Dual Zigzag [Trendoscope®]🎲 Dual Zigzag indicator is built on recursive zigzag algorithm. It is very similar to other zigzag indicators published by us and other authors. However, the key point here is, the indicator draws zigzag on both price and any other plot based indicator on separate layouts.
Before we get into the indicator, here are some brief descriptions of the underlying concepts and key terminologies
🎯 Zigzag
Zigzag indicator breaks down price or any input series into a series of Pivot Highs and Pivot Lows alternating between each other. Zigzags though shows pivot high and lows, should not be used for buying at low and selling at high. The main application of zigzag indicator is for the visualisation of market structure and this can be used as basic building block for any pattern recognition algorithms.
🎯 Recursive Zigzag Algorithm
Recursive zigzag algorithm builds zigzag on multiple levels and each level of zigzag is based on the previous level pivots. The level zero zigzag is built on price. However, for level 1, instead of price level 0 zigzag pivots are used. Similarly for level 2, level 1 zigzag pivots are used as base.
🎲 Components Dual Zigzag Indicator
Here are the components of Dual zigzag indicator
Built in Oscillator - Indicator has built in oscillator options for plotting RSI (Relative Strength Index), MFI (Money Flow Index), cci (Commodity Channel Index) , CMO (Chande Momentum Oscillator), COG (Center of Gravity), and ROC (Rate of Change). Apart from the given built in oscillators, users can also use a custom external output as base. The oscillators are not printed on the price pane. But, printed on a separate indicator overlay.
Zigzag On Oscillator - Recursive zigzag is calculated and printed on the oscillator series. Each pivot high and pivot low also prints a label having the retracement ratios, and price levels at those points. Zigzag on the oscillator is also printed on the indicator overlay pane.
Zigzag on Price - Recursive zigzag calculated based on price and printed on the price pane. This is made possible by using force_overlay option present in the drawing objects. At each zigzag pivot levels, the label having price retracement ratios, and oscillator values are printed.
It is called dual zigzag because, the indicator calculates the zigzag on both price and oscillator series of values and prints them separately on different panes on the chart.
🎲 Indicator Settings
Settings include
Theme display settings to get the right colour combination to match the background.
Zigzag settings to be used for zigzag calculation and display
Oscillator settings to chose the oscillator to be used as base for 2nd zigzag
🎲 Applications
Useful in spotting divergences with both indicator and price having their own zigzag to highlight pivots
Spotting patterns in indicators/oscillators and correlate them with the patterns on price
🎲 Using External Input
If users want to use an external indicator such as OBV instead of the built in oscillators, then can do so by using the custom option.
Here is how this can be done.
Step1. Add both Dual Zigzag and the intended indicator (in this case OBV) on the chart. Notice that both OBV and Dual zigzag appear on different panes.
Step2. Edit the indicator settings of Dual zigzag and set custom indicator by selecting "custom" as oscillator name and then by setting the custom external indicator name and input.
Step 3. You would notice that the zigzag in Dual Zigzag indictor pane is already showing the zigzag pivots based on the OBV indicator and the price pivots display obv values at the pivot points. We can leave this as is.
Step 4. As an additional step, you can also merge the OBV pane and the Dual zigzag indicator pane into one by going into OBV settings and moving the indicator to above pane. Merge the scales so that there is no two scales on the same pane and the entire scale appear on the right.
At the end, you should see two panes - one with price and other with OBV and both having their zigzag plotted.
Trendoscope
HTF Candles Overlay [Trendoscope®]🎲 HTF Candles Overlay is a simple indicator where you can overlay higher timeframe candles on current timeframe chart.
Most of the code is encapsulated in the library HTFCandlesLib . After publishing the library as open source, many people requested to convert that into an indicator. Based on this, we decided to publish this small code for the use of community.
🎯 Usage
The indicator is simple, it helps users visualise higher timeframe candles. We majorly use this for debugging or validating our implementations based on higher timeframe. Instead of switching back and forth to different timeframes, it helps us visualise higher timeframe candles on the same chart when we are validating the implementation that involves higher timeframe calculations.
🎯 Components
The indicator provides two types of displays
Candles - overlay candles built through lines and labels
Plot - close price of higher timeframe plotted on chart
🎯 Candles
The behaviour of the candles are similar to that of hollow candles. The color of the body and the border+wick demonstrates the movement of the candle.
Body color is lime if the HTF close is higher than HTF open. Body color is orange if the HTF close is lower than the HTF open.
Wick and border color is lime if HTF close price is higher than previous HTF close price. And they are orange if HTF close price is lower than the previous HTF close price
In most cases body color will be same as the wick color. In case of stocks and indices, it may happen that the open price is too far away from previous close price due to gaps. This can lead to close price being relatively in different direction when compared to open and previous close.
Wicks are not at the centre of the candle. Instead wicks are drawn on the current chart timeframe position where the current timeframe has reached the highest or lowest point within the given HTF candle
Candles also list OHLC price of HTF candle along with HTF bar index and the range of LTF bar index that the candle spawns
Here are some pictorial representations that can help understand better.
Here are the examples of candles with gaps where body and wick/border are in different directions (colours)
🎯 Indicator Settings
Simple settings allow users to select the timeframe, whether to display candles and plots and their specific colors.
🎯 Possible inconsistencies
The overlay can show inconsistent data in certain situations. Here are some of the scenarios where the indicator may not show consistent display of the data.
When the HTF data from request.security does not match that of combined LTF data . In such cases, HTF candles may not form inline with the current timeframe candles. This happens when there is a data issue of different OHLC data available in tradingview.
When using weekly candle as either chart timeframe or higher timeframe - end of week may not coincide with end of month or other timeframes. This can cause some inconsistencies in the visuals of the indicator.
When open and close time of either LTF or HTF falls under different day due to time zone used. - time is always the time on which the candle close. So, when we use time zone that causes the exchange day to open and close on different days, that can cause some inconsistencies in the candles being drawn.
Motive Wave Scanner [Trendoscope®]Motive Wave Scanner is a simple algorithm to find out motive waves as per the rules of Elliott Wave theory.
It is an extension to our previous open source script Interactive Motive Wave Checklist which provides interactive capability to select six points of a five wave formation. Once users select them, the rules of motive waves are applied to manually selected points to highlight them as either diagonal wave, motive wave or none.
This indicator does the same. But, instead of requesting the pivots manually from the user, the indicator automatically picks and scans them through zigzag.
We have already published a similar script as protected source. But, due to some changes in the pine engine, there have been few issues in the runtime. In this publication, we not only address those runtime issues but also making it open source for the users to make use of the source code and enhance it further.
🎲 What are motive waves
Motive waves are strong upward or downward movement with 5 subwaves.
Motive Wave in the upward direction will start with Swing High, Ends with Swing High and consists of 3 Higher Highs and 2 Higher Lows representing strong upward trend.
Motive Wave in the downward direction will start with Swing Low, Ends with Swing low and consists of 3 Lower Lows and 2 Lower Highs representing strong downward trend.
🎲 Types of Motive Waves
Motive Waves are broadly classified by two types:
Impulse Waves
Diagonal Waves
Diagonal Waves are further classified into Contracting and Expanding Diagonals. These can fall into the category of either leading diagonal and ending diagonal.
🎲 Rules of Motive Waves
🎯 Generic Rule of any motive waves are as follows
Should consist of 5 alternating waves. (Swing High followed by Swing low and vice versa)
This can start from Swing High and end in Swing High or start from Swing Low and end in Swing Low of a zigzag.
Wave-2 should not move beyond Wave-1. This means, the Wave-2 is always shorter than Wave-1 with respect to distance between the price of start and end.
Wave-3 always moves beyond Wave-1. This means, the Wave-3 is always longer than Wave-2 in terms of price
Among Wave-1, Wave-3, and Wave-5, Wave-3 is never the shortest one. This means, either Wave-1 or Wave-5 can be longer than Wave-3 but not both. Wave-3 can also be longest among the three.
Here is the pictorial representation of the rules of the Motive Waves
For a wave to be considered as motive wave, it also needs to follow the rules of either impulse or diagonal waves.
🎯 Rules for a 5 wave pattern to be considered as Impulse Wave are:
Wave-4 never overlaps with Wave-1 price range
Wave-1, Wave-3 and Wave-5 should not be either expanding or contracting. Meaning, we cannot have Wave-1 > Wave-3 > Wave-5 , and we cannot have Wave-1 < Wave-3 < Wave-5
Pictorial representation of the impulse wave rules are as below:
🎯 Rules for the Diagonal Waves are as follows
Contrary to the first rule of impulse wave, in case of diagonal wave, Wave-4 always overlaps with Wave-1 price range. But, it will not go beyond Wave-3
Waves are progressively expanding or contracting - Wave1 > Wave3 > Wave5 and Wave2 > Wave4 to be contracting diagonal. Wave1 < Wave3 < Wave5 and Wave2 < Wave4 to be expanding diagonal wave.
Pictorial representation of the Contracting Diagonal Wave is as below. Here, the Wave-1, Wave-3 and Wave-5 are in contracting formation.
Pictorial representation of the Expanding Diagonal Wave is as below. Here, the Wave-1, Wave-3 and Wave-5 are in expanding formation.
🎲 Indicator Settings
Indicator settings are defined as below:
Repaint Warning : If Repaint is selected, the indicator will throw a runtime error after certain bars or when alerts are set. This is due to some pine internal issue. At present, we do not have any solution for this until the internal issue is resolved by Tradingview Pine Team.
ABCD Projection [Trendoscope®]Over the years, we have extensively explored and published numerous scripts centered around various chart patterns, including Harmonic Patterns, Reversal Patterns, Elliott Waves, and more. Our expertise in these areas has led to frequent requests for an indicator based on the ABCD pattern. Although we didn't include it as part of our Harmonic Patterns collection, the development of a dedicated ABCD Projection Indicator has always been a priority for us.
🎲 Overview of the ABCD Projection Indicator
The ABCD Projection Indicator is designed to identify and project ABCD patterns using a Zigzag-based approach. This pattern, characterized by alternating pivot highs and lows labeled as A, B, C, and D, is particularly significant in trending markets where it signifies trend continuation following deep pullbacks.
The indicator works by confirming the ABC pivots and projecting the D pivot based on the established price swings. Since ABCD patterns are most effective in trending environments, the indicator focuses on filtering patterns where the retracement from the C pivot has not compromised the trade's potential. Specifically, it ensures that the starting point (S)—where the pattern is detected—has not retraced beyond a defined threshold, preserving the opportunity to execute a trade with the goal of reaching the projected D pivot.
