swing Low Type Of Identification, Defval = 1 Returns: A Bool - True If Price Has Made A Recent Swing Low //==================================================================================================================================================== // Custom Risk Management Functions //==================================================================================================================================================== CalculateStopLossLevel(OrderType, Entry, StopLoss) Calculate StopLoss Level Parameters: OrderType (int) : Is To Determine A Long / Short Position, Defval = 1 Entry (float) : Is The Entry Level Of The Order, Defval = na StopLoss (float) : Is The Custom StopLoss Distance, Defval = 2x ATR Below Close Returns: Float - The StopLoss Level In Actual Price As A CalculateStopLossDistance(OrderType, Entry, StopLoss) Calculate StopLoss Distance In Pips Parameters: OrderType (int) : Is To Determine A Long / Short Position, Defval = 1 Entry (float) : Is The Entry Level Of The Order, NEED TO INPUT PARAM StopLoss (float) : Level Based On Previous Calculation, NEED TO INPUT PARAM Returns: Float - The StopLoss Value In Pips CalculateTakeProfitLevel(OrderType, Entry, StopLossDistance, RiskReward) Calculate TakeProfit Level Parameters: OrderType (int) : Is To Determine A Long / Short Position, Defval = 1 Entry (float) : Is The Entry Level Of The Order, Defval = na StopLossDistance (float) RiskReward (float) Returns: Float - The TakeProfit Level In Actual Price CalculateTakeProfitDistance(OrderType, Entry, TakeProfit) Get TakeProfit Distance In Pips Parameters: OrderType (int) : Is To Determine A Long / Short Position, Defval = 1 Entry (float) : Is The Entry Level Of The Order, NEED TO INPUT PARAM TakeProfit (float) : Level Based On Previous Calculation, NEED TO INPUT PARAM Returns: Float - The TakeProfit Value In Pips CalculateConversionCurrency(AccountCurrency, SymbolCurrency, BaseCurrency) Get The Conversion Currecny Between Current Account Currency & Current Pair's Quoted Currency (FOR FOREX ONLY) Parameters: AccountCurrency (simple string) : Is For The Account Currency Used SymbolCurrency (simple string) : Is For The Current Symbol Currency (Front Symbol) BaseCurrency (simple string) : Is For The Current Symbol Base Currency (Back Symbol) Returns: Tuple Of A Bollean (Convert The Currency ?) And A String (Converted Currency) CalculateConversionRate(ConvertCurrency, ConversionRate) Get The Conversion Rate Between Current Account Currency & Current Pair's Quoted Currency (FOR FOREX ONLY) Parameters: ConvertCurrency (bool) : Is To Check If The Current Symbol Needs To Be Converted Or Not ConversionRate (float) : Is The Quoted Price Of The Conversion Currency (Input The request.security Function Here) Returns: Float Price Of Conversion Rate (If In The Same Currency Than Return Value Will Be 1.0) LotSize(LotSizeSimple, Balance, Risk, SLDistance, ConversionRate) Get Current Lot Size Parameters: LotSizeSimple (bool) : Is To Toggle Lot Sizing Calculation (Simple Is Good Enough For Stocks & Crypto, Whilst Complex Is For Forex) Balance (float) : Is For The Current Account Balance To Calculate The Lot Sizing Based Off Risk (float) : Is For The Current Risk Per Trade To Calculate The Lot Sizing Based Off SLDistance (float) : Is The Current Position StopLoss Distance From Its Entry Price ConversionRate (float) : Is The Currency Conversion Rate (Used For Complex Lot Sizing Only) Returns: Float - Position Size In Units ToLots(Units) Converts Units To Lots Parameters: Units (float) : Is For How Many Units Need To Be Converted Into Lots (Minimun 1000 Units) Returns: Float - Position Size In Lots ToUnits(Lots) Converts Lots To Units Parameters: Lots (float) : Is For How Many Lots Need To Be Converted Into Units (Minimun 0.01 Units) Returns: Int - Position Size In Units ToLotsInUnits(Units) Converts Units To Lots Than Back To Units Parameters: Units (float) : Is For How Many Units Need To Be Converted Into Lots (Minimun 1000 Units) Returns: Float - Position Size In Lots That Were Rounded To Units ATRTrail(OrderType, SourceType, ATRPeriod, ATRMultiplyer, SwingLookback) Calculate ATR Trailing Stop Parameters: OrderType (int) : Is To Determine A Long / Short Position, Defval = 1 SourceType (int) : Is To Determine Where To Calculate The ATR Trailing From, Defval = close ATRPeriod (simple int) : Is To Change Its ATR Period, Defval = 20 ATRMultiplyer (float) : Is To Change Its ATR Trailing Distance, Defval = 1 SwingLookback (int) : Is To Change Its Swing HiLo Lookback (Only From Source Type 5), Defval = 7 Returns: Float - Number Of The Current ATR Trailing DangerZone(WinRate, AvgRRR, Filter) Calculate Danger Zone Of A Given Strategy Parameters: WinRate (float) : Is The Strategy WinRate AvgRRR (float) : Is The Strategy Avg RRR Filter (float) : Is The Minimum Profit It Needs To Be Out Of BE Zone, Defval = 3 Returns: Int - Value, 1 If Out Of Danger Zone, 0 If BE, -1 If In Danger Zone IsQuestionableTrades(TradeTP, TradeSL) Checks For Questionable Trades (Which Are Trades That Its TP & SL Level Got Hit At The Same Candle) Parameters: TradeTP (float) : Is The Trade In Question Take Profit Level TradeSL (float) : Is The Trade In Question Stop Loss Level Returns: Bool - True If The Last Trade Was A "Questionable