Additionally, the ABCD Projection Indicator considers the retracement ratio from the C pivot, which plays a crucial role in risk management. A higher retracement ratio reduces the stop distance (from pivot A to the entry point S) while increasing the distance to the target (pivot D), thereby enhancing the reward/risk ratio for trades.
🎲 Components of the ABCD Projection Indicator
The ABCD Projection Indicator comprises several key components:
A, B, C Pivots and Zigzag Wave : These elements form the foundational structure of the ABCD pattern.
S Point : This is the location where the pattern is identified, positioned a few bars away from the confirmed C pivot.
Estimated D Pivot : The D pivot is projected based on the A, B, and C price levels. The time or distance to the D pivot is influenced by the starting point S.
Mini Stats Table : Located in the top right corner, this table displays win/loss ratios and risk/reward data for both bullish and bearish scenarios.
Fibonacci Levels : Calculated from the C to D pivots, these levels are provided as a reference for additional analysis.
🎲 Indicator Settings
The settings for the ABCD Projection Indicator are minimal and intuitive, with tooltips provided to guide users through the configuration process.
Oscillator Scatterplot Analysis [Trendoscope®]In this indicator, we demonstrate how to plot oscillator behavior of oversold-overbought against price movements in the form of scatterplots and perform analysis. Scatterplots are drawn on a graph containing x and y-axis, where x represent one measure whereas y represents another. We use the library Graph to collect the data and plot it as scatterplot.
Pictorial explanation of components is defined in the chart below.
🎲 This indicator performs following tasks
Calculate and plot oscillator
Identify oversold and overbought areas based on various methods
Measure the price and bar movement from overbought to oversold and vice versa and plot them on the chart.
In our example,
The x-axis represents price movement. The plots found on the right side of the graph has positive price movements, whereas the plots found on the left side of the graph has negative price movements.
The y-axis represents the number of bars it took for reaching overbought to oversold and/or oversold to overbought. Positive bars mean we are measuring oversold to overbought, whereas negative bars are a measure of overbought to oversold.
🎲 Graph is divided into 4 equal quadrants
Quadrant 1 is the top right portion of the graph. Plots in this quadrant represent the instances where positive price movement is observed when the oscillator moved from oversold to overbought
Quadrant 2 is the top left portion of the graph. Plots in this quadrant represent the instances where negative price movement is observed when the oscillator moved from oversold to overbought.
Quadrant 3 is the bottom left portion of the chart. Plots in this quadrant represent the instances where negative price movement is observed when the oscillator moved from overbought to oversold.
Quadrant 4 is the bottom right portion of the chart. Plots in this quadrant represent the instances where positive price movement is observed when the oscillator moved from overbought to oversold.
🎲 Indicator components in Detail
Let's dive deep into the indicator.
🎯 Oscillator Selection
Select the Oscillator and define the overbought oversold conditions through input settings
Indicator - Oscillator base used for performing analysis
Length - Loopback length on which the oscillator is calculated
OB/OS Method - We use Bollinger Bands, Keltener Channel and Donchian channel to calculate dynamic overbought and oversold levels instead of static 80-10. This is also useful as other type of indicators may not be within 0-100 range.
Length and Multiplier are used for the bands for calculating Overbought/Oversold boundaries.
🎯 Define Graph Properties
Select different graph properties from the input settings that will instruct how to display the scatterplot.
Type - this can be either scatterplot or heatmap. Scatterplot will display plots with specific transparency to indicate the data, whereas heatmap will display background with different transparencies.
Plot Color - this is the color in which the scatterplot or heatmap is drawn
Plot Size - applicable mainly for scatterplot. Since the character we use for scatterplot is very tiny, the large at present looks optimal. But, based on the user's screen size, we may need to select different sizes so that it will render properly.
Rows and Columns - Number of rows and columns allocated per quadrant. This means, the total size of the chart is 2X rows and 2X columns. Data sets are divided into buckets based on the number of available rows and columns. Hence, changing this can change the appearance of the overall chart, even though they are representing the same data. Also, please note that tables can have max 10000 cells. If we increase the rows and columns by too much, we may get runtime errors.
Outliers - this is used to exclude the extreme data. 20% outlier means, the chart will ignore bottom 20% and top 20% when defining the chart boundaries. However, the extreme data is still added to the boundaries.
Diverging Chart Patterns - Ultimate [Trendoscope®]🎲 Presenting the Diverging Chart Patterns Ultimate Indicator
Much like its counterpart, the Converging Chart Patterns Ultimate indicator, this tool is an offshoot of our premium Auto Chart Patterns - Ultimate offering. However, it is exclusively designed to focus on diverging patterns.
🎲 Built on Extensive Research and Open-Source Foundations
Our journey toward creating this indicator has been guided by thorough research and insights gleaned from our previous works on Chart Patterns, which include:
Algorithmic Identification of Chart Patterns
Flag and Pennant Chart Patterns
Trading Diverging Chart Patterns
Drawing from the groundwork established by our publicly available indicators - Auto Chart Patterns and Flags and Pennants - this tool represents the culmination of our efforts to furnish traders with a refined approach to navigating diverging patterns. It not only facilitates the formulation of technical trading strategies but also aids in assessing their efficacy through historical performance analysis. The specific patterns addressed by this indicator encompass:
Rising Wedge (Diverging Type)
Falling Wedge (Diverging Type)
Diverging Triangle
Rising Triangle (Diverging Type)
Falling Triangle (Diverging Type)
🎲 Chart Pattern Scanning Methodology
Identifying diverging chart patterns follows a structured approach comprising several key steps:
Zigzag Examination : Start by analyzing each zigzag, focusing on the last 5 or 6 pivot points to pinpoint potential trend line pairs.
Divergence Verification : Project these trend lines backward and scrutinize for intersections within a specified number of bars prior. This step confirms the presence of divergence.
Pattern Categorization : Once divergence is confirmed, categorize each pattern based on the directional orientation of its trend lines. Refer to our article - Algorithmic Identification of Chart Patterns for detailed categorization guidelines.
🎲 Methodology or Trading for Chart Patterns
While traditional perspectives often prescribe specific trading biases to diverging patterns—for instance, labeling Rising Wedges as bearish and Falling Wedges as bullish, while acknowledging Triangles' versatility—there's limited empirical evidence to fully support these assumptions. Our indicator is crafted to empower users to explore and validate a wide range of trading hypotheses, including unconventional ones. This approach liberates trading strategies from being confined to historical market behaviors.
We offer extensive customization options to facilitate testing of diverse strategies. The initial setup accommodates both long and short trading scenarios for each identified pattern. Users retain the freedom to adjust trading directions and other parameters within the indicator's settings to align with their analytical preferences.
This open approach is grounded in the methodology detailed in - Trading Diverging Chart Patterns . It is exemplified by the following process, which users can customize and enhance using our indicator.
🎲 Insight into Indicator Components
The chart below provides an illustration of the components comprising our indicator:
Pattern Visualization : This functionality dynamically showcases patterns on the chart, emphasizing presently active ones. Historical patterns are omitted to uphold clarity and optimize performance, considering limitations in drawing object capacity.
Trading Annotations : The indicator conveniently denotes open trades directly on the chart, accommodating both long and short positions based on user preferences and the ongoing status of associated trades for each pattern.
Performance Metrics Table : A comprehensive table meticulously presents backtesting outcomes for individual patterns alongside aggregated results. It encompasses vital metrics such as win rates and the profit factor, calculated in alignment with the designated risk-reward ratio. These insights provide users with valuable assessments of potential profitability and trade strategy effectiveness.
🎲 Delving into the Indicator's Customization Features
Our indicator boasts a wealth of settings, empowering users to customize criteria and refine their trading strategies. Each setting comes with detailed tooltips, offering valuable insights into its functionality. Let's explore each category methodically.
🎯 Zigzag Configuration Options
These settings provide users with the flexibility to fine-tune their pattern analysis by adjusting the length and depth of the zigzag:
Length Adjustment : Altering this parameter modifies the scale of detected patterns. Higher values highlight larger formations, while lower ones focus on more compact patterns.
Depth Enhancement : This parameter adjusts the complexity of the recursive zigzag analysis, potentially revealing larger patterns across multiple levels. Users should exercise caution, as excessive depth may strain the indicator's processing capacity.
🎯 Pattern Scanning Settings
This collection of settings refines the pattern scanning process, typically adjusted to achieve precise geometric alignment of detected patterns. While many settings can be left at their default values for regular use, users are encouraged to customize them, particularly the "Last Pivot Direction," to explore different theoretical approaches to pattern trading.
🎯 Trade Configuration Settings
Arguably the most vital for users, these settings provide full control in shaping trading strategies based on diverging chart patterns. This encompasses the freedom to establish entry, stop, and target prices, fine-tune risk-reward ratios, choose historical depth for backtesting, and integrate filters to guide trade direction.
🎯 Pattern Specific Settings
Here, users have the flexibility to customize settings for individual patterns or groups, thereby refining the precision of their strategies. Alongside the option to enable/disable specific patterns and pattern groups, users can also choose pattern-specific settings such as Last Pivot Direction, Trade Direction Filter, and external filters.
🎯 Fully Customizable Alerts
Utilizing the alert() function, these notifications circumvent the usual template within the alert widget. To address this, we've integrated placeholders in the settings for creating comprehensive alert templates.
Available Categories Include
New - Alerts when a new pattern is identified
Entry - Alerts when an entry condition for a configured pattern based trade is met.
Stop - Alerts when a trade that has reached entry gets stopped out without reaching target
Target - Alerts when a trade reaches its target
Invalidation - Alerts when a trade reaches an invalidation point before reaching the entry.
Each alert type can possess its unique template. Tailorable templates are crucial for effectively utilizing alerts within broker or exchange integration.
Here are some of the placeholders that are defined in the indicator.
{type} - Alert type - new/entry/stop/target/invalid
{pid} - Pattern ID of the pattern belonging to trade. Multiple trades can have same pattern id since a pattern can be traded in both long and short directions.
{tid} - Unique Trade ID for the given trade.
{ticker} - Ticker ID on which the indicator is run
{timeframe} - Chart timeframe on which the indicator is run
{basecurrency} - Base currency of the symbol
{quotecurrency} - Quote currency of the symbol
{pivots} - Pivot values of the pattern
{price} - Current price when the alert is triggered.
{pattern} - Name of the pattern on which the alert is triggered.
{direction} - Direction of the trade.
{entrydirection} - Direction of the entry signal. Used for specific bot integration.
{exitdirection} - Direction of the exit signal. Used for specific bot integration.
{entry} - Entry price of the trade
{stop} - Stop price of the trade
{target} - Target price of the trade
{invalidation} - Invalidation price of the trade
🎯 Display and Stats
These settings regulate the display options on the chart. Closed trade statistics are showcased in a table and appear in the bottom-left corner of the chart. These can be tailored using the display settings.
Converging Chart Patterns - Ultimate [Trendoscope®]🎲 Introducing the Converging Chart Patterns Ultimate Indicator
Derived from the comprehensive capabilities of our premium offering, the Auto Chart Patterns - Ultimate , this new indicator focuses exclusively on converging chart patterns. It marks the beginning of a series that, over time, will encompass the full spectrum of chart pattern analysis, ultimately enhancing and expanding beyond the scope of Auto Chart Patterns.
This strategic separation into more focused indicators is designed to cater to traders seeking precision in specific chart pattern categories.
🎲 Leveraging Research and Open-Source Foundations
Our journey to this indicator has been paved by extensive research and the insights gained from our prior works on Chart Patterns, including:
Algorithmic Identification of Chart Patterns
Flag and Pennant Chart Patterns
Trading Converging Chart Patterns
Drawing upon the foundation laid by our publicly shared indicators - Auto Chart Patterns and Flags and Pennants - this tool is the culmination of our efforts to provide traders with a refined method for strategizing around converging patterns. It not only facilitates the development of technical trading strategies but also aids in evaluating their effectiveness through historical performance analysis. The specific patterns addressed by this indicator include:
Rising Wedge (Converging Type)
Falling Wedge (Converging Type)
Converging Triangle
Rising Triangle (Converging Type)
Falling Triangle (Converging Type)
🎲 Chart Pattern Scanning Methodology
The process of identifying converging chart patterns involves several key steps:
Begin by examining each zigzag for the last 5 or 6 pivot points to identify potential trend line pairs.
Determine if these trend lines are converging by projecting them forwards and checking for an intersection within a specified number of bars ahead.
Upon confirming convergence, categorize each pattern based on the directional orientation of its trend lines, as detailed in our article - Algorithmic Identification of Chart Patterns
🎲 Methodology or Trading for Chart Patterns
While traditional views assign specific trading biases to converging patterns (e.g., Rising Wedges as bearish and Falling Wedges as bullish, with Triangles being more versatile), empirical support for these assumptions is limited. Our indicator is designed to empower users to explore and validate various trading hypotheses, including unconventional ones, thereby not confining trading strategies to past market behaviors.
We enable extensive customization for testing different strategies, with the initial setup allowing for both long and short trading scenarios for each identified pattern. Users have the liberty to adjust trading directions and other parameters within the indicator's settings to suit their analytical needs.
This open approach is rooted in the methodology outlined in - Trading Converging Chart Patterns , exemplified by the following process, which users can adapt and refine through our indicator.
🎲 Overview of Indicator Components
The components of our indicator are illustrated in the chart below
Pattern Visualization : This feature dynamically displays the patterns on the chart, focusing on currently active patterns. To maintain clarity and performance, historical patterns are not shown due to the constraints of drawing objects.
Trading Annotations : The indicator marks open trades directly on the chart, accommodating both long and short positions depending on the user's settings and the current status of trades associated with each pattern.
Performance Metrics Table : A comprehensive table presents the back testing results for individual patterns as well as aggregated outcomes. It includes crucial metrics such as win rates and the profit factor based on the set risk-reward ratio, offering users valuable insights into the potential profitability of their configurations and trade strategies.
🎲 Exploring the Indicator's Customization Options
This indicator is rich in settings, offering users the capability to tailor criteria and adapt their trading rules. Each setting is accompanied by detailed tooltips, providing insights into their use. Let's examine each category systematically.
🎯 Zigzag Configuration Options
These settings enable users to adjust the scope of their pattern analysis by varying the zigzag's length and depth.
Length Adjustment : Modifying this parameter changes the scale of detected patterns, with higher values spotting larger formations and lower ones focusing on more compact patterns.
Depth Enhancement : This alters the intricacy of the recursive zigzag analysis, potentially unveiling larger patterns across several levels. Caution is advised, as excessive depth may lead to the indicator exceeding its processing capacity.
🎯 Pattern Scanning Settings
This suite of settings fine-tunes the pattern scanning process, generally calibrated for precise geometric alignment of identified patterns. While most settings may remain as default for routine use, users are encouraged to tweak them, especially the "Last Pivot Direction," to explore various theoretical approaches to pattern trading.
🎯 Trade Configuration Settings
Arguably the most crucial for users, these settings offer complete autonomy in defining trading strategies around converging chart patterns. This includes the flexibility to set entry, stop, and target prices, adjust risk-reward ratios, select the historical depth for back testing, and incorporate filters to steer trade direction.
🎯 Pattern Specific Settings
Here, users can personalize settings for individual patterns or groups, enhancing the specificity of their strategy. Apart from enabling/disabling individual patterns and pattern groups, users can also select pattern specific Last Pivot Direction, Trade Direction Filter and external filters for each pattern.
🎯 Fully Customizable Alerts
Implemented through the alert() function, these alerts bypass the standard template in the alert widget. To counteract this, we've introduced placeholders within the settings to craft detailed alert templates.
Available Categories Include
New - Alerts when a new pattern is identified
Entry - Alerts when an entry condition for configured pattern based trade is met.
Stop - Alerts when a trade that has reached entry gets stopped out without reaching target
Target - Alerts when a trade reaches its target
Invalidation - Alerts when a trade reaches invalidation point before reaching the entry.
Each alert types can have its own template. Customizable templates are very important in using alerts for broker or exchange integration.
Here are some of the placeholders that are defined in the indicator.
{type} - Alert type - new/entry/stop/target/invalid
{pid} - Pattern ID of the pattern belonging to trade. Multiple trades can have same pattern id since a pattern can be traded in both long and short directions.
{tid} - Unique Trade ID for the given trade.
{ticker} - Ticker ID on which the indicator is run
{timeframe} - Chart timeframe on which the indicator is run
{basecurrency} - Base currency of the symbol
{quotecurrency} - Quote currency of the symbol
{pivots} - Pivot values of the pattern
{price} - Current price when the alert is triggered.
{pattern} - Name of the pattern on which the alert is triggered.
{direction} - Direction of the trade.
{entrydirection} - Direction of the entry signal. Used for specific bot integration.
{exitdirection} - Direction of the exit signal. Used for specific bot integration.
{entry} - Entry price of the trade
{stop} - Stop price of the trade
{target} - Target price of the trade
{invalidation} - Invalidation price of the trade
🎯 Display and Stats
These settings are used to control the display options on the chart. Closed trade stats is displayed in a table and printed in the bottom left corner of the chart. This can be customized by using display settings.
Flags and Pennants [Trendoscope®]🎲 An extension to Chart Patterns based on Trend Line Pairs - Flags and Pennants
After exploring Algorithmic Identification and Classification of Chart Patterns and developing Auto Chart Patterns Indicator , we now delve into extensions of these patterns, focusing on Flag and Pennant Chart Patterns. These patterns evolve from basic trend line pair-based structures, often influenced by preceding market impulses.
🎲 Identification rules for the Extension Patterns
🎯 Identify the existence of Base Chart Patterns
Before identifying the flag and pennant patterns, we first need to identify the existence of following base trend line pair based converging or parallel patterns.
Ascending Channel
Descending Channel
Rising Wedge (Contracting)
Falling Wedge (Contracting)
Converging Triangle
Descending Triangle (Contracting)
Ascending Triangle (Contracting)
🎯 Identifying Extension Patterns.
The key to pinpointing these patterns lies in spotting a strong impulsive wave – akin to a flagpole – preceding a base pattern. This setup suggests potential for an extension pattern:
A Bullish Flag emerges from a positive impulse followed by a descending channel or a falling wedge
A Bearish Flag appears after a negative impulse leading to an ascending channel or a rising wedge.
A Bullish Pennant is indicated by a positive thrust preceding a converging triangle or ascending triangle.
A Bearish Pennant follows a negative impulse and a converging or descending triangle.
🎲 Pattern Classifications and Characteristics
🎯 Bullish Flag Pattern
Characteristics of Bullish Flag Pattern are as follows
Starts with a positive impulse wave
Immediately followed by either a short descending channel or a falling wedge
Here is an example of Bullish Flag Pattern
🎯 Bearish Flag Pattern
Characteristics of Bearish Flag Pattern are as follows
Starts with a negative impulse wave
Immediately followed by either a short ascending channel or a rising wedge
Here is an example of Bearish Flag Pattern
🎯 Bullish Pennant Pattern
Characteristics of Bullish Pennant Pattern are as follows
Starts with a positive impulse wave
Immediately followed by either a converging triangle or ascending triangle pattern.
Here is an example of Bullish Pennant Pattern
🎯 Bearish Pennant Pattern
Characteristics of Bearish Pennant Pattern are as follows
Starts with a negative impulse wave
Immediately followed by either a converging triangle or a descending converging triangle pattern.
Here is an example of Bearish Pennant Pattern
🎲 Trading Extension Patterns
In a strong market trend, it's common to see temporary periods of consolidation, forming patterns that either converge or range, often counter to the ongoing trend direction. Such pauses may lay the groundwork for the continuation of the trend post-breakout. The assumption that the trend will resume shapes the underlying bias of Flag and Pennant patterns
It's important, however, not to base decisions solely on past trends. Conducting personal back testing is crucial to ascertain the most effective entry and exit strategies for these patterns. Remember, the behavior of these patterns can vary significantly with the volatility of the asset and the specific timeframe being analyzed.
Approach the interpretation of these patterns with prudence, considering that market dynamics are subject to a wide array of influencing factors that might deviate from expected outcomes. For investors and traders, it's essential to engage in thorough back testing, establishing entry points, stop-loss orders, and target goals that align with your individual trading style and risk appetite. This step is key to assessing the viability of these patterns in line with your personal trading strategies and goals.