Trade" //==================================================================================================================================================== // Custom Strategy Functions //==================================================================================================================================================== OpenLong(EntryID, LotSize, LimitPrice, StopPrice, Comment, CommentValue) Open A Long Order Based On The Given Params Parameters: EntryID (string) : Is The Trade Entry ID, Defval = "Long" LotSize (float) : Is The Lot Size Of The Trade, Defval = 1 LimitPrice (float) : Is The Limit Order Price To Set The Order At, Defval = Na / Market Order Execution StopPrice (float) : Is The Stop Order Price To Set The Order At, Defval = Na / Market Order Execution Comment (string) : Is The Order Comment, Defval = Long Entry Order CommentValue (string) : Is For Custom Values In The Order Comment, Defval = Na Returns: Void OpenShort(EntryID, LotSize, LimitPrice, StopPrice, Comment, CommentValue) Open A Short Order Based On The Given Params Parameters: EntryID (string) : Is The Trade Entry ID, Defval = "Short" LotSize (float) : Is The Lot Size Of The Trade, Defval = 1 LimitPrice (float) : Is The Limit Order Price To Set The Order At, Defval = Na / Market Order Execution StopPrice (float) : Is The Stop Order Price To Set The Order At, Defval = Na / Market Order Execution Comment (string) : Is The Order Comment, Defval = Short Entry Order CommentValue (string) : Is For Custom Values In The Order Comment, Defval = Na Returns: Void TP_SLExit(FromID, TPLevel, SLLevel, PercentageClose, Comment, CommentValue) Exits Based On Predetermined TP & SL Levels Parameters: FromID (string) : Is The Trade ID That The TP & SL Levels Be Palced TPLevel (float) : Is The Take Profit Level SLLevel (float) : Is The StopLoss Level PercentageClose (float) : Is The Amount To Close The Order At (In Percentage) Defval = 100 Comment (string) : Is The Order Comment, Defval = Exit Order CommentValue (string) : Is For Custom Values In The Order Comment, Defval = Na Returns: Void CloseLong(ExitID, PercentageClose, Comment, CommentValue, Instant) Exits A Long Order Based On A Specified Condition Parameters: ExitID (string) : Is The Trade ID That Will Be Closed, Defval = "Long" PercentageClose (float) : Is The Amount To Close The Order At (In Percentage) Defval = 100 Comment (string) : Is The Order Comment, Defval = Exit Order CommentValue (string) : Is For Custom Values In The Order Comment, Defval = Na Instant (bool) : Is For Exit Execution Type, Defval = false Returns: Void CloseShort(ExitID, PercentageClose, Comment, CommentValue, Instant) Exits A Short Order Based On A Specified Condition Parameters: ExitID (string) : Is The Trade ID That Will Be Closed, Defval = "Short" PercentageClose (float) : Is The Amount To Close The Order At (In Percentage) Defval = 100 Comment (string) : Is The Order Comment, Defval = Exit Order CommentValue (string) : Is For Custom Values In The Order Comment, Defval = Na Instant (bool) : Is For Exit Execution Type, Defval = false Returns: Void BrokerCheck(Broker) Checks Traded Broker With Current Loaded Chart Broker Parameters: Broker (string) : Is The Current Broker That Is Traded Returns: Bool - True If Current Traded Broker Is Same As Loaded Chart Broker OpenPC(LicenseID, OrderType, UseLimit, LimitPrice, SymbolPrefix, Symbol, SymbolSuffix, Risk, SL, TP, OrderComment, Spread) Compiles Given Parameters Into An Alert String Format To Open Trades Using Pine Connector Parameters: LicenseID (string) : Is The Users PineConnector LicenseID OrderType (int) : Is The Desired OrderType To Open UseLimit (bool) : Is If We Want To Enter The Position At Exactly The Previous Closing Price LimitPrice (float) : Is The Limit Price Of The Trade (Only For Pending Orders) SymbolPrefix (string) : Is The Current Symbol Prefix (If Any) Symbol (string) : Is The Traded Symbol SymbolSuffix (string) : Is The Current Symbol Suffix (If Any) Risk (float) : Is The Trade Risk Per Trade / Fixed Lot Sizing SL (float) : Is The Trade SL In Price / In Pips TP (float) : Is The Trade TP In Price / In Pips OrderComment (string) : Is The Executed Trade Comment Spread (float) : is The Maximum Spread For Execution Returns: String - Pine Connector Order Syntax Alert Message ClosePC(LicenseID, OrderType, SymbolPrefix, Symbol, SymbolSuffix) Compiles Given Parameters Into An Alert String Format To Close Trades Using Pine Connector Parameters: LicenseID (string) : Is The Users PineConnector LicenseID OrderType (int) : Is The Desired OrderType To Close SymbolPrefix (string) : Is The Current Symbol Prefix (If Any) Symbol (string) : Is The Traded Symbol SymbolSuffix (string) : Is The Current Symbol Suffix (If Any) Returns: String - Pine Connector Order Syntax Alert Message //==================================================================================================================================================== // Custom Backtesting Calculation Functions //==================================================================================================================================================== CalculatePNL(EntryPrice, ExitPrice, LotSize, ConversionRate) Calculates Trade PNL Based On Entry, Eixt & Lot Size Parameters: EntryPrice (float) : Is