It's fairly common to witness a breakout followed by a swift price reversal after these patterns have formed. Additionally, there's room for innovation in trading by going against the bias if the breakout occurs in the opposite direction, specially when the trend before the formation of the pattern is in against the pattern bias.
🎲 Cheat Sheet
🎲 Indicator Settings
Custom Source : Enables users to set custom OHLC - this means, the indicator can also be applied on oscillators and other indicators having OHLC values.
Zigzag Settings : Allows users to enable different zigzag base and set length and depth for each zigzag.
Scanning Settings : Pattern scanning settings set some parameters that define the pattern recognition process.
Display Settings : Determine the display of indicators including colors, lines, labels etc.
Backtest Settings : Allows users to set a predetermined back test bars so that the indicator will not time out while trying to run for all available bars.
Auto Chart Patterns [Trendoscope®]🎲 Introducing our most comprehensive automatic chart pattern recognition indicator.
Last week, we published an idea on how to algorithmically identify and classify chart patterns.
This indicator is nothing but the initial implementation of the idea. Whatever we explained in that publication that users can do manually to identify and classify the pattern, this indicator will do it for them.
🎲 Process of identifying the patterns.
The bulk of the logic is implemented as part of the library - chartpatterns . The indicator is a shell that captures the user inputs and makes use of the library to deliver the outcome.
🎯 Here is the list of steps executed to identify the patterns on the chart.
Derive multi level recursive zigzag for multiple base zigzag length and depth combinations.
For each zigzag and level, check the last 5 pivots or 6 pivots (based on the input setting) for possibility of valid trend line pairs.
If there is a valid trend line pair, then there is pattern.
🎯 Rules for identifying the valid trend line pairs
There should be at least two trend lines that does not intersect between the starting and ending pivots.
The upper trend line should touch all the pivot highs of the last 5 or 6 pivots considered for scanning the patterns
The lower trend line should touch all the pivot lows of the last 5 or 6 pivots considered for scanning the patterns.
None of the candles from starting pivot to ending pivot should fall outside the trend lines (above upper trend line and below lower trend line)
The existence of a valid trend line pair signifies the existence of pattern. What type of pattern it is, to identify that we need to go through the classification rules.
🎲 Process of classification of the patterns.
We need to gather the following information before we classify the pattern.
Direction of upper trend line - rising, falling or flat
Direction of lower trend line - rising, falling or flat
Characteristics of trend line pair - converging, expanding, parallel
🎯 Broader Classifications
Broader classification would include the following types.
🚩 Classification Based on Geometrical Shapes
This includes
Wedges - both trend lines are moving in the same direction. But, the trend lines are either converging or diverging and not parallel to each other.
Triangles - trend lines are moving in different directions. Naturally, they are either converging or diverging.
Channels - Both trend lines are moving in the same direction, and they are parallel to each other within the limits of error.
🚩 Classification Based on Pattern Direction
This includes
Ascending/Rising Patterns - No trend line is moving in the downward direction and at least one trend line is moving upwards
Descending/Falling Patterns - No trend line is moving in the upward direction, and at least one trend line is moving downwards.
Flat - Both Trend Lines are Flat
Bi-Directional - Both trend lines are moving in opposite direction and none of them is flat.
🚩 Classification Based on Formation Dynamics
This includes
Converging Patterns - Trend Lines are converging towards each other
Diverging Patterns - Trend Lines are diverging from each other
Parallel Patterns - Trend Lines are parallel to each others
🎯 Individual Pattern Types
Now we have broader classifications. Let's go through in detail to find out fine-grained classification of each individual patterns.
🚩 Ascending/Uptrend Channel
This pattern belongs to the broader classifications - Ascending Patterns, Parallel Patterns and Channels. The rules for the Ascending/Uptrend Channel pattern are as below
Both trend lines are rising
Trend lines are parallel to each other
🚩 Descending/Downtrend Channel
This pattern belongs to the broader classifications - Descending Patterns, Parallel Patterns and Channels. The rules for the Descending/Downtrend Channel pattern are as below
Both trend lines are falling
Trend lines are parallel to each other
🚩 Ranging Channel
This pattern belongs to the broader classifications - Flat Patterns, Parallel Patterns and Channels. The rules for the Ranging Channel pattern are as below
Both trend lines are flat
Trend lines are parallel to each other
🚩 Rising Wedge - Expanding
This pattern belongs to the broader classifications - Rising Patterns, Diverging Patterns and Wedges. The rules for the Expanding Rising Wedge pattern are as below
Both trend lines are rising
Trend Lines are diverging.
🚩 Rising Wedge - Contracting
This pattern belongs to the broader classifications - Rising Patterns, Converging Patterns and Wedges. The rules for the Contracting Rising Wedge pattern are as below
Both trend lines are rising
Trend Lines are converging.
🚩 Falling Wedge - Expanding
This pattern belongs to the broader classifications - Falling Patterns, Diverging Patterns and Wedges. The rules for the Expanding Falling Wedge pattern are as below
Both trend lines are falling
Trend Lines are diverging.
🚩 Falling Wedge - Contracting
This pattern belongs to the broader classifications - Falling Patterns, Converging Patterns and Wedges. The rules for the Converging Falling Wedge are as below
Both trend lines are falling
Trend Lines are converging.
🚩 Rising/Ascending Triangle - Expanding
This pattern belongs to the broader classifications - Rising Patterns, Diverging Patterns and Triangles. The rules for the Expanding Ascending Triangle pattern are as below
The upper trend line is rising
The lower trend line is flat
Naturally, the trend lines are diverging from each other
🚩 Rising/Ascending Triangle - Contracting
This pattern belongs to the broader classifications - Rising Patterns, Converging Patterns and Triangles. The rules for the Contracting Ascending Triangle pattern are as below
The upper trend line is flat
The lower trend line is rising
Naturally, the trend lines are converging.
🚩 Falling/Descending Triangle - Expanding
This pattern belongs to the broader classifications - Falling Patterns, Diverging Patterns and Triangles. The rules for the Expanding Descending Triangle pattern are as below
The upper trend line is flat
The lower trend line is falling
Naturally, the trend lines are diverging from each other
🚩 Falling/Descending Triangle - Contracting
This pattern belongs to the broader classifications - Falling Patterns, Converging Patterns and Triangles. The rules for the Contracting Descending Triangle pattern are as below
The upper trend line is falling
The lower trend line is flat
Naturally, the trend lines are converging.
🚩 Converging Triangle
This pattern belongs to the broader classifications - Bi-Directional Patterns, Converging Patterns and Triangles. The rules for the Converging Triangle pattern are as below
The upper trend line is falling
The lower trend line is rising
Naturally, the trend lines are converging.
🚩 Diverging Triangle
This pattern belongs to the broader classifications - Bi-Directional Patterns, Diverging Patterns and Triangles. The rules for the Diverging Triangle pattern are as below
The upper trend line is rising
The lower trend line is falling
Naturally, the trend lines are diverging from each other.
🎲 Indicator Settings - Auto Chart Patterns
🎯 Zigzag Settings
Zigzag settings allow users to select the number of zigzag combinations to be used for pattern scanning, and also allows users to set zigzag length and depth combinations.
🎯 Scanning Settings
Number of Pivots - This can be either 5 or 6. Represents the number of pivots used for identification of patterns.
Error Threshold - Error threshold used for initial trend line validation.
Flat Threshold - Flat angle threshold is used to identify the slope and direction of trend lines.
Last Pivot Direction - Filters patterns based on the last pivot direction. The values can be up, down, both, or custom. When custom is selected, then the individual pattern specific last pivot direction setting is used instead of the generic one.
Verify Bar Ratio - Provides option to ignore extreme patterns where the ratios of zigzag lines are not proportionate to each other.
Avoid Overlap - When selected, the patterns that overlap with existing patterns will be ignored while scanning. Meaning, if the new pattern starting point falls between the start and end of an existing pattern, it will be ignored.
🎯 Group Classification Filters
Allows users to enable disable patterns based on group classifications.
🚩 Geometric Shapes Based Classifications
Wedges - Rising Wedge Expanding, Falling Wedge Expanding, Rising Wedge Contracting, Falling Wedge Contracting.
Channels - Ascending Channel, Descending Channel, Ranging Channel
Triangles - Converging Triangle, Diverging Triangle, Ascending Triangle Expanding, Descending Triangle Expanding, Ascending Triangle Contrcting and Descending Triangle Contracting
🚩 Direction Based Classifications
Rising - Rising Wedge Contracting, Rising Wedge Expanding, Ascending Triangle Contracting, Ascending Triangle Expanding and Ascending Channel
Falling - Falling Wedge Contracting, Falling Wedge Expanding, Descending Triangle Contracting, Descending Triangle Expanding and Descending Channel
Flat/Bi-directional - Ranging Channel, Converging Triangle, Diverging Triangle
🚩 Formation Dynamics Based Classifications
Expanding - Rising Wedge Expanding, Falling Wedge Expanding, Ascending Triangle Expanding, Descending Triangle Expanding, Diverging Triangle
Contracting - Rising Wedge Contracting, Falling Wedge Contracting, Ascending Triangle Contracting, Descending Triangle Contracting, Converging Triangle
Parallel - Ascending Channel, Descending Channgel and Ranging Channel
🎯 Individual Pattern Filters
These settings allow users to enable/disable individual patterns and also set last pivot direction filter individually for each pattern. Individual Last Pivot direction filters are only considered if the main "Last Pivot Direction" filter is set to "custom"
🎯 Display Settings
These are the settings that determine the indicator display. The details are provided in the tooltips and are self explanatory.
🎯 Alerts
A basic alert message is enabled upon detection of new pattern on the chart.
Multi-Timeframe Recursive Zigzag [Trendoscope®]🎲 Welcome to the Advanced World of Zigzag Analysis
Embark on a journey through the most comprehensive and feature-rich Zigzag implementation you’ll ever encounter. Our Multi-Timeframe Recursive Zigzag Indicator is not just another tool; it's a groundbreaking advancement in technical analysis.
🎯 Key Features
Multi Time-Frame Support - One of the rare open-source Zigzag indicators with robust multi-timeframe capabilities, this feature sets our tool apart, enabling a broader and more dynamic market analysis.
Innovative Recursive Zigzag Algorithm - At its core is our unique Recursive Zigzag Algorithm, a pioneering development that powers multiple Zigzag levels, offering an intricate view of market movements. This proprietary algorithm is the backbone of our advanced pattern recognition indicators.