The Trade Entry ExitPrice (float) : Is The Trade Exit LotSize (float) : Is The Trade Sizing ConversionRate (float) : Is The Currency Conversion Rate (Used For Complex Lot Sizing Only) Returns: Float - The Current Trade PNL UpdateBalance(PrevBalance, PNL) Updates The Previous Ginve Balance To The Next PNL Parameters: PrevBalance (float) : Is The Previous Balance To Be Updated PNL (float) : Is The Current Trade PNL To Be Added Returns: Float - The Current Updated PNL CalculateSlpComm(PNL, MaxRate) Calculates Random Slippage & Commisions Fees Based On The Parameters Parameters: PNL (float) : Is The Current Trade PNL MaxRate (float) : Is The Upper Limit (In Percentage) Of The Randomized Fee Returns: Float - A Percentage Fee Of The Current Trade PNL UpdateDD(MaxBalance, Balance) Calculates & Updates The DD Based On Its Given Parameters Parameters: MaxBalance (float) : Is The Maximum Balance Ever Recorded Balance (float) : Is The Current Account Balance Returns: Float - The Current Strategy DD CalculateWR(TotalTrades, LongID, ShortID) Calculate The Total, Long & Short Trades Win Rate Parameters: TotalTrades (int) : Are The Current Total Trades That The Strategy Has Taken LongID (string) : Is The Order ID Of The Long Trades Of The Strategy ShortID (string) : Is The Order ID Of The Short Trades Of The Strategy Returns: Tuple Of Long WR%, Short WR%, Total WR%, Total Winning Trades, Total Losing Trades, Total Long Trades & Total Short Trades CalculateAvgRRR(WinTrades, LossTrades) Calculates The Overall Strategy Avg Risk Reward Ratio Parameters: WinTrades (int) : Are The Strategy Winning Trades LossTrades (int) : Are The Strategy Losing Trades Returns: Float - The Average RRR Values CAGR(StartTime, StartPrice, EndTime, EndPrice) Calculates The CAGR Over The Given Time Period © TradingView Parameters: StartTime (int) : Is The Starting Time Of The Calculation StartPrice (float) : Is The Starting Price Of The Calculation EndTime (int) : Is The Ending Time Of The Calculation EndPrice (float) : Is The Ending Price Of The Calculation Returns: Float - The CAGR Values //==================================================================================================================================================== // Custom Plot Functions //==================================================================================================================================================== EditLabels(LabelID, X1, Y1, Text, Color, TextColor, EditCondition, DeleteCondition) Edit / Delete Labels Parameters: LabelID (label) : Is The ID Of The Selected Label X1 (int) : Is The X1 Coordinate IN BARINDEX Xloc Y1 (float) : Is The Y1 Coordinate IN PRICE Yloc Text (string) : Is The Text Than Wants To Be Written In The Label Color (color) : Is The Color Value Change Of The Label Text TextColor (color) EditCondition (int) : Is The Edit Condition of The Line (Setting Location / Color) DeleteCondition (bool) : Is The Delete Condition Of The Line If Ture Deletes The Prev Itteration Of The Line Returns: Void EditLine(LineID, X1, Y1, X2, Y2, Color, EditCondition, DeleteCondition) Edit / Delete Lines Parameters: LineID (line) : Is The ID Of The Selected Line X1 (int) : Is The X1 Coordinate IN BARINDEX Xloc Y1 (float) : Is The Y1 Coordinate IN PRICE Yloc X2 (int) : Is The X2 Coordinate IN BARINDEX Xloc Y2 (float) : Is The Y2 Coordinate IN PRICE Yloc Color (color) : Is The Color Value Change Of The Line EditCondition (int) : Is The Edit Condition of The Line (Setting Location / Color) DeleteCondition (bool) : Is The Delete Condition Of The Line If Ture Deletes The Prev Itteration Of The Line Returns: Void //==================================================================================================================================================== // Custom Display Functions (Using Tables) //==================================================================================================================================================== FillTable(TableID, Column, Row, Title, Value, BgColor, TextColor, ToolTip) Filling The Selected Table With The Inputed Information Parameters: TableID (table) : Is The Table ID That Wants To Be Edited Column (int) : Is The Current Column Of The Table That Wants To Be Edited Row (int) : Is The Current Row Of The Table That Wants To Be Edited Title (string) : Is The String Title Of The Current Cell Table Value (string) : Is The String Value Of The Current Cell Table BgColor (color) : Is The Selected Color For The Current Table TextColor (color) : Is The Selected Color For The Current Table ToolTip (string) : Is The ToolTip Of The Current Cell In The Table Returns: Void DisplayBTResults(TableID, BgColor, TextColor, StartingBalance, Balance, DollarReturn, TotalPips, MaxDD) Filling The Selected Table With The Inputed Information Parameters: TableID (table) : Is The Table ID That Wants To Be Edited BgColor (color) : Is The Selected Color For The Current Table TextColor (color) : Is The Selected Color For The Current Table StartingBalance (float) : Is The Account Starting Balance Balance (float) DollarReturn (float) : Is The Account Dollar Reture TotalPips (float) : Is The Total Pips Gained / loss MaxDD (float) : Is The Maximum Drawdown Over The Backtesting Period Returns: Void