Sub-Waves and Micro-Waves Analysis - Dive deeper into market trends with our Sub-Waves and Micro-Waves feature. Sub-Waves reveal the interconnectedness of various Zigzag levels, while Micro-Waves offer insight into the fundamental waves at the base level.
Enhanced Indicator Tracking - Integrate and track your custom indicators or oscillators with the zigzag, capturing their values at each Zigzag level, complete with retracement ratios. This offers a comprehensive view of market dynamics.
Curved Zigzag Visualization - Experience a new way of visualizing market movements with our Curved Zigzag Display, employing Pine Script’s polyline feature for a more intuitive and visually appealing representation.
Built-in Customizable Alerts - Stay ahead with built-in alerts that can be customized via user input settings.
🎯 Practical Applications
Our Zigzag Indicator is designed with an understanding of its inherent nature - the last unconfirmed pivot that consistently repaints. This characteristic, while by design, directs its usage more towards pattern recognition rather than direct identification of market tops and bottoms. Here's how you can leverage the Zigzag Indicator:
Harmonic Patterns - Ideal for those familiar with harmonic patterns, this tool simplifies the manual spotting of complex XABCD, ABC, and ABCD patterns on charts.
Chart Patterns - Effortlessly identify patterns like Double/Triple Taps, Head and Shoulders, Inverse Head and Shoulders, and Cup and Handle patterns with enhanced clarity. Navigate through challenging patterns such as Triangles, Wedges, Flags, and Price Channels, where the Zigzag Indicator adds a layer of precision to your breakout strategy.
Elliott Wave Components - The indicator's detailed pivot highlighting aids in identifying key Elliott Wave components, enhancing your wave analysis and decision-making process.
🎲 Deep Dive into Indicator Features
Join us as we explore the intricate features of our indicator in more detail.
🎯 Multi-Timeframe Capability
Our indicator comes equipped with an input option for selecting the desired resolution. This unique feature allows users to view higher timeframe Zigzag patterns directly on their lower timeframe charts.
🎯 Recursive Multi Level Zigzag
Our advanced recursive approach creates multi-level Zigzags from lower-level data. For instance, the level 0 Zigzag forms the base, calculated from specified length and depth parameters, while level 1 Zigzag is derived using level 0 as its foundation, and so forth.
The indicator not only displays multiple Zigzag levels but also offers settings to emphasize specific levels for more detailed analysis.
🎯 Sub-Components and Micro-Components of Zigzag Wave
Sub-components within a Zigzag wave consist of the previous level's Zigzag pivots. Meanwhile, the micro-components are composed of the base level (Level 0) Zigzag pivots encapsulated within the wave.
🎯 Curved Zigzag
Experience a new perspective with our curved Zigzag display. This innovative feature utilizes the polyline curved option to automatically generate sinusoidal waves based on multiple points.
🎯 Indicator Tracking
Default indicators such as RSI, MFI, and OBV are included, alongside the ability to track one external indicator at each Zigzag pivot.
🎯 Customizable Alerts
Our indicator employs the `alert()` function for alert creation. While this means the absence of a customization text box in the alert settings, we've included a custom text area for users to create their own alert templates.
Template placeholders include:
{alertType} - type of alert. Either Confirmed Pivot Update or Last Pivot Update. Depends on the alert type selected in the inputs.
When Last Pivot Update type is selected, the alerts are triggered whenever there is a new Zigzag Pivot. This may also be a repaint of last unconfirmed pivot.
When Confirmed Pivot Update type is selected, the alerts are triggered only when a pivot becomes a confirmed pivot.
{level} - Zigzag level on which the alert is triggered.
{pivot} - Details of the last pivot or confirmed pivot including price, ratio, indicator values and ratios, subcomponent and micro-component pivots.
🎲 User Settings Overview
🎯 Zigzag and Generic Settings
This involves some generic zigzag calculation settings such as length, depth, and timeframe. And few display options such as theme, Highlight Level and Curved Zigzag. By default, zigzag calculation is done based on the latest real time bar. An option is provided to disable this and use only confirmed bars for the calculation.
Indicator Settings
Allows users to track one or more oscillators or volume indicators. Option to add any indicator via external input is provided.
🎯 Alert Settings
Has input fields required to select and customize alerts.
Zigzag Tails [Trendoscope®] 🎲 Introducing Zigzag Tails Indicator by Trendoscope.
The Zigzag Tails Indicator, a groundbreaking tool from Trendoscope, redefines technical analysis by seamlessly integrating anchored VWAPs (Volume Weighted Average Prices) and Average Price calculations with Zigzag pivot points. This advanced indicator recalculates Average Price or VWAP from one Zigzag pivot to the next, offering unparalleled insights into market movements.
🎯 Innovative Design
Each Zigzag pivot can feature up to three distinct tails, corresponding to the high, low, and close prices of each candle. Users have the flexibility to select between Average Price and VWAP for display on their charts. By default, the indicator plots all three tails, but individual tail visibility is customizable via the settings panel.
Average Price Mode: When selected, tails depict the average price across a specified number of bars.
VWAP Mode: In this mode, tails represent the VWAP, calculated for a given price over a set number of bars.
🎯 Dynamic Dotted Tail
The Zigzag Tails Indicator features dotted tails that extend from the last Zigzag pivot to the current bar. These dotted tails dynamically adapt to market changes and are subject to repainting with the emergence of new Zigzag pivots.
When repainting is enabled, the dotted tails originate from the last unconfirmed Zigzag pivot, extending to the current bar. This setting offers a more immediate, albeit tentative, visual representation of market trends.
With repainting disabled, the dotted tails will be anchored from the last confirmed Zigzag pivot to the current bar, providing a more stable but slightly delayed market analysis.
Irrespective of the repaint option, the dotted dynamic tails is always expected to repaint.
🎯 Practical Applications
The Zigzag Tails Indicator provides more accurate support and resistance levels than traditional VWAP, rolling VWAP, or moving averages. Its precision makes it an invaluable tool for identifying trends, as well as potential trend continuations or reversals.
🛠 Indicator Settings
Zigzag Configuration:
Zigzag Length determines the loopback length for the foundational Zigzag calculation.
Number of Bars represent the calculation distance. This limitation is added to avoid runtime errors on lower timeframes. The calculations run through lots of loops. Hence, if it is run across too many bars, we may get timeout issues.
Repaint: Activating this will also display the last, unconfirmed Zigzag pivot. Since the last pivot is inherently tentative, it may repaint with the arrival of new bars. A pivot is confirmed only when a subsequent unconfirmed pivot emerges on the chart.
Tail Configuration
Tail Type: Choose between average and VWAP for the tail calculation. The average option plots a simple average, while the VWAP option calculates an anchored VWAP from pivot to pivot.
Display Options: Tailored display options for High, Low, Close prices, with customizable colors for each tail type.
Inspired by the ideas of @KioseffTrading's implementation of Zigzag Anchored VWAP
Divergence Indicator [Trendoscope®]🎲 New Divergence Indicator by Trendoscope
Our latest Divergence Indicator revolutionizes the way traders identify market trends and potential reversals. Built upon the robust foundation of the Zigzag Trend Divergence Detector and inline with our recent implementation of the Divergence Goggles indicator, this tool is designed to be intuitive yet powerful, making it an essential addition to any trader's toolkit.
We received several queries on extending the Divergence Goggles to last N bars instead of using an interactive widget. Though it is possible, we thought the better approach is to enable the indicator to use any oscillator and trend indicator in order to define the divergence.
🎯 Key Features
Flexible Oscillator Integration : Choose from a wide range of built-in oscillators or import your own, including options like the innovative Multiband Oscillator. This versatility extends to using volume indicators like OBV for divergence calculations, broadening the scope of analysis.
Trend Identification Versatility : Utilize built-in methods like Zigzag and MA Difference, or integrate external trend indicators. Our system adapts to various methods, ensuring you have the right tools for precise trend identification.
Customizable Zigzag Sensitivity : Adjust the Zigzag based on your chosen oscillator's sensitivity to ensure divergence lines are accurate and visually coherent.
Repainting vs. Delayed Signals : Tailor the indicator to your strategy by choosing between immediate repainting signals and slightly delayed but more stable signals.
🎯 Understanding Divergence: Key Rules
Bullish Divergence
Happens only in downtrend
Observed on Pivot Lows
Price makes lower low whereas oscillator makes higher low, indicating weakness and possible reversal
Bearish Divergence
Happens only in uptrend
Observed on Pivot Highs
Price makes higher high whereas oscillator makes lower high, indicating weakness and possible reversal
Bullish Hidden Divergence
Happens only in uptrend
Observed on Pivot Lows
Price makes higher low, whereas indicator makes lower low due to price consolidation. In bullish trend, this is considered as bullish as the price gets a breather and get ready to surge further.
Bearish Hidden Divergence
Happens only in downtrend
Observed on Pivot Highs
Price makes lower high whereas oscillator makes higher high due to price consolidation. In bearish trend, this is considered as bearish as the price gets a breather and get ready to fall further.
🎯 Visual Insights: Divergence and Hidden Divergence
For a clearer understanding, refer to our visual guides:
🎲 Using the Divergence Indicator: A Step-by-Step Guide
🎯 Step 1 - Selecting the Oscillator
Customize your analysis by choosing from a variety of oscillators or importing your preferred one. Options are available to select a range of built-in oscillators and the loopback length. However, if the oscillator that user want to use is not in the list, they can simply load the oscillator from the indicator library and use it as an external signal.
In our current example, we are using a custom oscillator called - Multiband Oscillator
This also means, the indicator option is not limited to oscillators. Users can even make use of volume indicators such as OBV for the calculation of divergence.
🎯 Step 2 - Choosing the Trend Identification Method
Select from our built-in methods or integrate an external indicator to accurately identify market trends. Trend is one of the key parameters of divergence type identification. Trend can be identified mathematically by various methods. Some of them are as simple as above or below 200 moving average and some can follow trend based indicators such as supertrend and others can be very complex.
To cater for a wider audience, here too we have provided the option to use an external trend indicator. The simple condition for the external trend indicator is that it should return positive value for uptrend and negative value for downtrend.
Other than that, we also have 2 built in trend identification methods.
Zigzag - The trend is defined by the starting pivot of divergence line. If the starting pivot is Higher High or Higher Low, then it is considered uptrend. And if the starting pivot is either Lower Low or Lower High, then we consider it as downtrend.