DisplayBTResultsV2(TableID, BgColor, TextColor, TotalWR, QTCount, LongWR, ShortWR, InitialCapital, CumProfit, CumFee, AvgRRR, MaxDD, CAGR, MeanDD) Filling The Selected Table With The Inputed Information Parameters: TableID (table) : Is The Table ID That Wants To Be Edited BgColor (color) : Is The Selected Color For The Current Table TextColor (color) : Is The Selected Color For The Current Table TotalWR (float) : Is The Strategy Total WR In % QTCount (int) : Is The Strategy Questionable Trades Count LongWR (float) : Is The Strategy Total WR In % ShortWR (float) : Is The Strategy Total WR In % InitialCapital (float) : Is The Strategy Initial Starting Capital CumProfit (float) : Is The Strategy Ending Cumulative Profit CumFee (float) : Is The Strategy Ending Cumulative Fee (Based On Randomized Fee Assumptions) AvgRRR (float) : Is The Strategy Average Risk Reward Ratio MaxDD (float) : Is The Strategy Maximum DrawDown In Its Backtesting Period CAGR (float) : Is The Strategy Compounded Average GRowth In % MeanDD (float) : Is The Strategy Mean / Average Drawdown In The Backtesting Period Returns: Void //==================================================================================================================================================== // Custom Pattern Detection Functions //==================================================================================================================================================== BullFib(priceLow, priceHigh, fibRatio) Calculates A Bullish Fibonacci Value (From Swing Low To High) © ZenAndTheArtOfTrading Parameters: priceLow (float) priceHigh (float) fibRatio (float) Returns: The Fibonacci Value Of The Given Ratio Between The Two Price Points BearFib(priceLow, priceHigh, fibRatio) Calculates A Bearish Fibonacci Value (From Swing High To Low) © ZenAndTheArtOfTrading Parameters: priceLow (float) priceHigh (float) fibRatio (float) Returns: The Fibonacci Value Of The Given Ratio Between The Two Price Points GetBodySize() Gets The Current Candle Body Size IN POINTS © ZenAndTheArtOfTrading Returns: The Current Candle Body Size IN POINTS GetTopWickSize() Gets The Current Candle Top Wick Size IN POINTS © ZenAndTheArtOfTrading Returns: The Current Candle Top Wick Size IN POINTS GetBottomWickSize() Gets The Current Candle Bottom Wick Size IN POINTS © ZenAndTheArtOfTrading Returns: The Current Candle Bottom Wick Size IN POINTS GetBodyPercent() Gets The Current Candle Body Size As A Percentage Of Its Entire Size Including Its Wicks © ZenAndTheArtOfTrading Returns: The Current Candle Body Size IN PERCENTAGE GetTopWickPercent() Gets The Current Top Wick Size As A Percentage Of Its Entire Body Size Returns: Float - The Current Candle Top Wick Size IN PERCENTAGE GetBottomWickPercent() Gets The Current Bottom Wick Size As A Percentage Of Its Entire Bodu Size Returns: Float - The Current Candle Bottom Size IN PERCENTAGE BullishEC(Allowance, RejectionWickSize, EngulfWick, NearSwings, SwingLookBack) Checks If The Current Bar Is A Bullish Engulfing Candle Parameters: Allowance (int) : To Give Flexibility Of Engulfing Pattern Detection In Markets That Have Micro Gaps, Defval = 0 RejectionWickSize (float) : To Filter Out long (Upper And Lower) Wick From The Bullsih Engulfing Pattern, Defval = na EngulfWick (bool) : To Specify If We Want The Pattern To Also Engulf Its Upper & Lower Previous Wicks, Defval = false NearSwings (bool) : To Specify If We Want The Pattern To Be Near A Recent Swing Low, Defval = true SwingLookBack (int) : To Specify How Many Bars Back To Detect A Recent Swing Low, Defval = 10 Returns: Bool - True If The Current Bar Matches The Requirements of a Bullish Engulfing Candle BearishEC(Allowance, RejectionWickSize, EngulfWick, NearSwings, SwingLookBack) Checks If The Current Bar Is A Bearish Engulfing Candle Parameters: Allowance (int) : To Give Flexibility Of Engulfing Pattern Detection In Markets That Have Micro Gaps, Defval = 0 RejectionWickSize (float) : To Filter Out long (Upper And Lower) Wick From The Bearish Engulfing Pattern, Defval = na EngulfWick (bool) : To Specify If We Want The Pattern To Also Engulf Its Upper & Lower Previous Wicks, Defval = false NearSwings (bool) : To Specify If We Want The Pattern To Be Near A Recent Swing High, Defval = true SwingLookBack (int) : To Specify How Many Bars Back To Detect A Recent Swing High, Defval = 10 Returns: Bool - True If The Current Bar Matches The Requirements of a Bearish Engulfing Candle Hammer(Fib, ColorMatch, NearSwings, SwingLookBack, ATRFilterCheck, ATRPeriod) Checks If The Current Bar Is A Hammer Candle Parameters: Fib (float) : To Specify Which Fibonacci Ratio To Use When Determining The Hammer Candle, Defval = 0.382 Ratio ColorMatch (bool) : To Filter Only Bullish Closed Hammer Candle Pattern, Defval = false NearSwings (bool) : To Specify If We Want The Doji To Be Near A Recent Swing Low, Defval = true SwingLookBack (int) : To Specify How Many Bars Back To Detect A Recent Swing Low, Defval = 10 ATRFilterCheck (float) : To Filter Smaller Hammer Candles That Might Be Better Classified As A Doji Candle, Defval = 1 ATRPeriod (simple int) : To Change ATR Period Of The ATR Filter, Defval = 20 Returns: Bool - True If The Current Bar Matches The Requirements of a Hammer Candle Star(Fib, ColorMatch, NearSwings, SwingLookBack, ATRFilterCheck, ATRPeriod) Checks If The Current Bar Is A Hammer Candle Parameters: Fib (float) : To Specify Which Fibonacci Ratio To Use When Determining The Hammer Candle, Defval = 0.382 Ratio ColorMatch (bool) : To Filter Only Bullish Closed Hammer Candle Pattern, Defval = false NearSwings (bool) : To Specify If We Want The Doji To Be Near A Recent Swing Low, Defval = true SwingLookBack (int) : To Specify How Many Bars Back To Detect A Recent Swing Low, Defval = 10 ATRFilterCheck (float) : To Filter Smaller Hammer Candles That Might Be Better Classified As A Doji Candle, Defval = 1 ATRPeriod (simple int) : To Change ATR Period Of The ATR Filter, Defval = 20 Returns: Bool - True If The Current Bar Matches The Requirements of a Hammer Candle Doji(MaxWickSize, MaxBodySize, DojiType, NearSwings, SwingLookBack) Checks If The Current Bar Is A Doji Candle Parameters: MaxWickSize (float) : To Specify The Maximum Lenght Of Its Upper & Lower Wick, Defval = 2 MaxBodySize (float) : To Specify The Maximum Lenght Of Its Candle Body IN PERCENT, Defval = 0.05 DojiType (int) NearSwings (bool) : To Specify If We Want The Doji To Be Near A Recent Swing High / Low (Only In Dragonlyf / Gravestone Mode), Defval = true SwingLookBack (int) : To Specify How Many Bars Back To Detect A Recent Swing High / Low (Only In Dragonlyf / Gravestone Mode), Defval = 10 Returns: Bool - True If The Current Bar Matches The Requirements of a Doji Candle BullishIB(Allowance, RejectionWickSize, EngulfWick, NearSwings, SwingLookBack) Checks If The Current Bar Is A Bullish Harami Candle Parameters: Allowance (int) : To Give Flexibility Of Harami Pattern Detection In Markets That Have Micro Gaps, Defval = 0 RejectionWickSize (float) : To Filter Out long (Upper And Lower) Wick From The Bullsih Harami Pattern, Defval = na EngulfWick (bool) : To Specify If We Want The Pattern To Also Engulf Its Upper & Lower Previous Wicks, Defval = false NearSwings (bool) : To Specify If We Want The Pattern To Be Near A Recent Swing Low, Defval = true SwingLookBack (int) : To Specify How Many Bars Back To Detect A Recent Swing Low, Defval = 10 Returns: Bool - True If The Current Bar Matches The Requirements of a Bullish Harami Candle BearishIB(Allowance, RejectionWickSize, EngulfWick, NearSwings, SwingLookBack) Checks If The Current Bar Is A Bullish Harami Candle Parameters: Allowance (int) : To Give Flexibility Of Harami Pattern Detection In Markets That Have Micro Gaps, Defval = 0 RejectionWickSize (float) : To Filter Out long (Upper And Lower) Wick From The Bearish Harami Pattern, Defval = na EngulfWick (bool) : To Specify If We Want The Pattern To Also Engulf Its Upper & Lower Previous Wicks, Defval = false NearSwings (bool) : To Specify If We Want The Pattern To Be Near A Recent Swing High, Defval = true SwingLookBack (int) : To Specify How Many Bars Back To Detect A Recent Swing High, Defval = 10 Returns: Bool - True If The Current Bar Matches The Requirements of a Bearish Harami Candle //==================================================================================================================================================== // Custom Time Functions //==================================================================================================================================================== BarInSession(sess, useFilter) Determines if the current price bar falls inside the specified session © ZenAndTheArtOfTrading Parameters: sess (simple string) useFilter (bool) Returns: A boolean - true if the current bar falls within the given time session BarOutSession(sess, useFilter) Determines if the current price bar falls outside the specified session © ZenAndTheArtOfTrading Parameters: sess (simple string) useFilter (bool) Returns: A boolean - true if the current bar falls outside the given time session DateFilter(startTime, endTime) Determines if this bar's time falls within date filter range © ZenAndTheArtOfTrading Parameters: startTime (int) endTime (int) Returns: A boolean - true if the current bar falls within the given dates DayFilter(monday, tuesday, wednesday, thursday, friday, saturday, sunday) Checks if the current bar's day is in the list of given days to analyze © ZenAndTheArtOfTrading Parameters: monday (bool) tuesday (bool) wednesday (bool) thursday (bool) friday (bool) saturday (bool) sunday (bool) Returns: A boolean - true if the current bar's day is one of the given days AUSSess() Checks If The Current Australian Forex Session In Running Returns: Bool - True If Currently The Australian Session Is Running ASIASess() Checks If The Current Asian Forex Session In Running Returns: Bool - True If Currently The Asian Session Is Running EURSess() Checks If The Current European Forex Session In Running Returns: Bool - True If Currently The European Session Is Running USSess() Checks If The Current US Forex Session In Running Returns: Bool - True If Currently The US Session Is Running UNIXToDate(Time, ConversionType, TimeZone) Converts UNIX Time To Datetime Parameters: Time (int) : Is The UNIX Time Input ConversionType (int) : Is The Datetime Output Format, Defval = DD-MM-YYYY TimeZone (string) : Is To Convert The Outputed Datetime Into The Specified Time Zone, Defval = Exchange Time Zone Returns: String - String Of Datetime

Biblioteka Pine Script®