MA Difference - In this case, the difference between the moving average of pivots joining the divergence line will determine the trend. It is considered uptrend if the moving average increased from starting pivot to ending pivot of the divergence line, and it is considered downtrend if the moving average decreased from starting pivot to the ending pivot of the divergence line.
🎯 Step 3 - Adjusting Zigzag Sensitivity
Fine-tune the Zigzag to match the oscillator's sensitivity, ensuring divergence lines are accurate and visually coherent.
🎯 Step 4 - Managing Repainting
Understand the implications of repainting in the last pivot of the Zigzag and choose between immediate or delayed signals based on your trading strategy. The last pivot of the zigzag repaint by design. This is not necessarily a bad thing. Users can just choose not to use the last pivot, but instead use the last but one for all the calculations. But, this also means, the signals will be delayed.
Indicator provides option to use repainting signal vs delayed signal. If you select the repaint option, the signals are shown immediately as and when they occur. But, there is a possibility that these signals change when the new price candles change zigzag pivot.
If you chose not to select the repaint option, then the divergence signals may lag by a few bars.
RSI-Divergence Goggles [Trendoscope®]🎲 Introducing the RSI-Divergence Goggle
🎯 Revolutionizing Divergence Analysis in Trading
While the concept of divergence plays a crucial role in technical analysis, existing indicators in the community library have faced limitations, particularly in simultaneously displaying divergence lines on both price and oscillator graphs. This challenge stems from the fact that RSI and other oscillators are typically plotted in a separate pane from the price chart. Traditional Pine Script® indicators are confined to a single pane, thus restricting comprehensive divergence analysis.
🎯 Our Innovative Solution: RSI on the Price Pane
The RSI-Divergence Goggle breaks through these limitations. Our innovative approach involves plotting the RSI directly onto the price pane within a movable and resizable widget. This groundbreaking feature allows for the simultaneous drawing of zigzag patterns on both price and the oscillator, enabling the effective calculation and visualization of divergence lines on both.
🎯 The Foundation: Our Divergence Research and Rules
Our journey into divergence research began three years ago with the launch of the "Zigzag Trend Divergence Detector." The foundational rules established with this script remain pertinent and form the basis of all our subsequent divergence-based indicators.
🎯 Understanding Divergence: Key Concepts
Divergence Varieties : We identify two main types - Bullish Divergence (and its hidden counterpart) occurs at pivot lows, while Bearish Divergence (and its hidden version) appears at pivot highs.
Contextual Occurrence : Bullish divergence is a phenomenon of downtrends, whereas bearish divergence is unique to uptrend. Conversely, hidden bullish divergence arises in uptrends, and hidden bearish divergence in downtrends.
Oscillator Behavior : In standard divergence scenarios, the oscillator lags behind price, signaling potential reversals. In hidden divergence cases, the oscillator leads, suggesting trend continuation.
🎯 Visual Insights: Divergence and Hidden Divergence
For a clearer understanding, refer to our visual guides:
🎯 A Word of Caution
While divergence is a powerful tool, it's not a standalone guarantee of trend reversals or continuations. We recommend using these patterns in conjunction with support and resistance levels, as demonstrated in our "Divergence Based Support Resistance" implementation.
🎯 Using the RSI-Divergence Goggles
Upon applying the indicator to your chart, you'll be prompted to select two corner points, defining the widget's placement and size. This widget is the stage for your RSI plotting and divergence calculations. Choose these points carefully to ensure they encompass your area of interest without overlapping important price bars.
An example as below.
🎯 Innovative Features:
Plotting RSI: RSI values are scaled from 0 to 100 within the widget. This unique plotting may not align with individual bar values, but pivot labels and tooltips provide detailed RSI and retracement ratio information.
Zigzag and Pivots: Our adjusted RSI plots determine the zigzag pivot highs and lows, which may not always correspond with visible price pivots. However, calculations based on close prices ensure minimal deviation.
Divergence Display: Divergence types are identified following our established rules, with a simple moving average employed to discern the prevailing trend.
🎯 Trend Detection Mechanism
A simple moving average is used as base for determining the trend. If the difference between moving averages of the alternate pivots is positive, then the sentiment is considered to be uptrend. Else, we consider the sentiment to be in downtrend.
This is a simple method to identify trend, implemented via this indicator. The indicator does not provide alternative methods to identify trend. This is something that we can explore in the future.
🎯 Interactive and Customizable
The RSI-Divergence Goggle isn't just a static tool; it's an interactive feature on your chart. You can move or resize the widget, allowing for dynamic analysis and focused study on different chart segments.
Oscillator Volume Profile [Trendoscope®]The Oscillator Volume Profile indicator is designed to construct a volume profile based on predefined oscillator levels. It integrates volume data with oscillator readings to offer a unique perspective on market dynamics.
🎲 Selectable Oscillators:
Users can select from an array of oscillator options for the basis of the volume profile, including:
Relative Strength Index (RSI)
Chande Momentum Oscillator (CMO)
Center of Gravity (COG)
Money Flow Index (MFI)
Rate of Change (ROC)
Commodity Channel Index (CCI)
Stochastic Oscillator (Stoch)
True Strength Index (TSI)
Williams %R (WPR)
The length parameters - Length, Fast Length, Slow Length allows users to define the period over which the chosen oscillator is calculated, tailoring the sensitivity of the indicator to their trading strategy.
🎲 Dynamic Overbought/Oversold Ranges:
This indicator enhances traditional concepts by introducing dynamic overbought and oversold levels. These adaptable thresholds are calculated using various methods, including:
🎯 Highest/Lowest Range Method : This method establishes the range based on the highest and lowest values of the oscillator within the last N bars.
🎯 Moving Average Range Method : The range is derived from a moving average of the oscillator, providing a smoothed threshold that reflects more recent market conditions.
In addition to these methods, the indicator incorporates a unique 'Sticky Border' feature:
🎯 Sticky Border: With this option enabled, the dynamic ranges maintain their levels until the oscillator breaks out of the range. Once a breakout occurs, the levels are recalculated and updated. This mechanism ensures that the borders remain consistent and relevant, only adjusting to significant market movements that warrant a recalculation.
Users can select their preferred method for determining dynamic ranges, allowing for a customized approach that aligns with their analysis and trading strategy. The sticky border feature further refines this functionality, offering continuity until a decisive market move occurs.
🎲 Volume Profile Calculation Parameters:
🎯 Trend Filter: The indicator provides a versatile trend filter with four selectable options:
Uptrend: The volume profile is calculated when the oscillator indicates an uptrend.
Downtrend: The volume profile is calculated when the oscillator indicates a downtrend.
Any: The volume profile is calculated regardless of the trend.
External: Users can input values from an external indicator. The volume profile is then calculated only when the external indicator's value is non-zero, integrating external analysis into the volume profile construction.
🎯 Precision: Users have the option to define the precision for calculating the volume profile, which is crucial due to the varying scales of different oscillators (e.g., some oscillators range from 0 to 100, while others from -1 to 1). Selecting an appropriate precision ensures that the volume profile is accurately aligned with the minimal price range significant to the chosen oscillator. This setting requires user intervention for optimal configuration, as automatic calculation is not feasible due to the diverse nature of oscillator ranges.
🎯 Number of Bars: Users can select a specific number of bars for volume profile calculation, or opt to include all available historical bars for a comprehensive profile.
🎲 Selecting the right precision:
Users must select the right precision based on their choice of indicator. For example, RSI values range from 0-100. Hence, the default precision of 1 work fine on RSI as the volume profiles are plotted from 0 to 100 at the interval of 0.1
But, the default precision of 1 will not be ok on TSI because TSI values range from -1 to 1. Hence, using 1 as precision will result in very less volume profile lines as shown below.
Due to this, it is necessary to increase the precision for oscillators such as TSI where the range between highest and lowest value is far less. Once we set the precision to 2, we can see more appropriate volume profile division.
🎲 Note of thanks:
This publication uses polyline feature for drawing volume profiles. The advantage of using polyline is that we can overcome max 500 lines issue that we face by using the regular line objects. More details of polyline can be found in the tradingview blog post
Further, using polyline for display of volume profiles is inspired by the publications of fikira and KioseffTrading
Volume Spike Analysis [Trendoscope]The Volume Spike Analysis is designed to detect volume spikes in a trading instrument's data. Rather than relying on the traditional method of comparing volume to its moving average, this indicator employs a distinctive approach to ensure accuracy.
Methodology
Historical Volume Comparison: The indicator first assesses the current bar's volume, say 100k, and looks back historically to determine the last instance when the volume was equal to or exceeded this level.
High Volume Bar Gap Calculation: The intervals or gaps between high volume bars are recorded. These gaps help in determining how common or rare a particular volume spike is.
Spike Magnitude Determination: Here, the extent of the volume spike is gauged in relation to either the median, lowest, or average volume of the intervening bars. The reference metric (median, lowest, or average) can be chosen by the user through the "Volume Spike Reference" input parameter.
Spike Percentile Analysis: The calculated spike magnitude (as a percentage of the reference volume) is cataloged. This collection aids in understanding the relative intensity of the current volume spike when compared to previous spikes.
Threshold Comparisons: The indicator then compares the calculated "High Volume Distance Percentile" to the "Last High Volume Distance Percentile" and the "Volume Spike Percentile" to the "Volume Spike Threshold". If these values surpass the preset thresholds, the current bar is flagged as a high volume or volume spike bar.
Visual Components
Bar Highlighting : High volume or volume spike bars are accentuated with bright colors for easy identification. All other bars have increased transparency to reduce visual clutter.
Distance from the High Volume Bar: Indication of the number of bars since the last high volume occurrence and its respective percentile.
Comparative Factors: A factor representing the magnitude by which the current volume surpasses the lowest, median, and average volumes.
Lowest, Median and Average Volumes: The lowest and median volumes are indicated by tooltips on lines marking the respective bars. The average volume is depicted as a dotted horizontal line, with a triangle marker tooltip revealing its value.
This indicator offers a nuanced analysis of volume spikes, aiding traders in making more informed decisions.
ABC on Recursive Zigzag [Trendoscope]There are several implementations of ABC pattern in tradingview and pine script. However, we have made this indicator to provide users additional quantifiable information along with flexibility to experiment and develop their own strategy based on the patterns.
🎲 Highlights of this indicator over other ABC implementations are:
Implementation is based on recursive multi level zigzag allows bigger as well as smaller patterns to be identified
Allows users to set their trading rules with respect to entry, target and stop ratios, experiment and build their own strategy based on the ABC pattern.
Back test summary including win ratio and risk reward will help users understand the profitability based on different settings being used.
🎲 Concept of ABC Pattern
The ABC pattern, also known as the "Corrective Wave" or "Zigzag Pattern," is a fundamental concept in Elliott Wave Theory, which is widely used in technical analysis to identify and predict price movements in financial markets.
The ABC pattern is a three-wave corrective pattern that typically occurs within the context of a larger impulse or trending wave. It consists of two smaller waves in the opposite direction (A and C) separated by a corrective wave (B). These waves are labeled alphabetically and represent price movements.
Wave A (Impulse Wave): Wave A is the first leg of the ABC pattern and is characterized by a strong price move in the opposite direction of the prevailing trend. It is often driven by a fundamental or sentiment-driven event that temporarily disrupts the trend.
Wave B (Corrective Wave): Wave B is the corrective wave that follows Wave A. It represents a partial retracement of Wave A's price movement. Wave B can take various forms, such as a simple correction or a complex correction (e.g., a triangle or a flat correction). It typically doesn't retrace the entire length of Wave A.
Wave C (Impulse Wave): Wave C is the final leg of the ABC pattern and is characterized by a strong price move in the same direction as the prevailing trend. It often surpasses the starting point of Wave A and confirms the resumption of the larger trend.
🎲 Indicator Components
Upon loading the indicator on the chart, we can observe the following components on the chart.
Pattern Drawings is the graphical representation of present patterns. Please note that it is not necessary for patterns to be there on the chart all the time. Patterns will appear on the chart when price makes the patterns.
Trade Box is the box representing trade signals of the pattern. These trade levels are generated based on the user settings.
Summary Table is the back test summary containing details of historical pattern performance including Win Ratio and Risk Reward.
🎲 Indicator Settings
Details of each user settings are provided in the tooltips. Below is the snapshot of it.
🎲 Alerts
Basic level of alerts are built in the script using alert function to highlight the following conditions:
New ABC Pattern
Updates to existing Pattern
Both conditions will alert simple text messages. There is not much customization provided as part of this indicator. We will consider providing more options in future versions based on the interest and demand shown by users.
Historical Pattern Matcher [Trendoscope]Do you believe in patterns and think price movements are more likely to follow historical patterns? If yes, this is an indicator for you.
🎲 Concept
The patterns in this script are not a named or known pattern. But, it can be any pattern that happen to repeat again and again over a period of time.
The indicator collects the following information over a period of time.
Collects all possible patterns for specified number of pivots based on relation between each pivot prices. (Default 6)
Keeps track of all the possible patterns for the given pivots and number of occurrences of such patterns over a period of time.
Collects the movement of next pivot (in terms of retracement ratio) after the pattern has formed for each occurrence.
Keeps track of the last occurrence of each pattern collected
And the indicator presents on chart following information
Current Pattern drawing based on last confirmed pivot.
Current Pattern drawing based on current unconfirmed pivot in the opposite direction.
Projection range based on historical retracement ratio for both patterns
Detailed info on last occurrence and overall occurrences.
Last occurrence of both confirmed and unconfirmed pivot patterns.
Please note that, if the patterns have not been repeated over a period, then it will not be shown on the screen. Hence, it is perfectly normal to not see any projection. This can happen when the current pattern has not been repeated any time before.
🎲 Details
When you load the indicator on the chart, you may see the following patterns and projections.
You may also notice, in the pattern details, information about the last occurrence of the pattern. If you scroll on your chart to the left to the given data and time, you can observe how the past occurrence of the pattern has formed and the price movement past that point.
For example, last occurrence of pattern based on confirmed pivot happened on 02-Jun-2023 00:00 UTC time
And last occurrence of pattern based on unconfirmed pivot happened on 27-Apr-2023 22:00 UTC time
🎲 Settings
Settings are minimal, and here is the meaning of them.
Most important setting here is the number of pivots forming the pattern.
🎲 Caution
The indicator is designed to present the projection based on historical occurrences of similar price pattern. This does not necessarily mean the patterns are supposed to be bullish or bearish. But, it will certainly give users an idea of what happened when similar price action presented historically.
Note to developers This script makes use of new pine script feature - maps
Auto Harmonic Pattern - Screener [Trendoscope]At Trendoscope, we take pride in offering a wide range of indicators on Harmonic Patterns, including both free and premium options. While we have successfully developed various advanced tools, we recognize that creating a Harmonic Pattern screener is an audacious endeavor that few have ventured into.
Creating a harmonic pattern screener presents a formidable challenge. The intricate nature of the algorithm, coupled with the limitations of cloud-based processing and platform memory, makes it exceedingly difficult to implement the screener functionality without encountering runtime errors.
Today marks a historic achievement as we overcome numerous challenges to unveil our groundbreaking harmonic pattern-based screener. This significant leap signifies our commitment to innovation in the field.
Without further delay, let's dive right into the new Auto Harmonic Pattern - Screener algorithm
🎲 Features Overview
🎯 Primary Functionality
We prefer not to categorize this as a traditional indicator, as it goes beyond that scope. Instead, it's a unique amalgamation of both a screener and an indicator, designed to achieve primarily two essential functions.
Firstly, it efficiently scans multiple tickers, up to 20, for harmonic pattern formations and presents them on a user-friendly dashboard
Secondly, it provides harmonic pattern drawings on the chart, but only if the current chart ticker is part of the screener and exhibits a harmonic pattern formation.
🎯 Secondary Features
In addition to its primary functionalities, our revolutionary algorithm offers an array of secondary features that cater to traders' diverse needs
Users have the privilege of accessing enhanced settings, providing limitless customization options for the zigzag and pattern detection algorithm
The platform empowers traders to effortlessly customize stop entry target ratios, facilitating automatic calculations and display of suggestions
The freedom to personalize the visualization and display of patterns and dashboard ensures a seamless and intuitive user experience
And finally, the algorithm leaves no stone unturned, keeping traders well-informed through timely alerts on every bar, highlighting tickers exhibiting Harmonic Pattern formations.
🎯 Limitations
Our innovative screener harnesses the power of the recursive zigzag algorithm to deliver efficient and accurate harmonic pattern detections. While the deep search algorithm, present in our other Harmonic Pattern algorithms, offers unparalleled precision, its resource-intensive nature makes it unsuitable for simultaneous scanning of 20 tickers. By focusing on the recursive zigzag approach, we strike the perfect balance between performance and functionality, ensuring seamless scanning across multiple tickers without compromising on accuracy. This strategic decision allows us to deliver a powerful and reliable screener that meets the diverse needs of traders and empowers them with real-time harmonic pattern insights.
🎲 Chart Components
Upon loading the indicator and configuring your tickers, our user-friendly interface offers two key components seamlessly integrated into the chart:
A color-coded screener dashboard : The dashboard presents a clear visualization of tickers with bullish and bearish harmonic patterns. This intuitive display allows you to quickly identify potential trading opportunities based on pattern formations.
Dynamic pattern display : As you interact with the chart, our algorithm dynamically highlights possible harmonic patterns based on the latest zigzag pivots. Please note that patterns may not always be visible on the chart, especially in cases where higher-level zigzags take time to form pivots. However, rest assured that our sophisticated algorithm ensures real-time updates, providing you with accurate and timely harmonic pattern insights.
🎯 Screener Dashboard
In our screener dashboard, you will find a wealth of information at your fingertips:
Bullish patterns : Tickers exhibiting bullish harmonic patterns are prominently highlighted with a refreshing green background
Bearish patterns : Similarly, tickers featuring bearish harmonic patterns stand out with a striking red background
Dual patterns : Tickers displaying both bullish and bearish patterns are cleverly highlighted in a captivating purple background, providing a comprehensive view of the harmonic pattern landscape.
Tickers without current patterns : Tickers lacking any current patterns are elegantly displayed with a silver background. These tickers do not trigger tooltips, streamlining your focus on actionable pattern-related data.
🎲 Settings in Detail
🎯 Tickers
Our platform currently allows users to select up to 20 tickers for the harmonic pattern screener. We understand the importance of flexibility and scalability, and while we are excited to accommodate more tickers in the future, our present focus is to ensure optimal performance within the CPU and memory limitations. Rest assured, we are continuously working on enhancing our capabilities to provide you with an even more comprehensive experience. Stay tuned for updates as we strive to meet your evolving needs.
🎯 Zigzag and Harmonic Pattern
In this section, we present a range of essential settings that play a pivotal role in the calculation of the zigzag and the scanning of patterns. These parameters share similarities with other premium indicators associated with Harmonic patterns. These settings serve as building blocks for our advanced algorithms' suite.
This include
Zigzag length and depth settings for calculation of the multi level recursive zigzag
Pattern scanning settings to filter patterns based on preferences of category, pattern name, accuracy of calculation, and other considerations.
User preference of pattern trading ratios that are used for calculating entry, stop and target prices.
🎯 Screener Dashboard and Alerts
In this section, we introduce the parameters that define the format and content of alerts and the screener dashboard, offering you maximum flexibility in customizing their display. These settings encompass the following key aspects:
Screener dashboard position, layout and size that influence the display of screener dashboard.
List of parameters that can be shown on dashboard tooltips as well as on alerts.
Format of alert and tooltip data
🎯 Pattern Display
These are the settings related to pattern display on the chart and to limit calculation to last n bars
Will soon make video tutorials on this soon.
Volume Forks [Trendoscope]🎲 Volume Forks - Advanced Price Analysis with Recursive Auto-Pitchfork and Angled Volume Profile
The Volume Forks Indicator is a comprehensive research tool that combines two innovative techniques, Recursive Auto-Pitchfork and Angled Volume Profile . This indicator provides traders with valuable insights into price dynamics by integrating accurate pitchfork drawing and volume analysis over angled levels. The indicator does following things
Detects Pitchfork formations automatically on the chart over Recursive Zigzag
Instead of drawing forks based on fib levels, volume distribution over ABC of pitchfork is calculated and drawn in the direction of the handle.
🎲 Brief about Pitchfork
Pitchfork is drawn when price forms ABC pattern. Pitchfork draws a series of parallel lines in the direction of trend which can be used for support and resistance.