Zaktualizowano

Bearish Alternate Flag Patterns [theEccentricTrader]█ OVERVIEW This indicator automatically draws bearish alternate flag patterns and price projections derived from the ranges that constitute the patterns. █ CONCEPTS Green and Red Candles • A green candle is one that closes with a close price equal to or above the price it opened. • A red candle is one that closes with a close price that is lower than the price it opened. Swing Highs and Swing Lows • A swing high is a green candle or series of consecutive green candles followed by a single red candle to complete the swing and form the peak. • A swing low is a red candle or series of consecutive red candles followed by a single green candle to complete the swing and form the trough. Peak and Trough Prices (Basic) • The peak price of a complete swing high is the high price of either the red candle that completes the swing high or the high price of the preceding green candle, depending on which is higher. • The trough price of a complete swing low is the low price of either the green candle that completes the swing low or the low price of the preceding red candle, depending on which is lower. Historic Peaks and Troughs The current, or most recent, peak and trough occurrences are referred to as occurrence zero. Previous peak and trough occurrences are referred to as historic and ordered numerically from right to left, with the most recent historic peak and trough occurrences being occurrence one. Broken and Unbroken Peaks and Troughs Upon the completion of a new swing low the high of the green candle that completes the swing low will be above, below or equal to the current peak price. And similarly, upon the completion of a new swing high the low of the red candle that completes the swing high will be above, below or equal to the current trough price. If the high price of the green candle that completes the current swing low is higher than or equal to the current peak price then the current peak is broken. If the high of the green candle that completes the current swing low is below the current peak price, then the current peak is unbroken. Similarly, if the low price of the red candle that completes the current swing high is lower than or equal to the current trough price then the current trough is broken. If the low price of the red candle that completes the current swing high is above the current trough price, then the current trough is unbroken. Range The range is simply the difference between the current peak and current trough prices, generally expressed in terms of points or pips. Upper Trends • A return line uptrend is formed when the current peak price is higher than the preceding peak price. • A downtrend is formed when the current peak price is lower than the preceding peak price. • A double-top is formed when the current peak price is equal to the preceding peak price. Lower Trends • An uptrend is formed when the current trough price is higher than the preceding trough price. • A return line downtrend is formed when the current trough price is lower than the preceding trough price. • A double-bottom is formed when the current trough price is equal to the preceding trough price. Wave Cycles A wave cycle is here defined as a complete two-part move between a swing high and a swing low, or a swing low and a swing high. The first swing high or swing low will set the course for the sequence of wave cycles that follow; for example a chart that begins with a swing low will form its first complete wave cycle upon the formation of the first complete swing high and vice versa. Figure 1. Retracement and Extension Ratios Retracement and extension ratios are calculated by dividing the current range by the preceding range and multiplying the answer by 100. Retracement ratios are those that are equal to or below 100% of the preceding range and extension ratios are those that are above 100% of the preceding range. Bullish and Bearish Alternate Flag Patterns • Bullish alternate flags are composed of one peak and two troughs. The second trough being higher than the first. • Bearish alternate flags are composed of one trough and two peaks. The second peak being lower than the first. In this script I have used minimum and maximum retracement and extension ratios to set parameters for pattern identification: • Wave 1 of the pattern, referred to as AB, is set to a minimum ratio of 100%. • Wave 2 of the pattern, referred to as BC, is set to a maximum ratio of 30%. █ FEATURES Inputs • Unbroken Troughs • AB Minimum Ratio • BC Maximum Ratio • Pole Color • Flag Color • Extend Current Flag Lines • Show Labels • Label Color • Show Projection Lines • Extend Current Projection Lines Alerts Users can set alerts for when the patterns occur. █ LIMITATIONS All green and red candle calculations are based on differences between open and close prices, as such I have made no attempt to account for green candles that gap lower and close below the close price of the preceding candle, or red candles that gap higher and close above the close price of the preceding candle. This may cause some unexpected behaviour on some markets and timeframes. I can only recommend using 24-hour markets, if and where possible, as there are far fewer gaps and, generally, more data to work with.

Wskaźnik Pine Script®

od theEccentricTrader

Bullish Alternate Flag Patterns [theEccentricTrader]█ OVERVIEW This indicator automatically draws bullish alternate flag patterns and price projections derived from the ranges that constitute the patterns. █ CONCEPTS Green and Red Candles • A green candle is one that closes with a close price equal to or above the price it opened. • A red candle is one that closes with a close price that is lower than the price it opened. Swing Highs and Swing Lows • A swing high is a green candle or series of consecutive green candles followed by a single red candle to complete the swing and form the peak. • A swing low is a red candle or series of consecutive red candles followed by a single green candle to complete the swing and form the trough. Peak and Trough Prices (Basic) • The peak price of a complete swing high is the high price of either the red candle that completes the swing high or the high price of the preceding green candle, depending on which is higher. • The trough price of a complete swing low is the low price of either the green candle that completes the swing low or the low price of the preceding red candle, depending on which is lower. Historic Peaks and Troughs The current, or most recent, peak and trough occurrences are referred to as occurrence zero. Previous peak and trough occurrences are referred to as historic and ordered numerically from right to left, with the most recent historic peak and trough occurrences being occurrence one. Broken and Unbroken Peaks and Troughs Upon the completion of a new swing low the high of the green candle that completes the swing low will be above, below or equal to the current peak price. And similarly, upon the completion of a new swing high the low of the red candle that completes the swing high will be above, below or equal to the current trough price. If the high price of the green candle that completes the current swing low is higher than or equal to the current peak price then the current peak is broken. If the high of the green candle that completes the current swing low is below the current peak price, then the current peak is unbroken. Similarly, if the low price of the red candle that completes the current swing high is lower than or equal to the current trough price then the current trough is broken. If the low price of the red candle that completes the current swing high is above the current trough price, then the current trough is unbroken. Range The range is simply the difference between the current peak and current trough prices, generally expressed in terms of points or pips. Upper Trends • A return line uptrend is formed when the current peak price is higher than the preceding peak price. • A downtrend is formed when the current peak price is lower than the preceding peak price. • A double-top is formed when the current peak price is equal to the preceding peak price. Lower Trends • An uptrend is formed when the current trough price is higher than the preceding trough price. • A return line downtrend is formed when the current trough price is lower than the preceding trough price. • A double-bottom is formed when the current trough price is equal to the preceding trough price. Wave Cycles A wave cycle is here defined as a complete two-part move between a swing high and a swing low, or a swing low and a swing high. The first swing high or swing low will set the course for the sequence of wave cycles that follow; for example a chart that begins with a swing low will form its first complete wave cycle upon the formation of the first complete swing high and vice versa. Figure 1. Retracement and Extension Ratios Retracement and extension ratios are calculated by dividing the current range by the preceding range and multiplying the answer by 100. Retracement ratios are those that are equal to or below 100% of the preceding range and extension ratios are those that are above 100% of the preceding range. Bullish and Bearish Alternate Flag Patterns • Bullish alternate flags are composed of one peak and two troughs. The second trough being higher than the first. • Bearish alternate flags are composed of one trough and two peaks. The second peak being lower than the first. In this script I have used minimum and maximum retracement and extension ratios to set parameters for pattern identification: • Wave 1 of the pattern, referred to as AB, is set to a minimum ratio of 100%. • Wave 2 of the pattern, referred to as BC, is set to a maximum ratio of 30%. █ FEATURES Inputs • Unbroken Peaks • AB Minimum Ratio • BC Maximum Ratio • Pole Color • Flag Color • Extend Current Flag Lines • Show Labels • Label Color • Show Projection Lines • Extend Current Projection Lines Alerts Users can set alerts for when the patterns occur. █ LIMITATIONS All green and red candle calculations are based on differences between open and close prices, as such I have made no attempt to account for green candles that gap lower and close below the close price of the preceding candle, or red candles that gap higher and close above the close price of the preceding candle. This may cause some unexpected behaviour on some markets and timeframes. I can only recommend using 24-hour markets, if and where possible, as there are far fewer gaps and, generally, more data to work with.

Wskaźnik Pine Script®

od theEccentricTrader

Zaktualizowano

Bearish Pennant Patterns [theEccentricTrader]█ OVERVIEW This indicator automatically draws bearish pennant patterns and price projections derived from the ranges that constitute the patterns. █ CONCEPTS Green and Red Candles • A green candle is one that closes with a close price equal to or above the price it opened. • A red candle is one that closes with a close price that is lower than the price it opened. Swing Highs and Swing Lows • A swing high is a green candle or series of consecutive green candles followed by a single red candle to complete the swing and form the peak. • A swing low is a red candle or series of consecutive red candles followed by a single green candle to complete the swing and form the trough. Peak and Trough Prices (Basic) • The peak price of a complete swing high is the high price of either the red candle that completes the swing high or the high price of the preceding green candle, depending on which is higher. • The trough price of a complete swing low is the low price of either the green candle that completes the swing low or the low price of the preceding red candle, depending on which is lower. Historic Peaks and Troughs The current, or most recent, peak and trough occurrences are referred to as occurrence zero. Previous peak and trough occurrences are referred to as historic and ordered numerically from right to left, with the most recent historic peak and trough occurrences being occurrence one. Broken and Unbroken Peaks and Troughs Upon the completion of a new swing low the high of the green candle that completes the swing low will be above, below or equal to the current peak price. And similarly, upon the completion of a new swing high the low of the red candle that completes the swing high will be above, below or equal to the current trough price. If the high price of the green candle that completes the current swing low is higher than or equal to the current peak price then the current peak is broken. If the high of the green candle that completes the current swing low is below the current peak price, then the current peak is unbroken. Similarly, if the low price of the red candle that completes the current swing high is lower than or equal to the current trough price then the current trough is broken. If the low price of the red candle that completes the current swing high is above the current trough price, then the current trough is unbroken. Range The range is simply the difference between the current peak and current trough prices, generally expressed in terms of points or pips. Upper Trends • A return line uptrend is formed when the current peak price is higher than the preceding peak price. • A downtrend is formed when the current peak price is lower than the preceding peak price. • A double-top is formed when the current peak price is equal to the preceding peak price. Lower Trends • An uptrend is formed when the current trough price is higher than the preceding trough price. • A return line downtrend is formed when the current trough price is lower than the preceding trough price. • A double-bottom is formed when the current trough price is equal to the preceding trough price. Wave Cycles A wave cycle is here defined as a complete two-part move between a swing high and a swing low, or a swing low and a swing high. The first swing high or swing low will set the course for the sequence of wave cycles that follow; for example a chart that begins with a swing low will form its first complete wave cycle upon the formation of the first complete swing high and vice versa. Figure 1. Retracement and Extension Ratios Retracement and extension ratios are calculated by dividing the current range by the preceding range and multiplying the answer by 100. Retracement ratios are those that are equal to or below 100% of the preceding range and extension ratios are those that are above 100% of the preceding range. Bullish and Bearish Pennant Patterns • Bullish pennants are generally composed of three troughs and two peaks. The first peak being higher than the second peak and the first trough being lower than both the second and third troughs, with the third trough being higher than the second trough. • Bearish pennants are generally composed of three peaks and two troughs. The first trough being lower than the second trough and the first peak being higher than both the second and third peaks, with third peak being lower than the second peak. In this script I have used minimum and maximum retracement and extension ratios to set parameters for pattern identification: • Wave 1 of the pattern, referred to as AB, is set to a minimum ratio of 100%. • Wave 2 of the pattern, referred to as BC, is set to a maximum ratio of 30%. • Wave 3 of the pattern, referred to as CD, has no ratio measurements but will always be below 100% by default. • Wave 4 of the pattern, referred to as DE, has no ratio measurements but will always be below 100% by default. █ FEATURES Inputs • Unbroken Troughs • AB Minimum Ratio • BC Maximum Ratio • Pole Color • Flag Color • Extend Current Flag Lines • Show Labels • Label Color • Show Projection Lines • Extend Current Projection Lines Alerts Users can set alerts for when the patterns occur. █ LIMITATIONS All green and red candle calculations are based on differences between open and close prices, as such I have made no attempt to account for green candles that gap lower and close below the close price of the preceding candle, or red candles that gap higher and close above the close price of the preceding candle. This may cause some unexpected behaviour on some markets and timeframes. I can only recommend using 24-hour markets, if and where possible, as there are far fewer gaps and, generally, more data to work with.

Wskaźnik Pine Script®

od theEccentricTrader

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Dane rynkowe dostarczone przez ICE Data Services. Dane referencyjne dostarczone przez FactSet. Copyright © 2025 FactSet Research Systems Inc.Copyright © 2025, American Bankers Association. Baza danych CUSIP dostarczona przez FactSet Research Systems Inc. Wszelkie prawa zastrzeżone. Dokumenty SEC i inne dokumenty dostarczone przez Quartr.© 2025 TradingView, Inc.

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