There are many methods of drawing pitchfork. In all cases, a line joining BC will make the base of pitchfork and fork lines are drawn from different points of the base. All the fork lines will be parallel. But, the handle of the base defines the direction of fork lines. Classification of pitchfork is mainly based on the starting and ending points of the handle.
🎲 Regular Types
Here, end of the handle is always fixed and it will be the mid point of B and C.
🎯 Andrews Pitchfork
Handle starts from A and joins the base at mid of B and C.
Forks are drawn based on fib ratios from the handle
🎯 Schiff Pitchfork
Handle starts from Bar of A and price of middle of AB and joins the base at mid of B and C
Forks are drawn based on fib ratios from the handle
🎯 Modified Schiff Pitchfork
Handle starts from mid of A and B and joins the base at mid of B and C
Forks are drawn based on fib ratios from the handle
🎲 Inside Types
Here, C will act as end of the handle which joins the Base BC .
🎯 Andrews Pitchfork (Inside)
Handle starts from A and joins the base at C
Forks are drawn based on fib ratios from the handle
🎯 Schiff Pitchfork (Inside)
Handle starts from Bar of A and price of (A+B)/2 and joins the base at C
Forks are drawn based on fib ratios from the handle
🎯 Modified Schiff Pitchfork (Inside)
Handle starts from mid of A and B and joins the base at C
Forks are drawn based on fib ratios from the handle
🎲 Brief about Pitchfork
The Angled Volume Profile technique expands on the concept of volume profile by measuring volume distribution levels over angled levels rather than just horizontal levels. By selecting a starting point and angle interactively, traders can assess volume distribution within specific price trends. This feature is particularly useful for analysing volume dynamics in trending markets.
🎲 Settings
Indicator settings include few things which determine the scanning of pitchforks and few which determines drawing of volume profile lines.
Please note that, due to pine limitations of 500 lines, if there are too many formations on the chart, volume profile may not appear correctly. If that happens, please reduce the number of volume forks per formation.
Recursive Micro Zigzag🎲 Overview
Zigzag is basic building block for any pattern recognition algorithm. This indicator is a research-oriented tool that combines the concepts of Micro Zigzag and Recursive Zigzag to facilitate a comprehensive analysis of price patterns. This indicator focuses on deriving zigzag on multiple levels in more efficient and enhanced manner in order to support enhanced pattern recognition.
The Recursive Micro Zigzag Indicator utilises the Micro Zigzag as the foundation and applies the Recursive Zigzag technique to derive higher-level zigzags. By integrating these techniques, this indicator enables researchers to analyse price patterns at multiple levels and gain a deeper understanding of market behaviour.
🎲 Concept:
Micro Zigzag Base : The indicator utilises the Micro Zigzag concept to capture detailed price movements within each candle. It allows for the visualisation of the sequential price action within the candle, aiding in pattern recognition at a micro level.
Basic implementation of micro zigzag can be found in this link - Micro-Zigzag
Recursive Zigzag Expansion : Building upon the Micro Zigzag base, the indicator applies the Recursive Zigzag concept to derive higher-level zigzags. Through recursive analysis of the Micro Zigzag's pivots, the indicator uncovers intricate patterns and trends that may not be evident in single-level zigzags.
Earlier implementations of recursive zigzag can be found here:
Recursive Zigzag
Recursive Zigzag - Trendoscope
And the libraries
rZigzag
ZigzagMethods
The major differences in this implementation are
Micro Zigzag Base - Earlier implementation made use of standard zigzag as base whereas this implementation uses Micro Zigzag as base
Not cap on Pivot depth - Earlier implementation was limited by the depth of level 0 zigzag. In this implementation, we are trying to build the recursive algorithm progressively so that there is no cap on the depth of level 0 zigzag. But, if we go for higher levels, there is chance of program timing out due to pine limitations.
These algorithms are useful in automatically spotting patterns on the chart including Harmonic Patterns, Chart Patterns, Elliot Waves and many more.
Consolidation Range Tracker[Trendoscope]🎲 Introducing Consolidation Range Tracker: Visualising Price Consolidation after Impulsive Moves
ConsolidationRangeTracker is an innovative indicator designed to assist traders in identifying and tracking price consolidation zones following impulsive market moves. This indicator is built on Auto Motive Wave indicator and Interactive Motive Wave indicator. This is also an attempt to plot Wyckoff Distribution pattern. But, instead of implying the price movement after consolidation, we are just leaving it to the interpretation of the users.
🎲 Process
Find impulse wave using the methods defined in Auto Motive Wave indicator and Interactive Motive Wave indicator
Define the range of consolidation based on predefined ratio (available as input settings)
Track the price movement within range along with number of bars and cumulative volume.
When price breaks out of the range, check if price ranged long enough to consider it as consolidation.
Retain the drawings and visualisation if the consolidation is confirmed before the breakout. Or else, remove them from the chart to keep it clean.
Overall output can be visualised as
Note : Patterns will not be there on the chart every time. It is normal for indicator not to show any drawings or patterns on the chart.
🎲 Stages of the Indicator
🎯 When an Impulse is formed
When an impulse wave is detected, wave is drawn on the chart along with details such as number of bars and volume spawning the impulse wave and the calculated range based on the input value. An alert of new impulse is also triggered if configured for alerts.
🎯 When an Impulse is updated
When price extends further without consolidating, the impulse wave is also updated to consider the latest values. This repaint is expected and as designed. We will also trigger an alert related to update of an impulse wave.
🎯 Update of range as and when it happens
Range is not bound and it keeps moving based on the highest and lowest price. Value of range is constant and it is calculated based on certain ratio of impulse as configured in settings. But, this range can move up and down based on which direction the price moves.
For example, this is the initial range when the impulse wave is formed.
But, after certain bars, we can see that the range shift slightly up because, price has more upward movement than downward.
No alerts are triggered during this phase.
🎯 Confirmed consolidation
Consolidation range is confirmed after price range through certain bars with respect to number of bars involved in the impulse wave. The default setting of 1 for range bar ratio means that range is confirmed when price ranges for same number of bars as that of impulse.
An alert is triggered when consolidation range is confirmed.
🎯 Breakout
Breakout happen if the price exceeds the range bracket. Breakout may happen either before or after confirmation of consolidation. In either case, an alert is triggered.
Patterns are removed from the chart if the consolidation is not confirmed. In other words, the price did not stay in range for long time.
🎲 Settings
Simple settings to define the zigzag base and few pattern related configuration.
🎲 Alerts
Alerts are configured using alert function and are triggered in following scenarios.
A new impulse created
An impulse wave is updated
Consolidation range confirmed
Breakout with/without confirmed consolidation.
🎲 Use Cases
Indicator can be used for identifying few types of patterns on the chart. But, they may involve user's discretion. Major patterns that can be identified are:
🎯 Flag Formation Consolidation after an impulse can be termed as flag and is a sign of trend continuation after consolidation.
🎯 Wyckoff Distribution Long consolidation with high volume after an impulse can be a sign of wyckoff distribution formation. This pattern is trend reversal pattern.
Auto Motive Wave [Trendoscope]Earlier we created an interactive script to study Motive Waves by manually selecting the wave patterns on the chart.
You can find the open source script here:
In this indicator, we will try to do it automatically. Hence, you don't need to draw the waves manually to check anymore. The indicator will do it for you.
🎲 Conditions for Motive Wave
Rules for Motive Waves remain same as before. Motive wave can be either Impulse or Diagonal Wave. Diagonal wave can be either expanding or contracting diagonals. To learn more about diagonal waves, please go through this idea.
🎲 Rules for generic motive waves are as below
Pivots in order - Checks wether the pivots selected are in progressive order.
Directions in order - Checks if the pivot directions are correct - either PH, PL, PH, PL, PH, PL or PL, PH, PL, PH, PL, PH
Wave 2 never moves beyond the start of wave 1 - Wave 2 retracement is less than 100% of wave1
Wave 3 always moves beyond the end of wave 1 - Wave 3 retracement is more than 100% of wave2
Wave 3 is never the shortest one - Checks if Wave 3 is bigger than either Wave 1 or wave 5 or both.
🎲 Now, these are the specific rules for Impulse Waves on top of Motive Wave conditions
Wave 4 never moves beyond the end of Wave 1 - meaning wave 1 and wave 4 never overlap on price scale.
Wave 1, 3, 5 are all not extended. We check for retracement ratios of more than 200% to be considered as extended wave.
🎲 Below are the conditions for Diagonal Waves on top of Motive Wave conditions
Wave4 never moves beyond the start of Wave 3 - Wave 4 retracement is less than 100%
Wave 4 always ends within the price territory of Wave 1 - Unlike impulse wave, wave 4 intersects with wave 1 in case of diagonal waves. This is the major difference between impulse and diagonal wave.
Waves are progressively expanding or contracting - Wave1 > Wave3 > Wave5 and Wave2 > Wave4 to be contracting diagonal. Wave1 < Wave3 < Wave5 and Wave2 < Wave4 to be expanding diagonal wave.
Settings are for the indicator include option to select zigzag length, theme color, and few constraints about the waves to be scanned. You can use the tooltips to find more about them
Interactive Motive Wave ChecklistHere is an interactive tool that can be used for learning a bit about Elliott Waves
🎲 How it works?
The script upon load asks users to enter 6 pivots in an order. Once all 6 pivots are selected on the interactive chart, the script will calculate if the structure is a valid motive wave.
When you load the script, you will see a prompt on the chart to select points on the chart to form 6 pivots.
When you select the 6 pivots, the checklists are populated on the chart to notify users which conditions for qualifying the selection has passed and which of them are failed.
🎲 Conditions for Motive Wave
Motive wave can be either Impulse or Diagonal Wave. Diagonal wave can be either expanding or contracting diagonals. To learn more about diagonal waves, please go through this idea.
Rules for generic motive waves are as below
Pivots in order - Checks wether the pivots selected are in progressive order.
Directions in order - Checks if the pivot directions are correct - either PH, PL, PH, PL, PH, PL or PL, PH, PL, PH, PL, PH
Wave 2 never moves beyond the start of wave 1 - Wave 2 retracement is less than 100% of wave1
Wave 3 always moves beyond the end of wave 1 - Wave 3 retracement is more than 100% of wave2
Wave 3 is never the shortest one - Checks if Wave 3 is bigger than either Wave 1 or wave 5 or both.
Now, these are the specific rules for Impulse Waves on top of Motive Wave conditions
Wave 4 never moves beyond the end of Wave 1 - meaning wave 1 and wave 4 never overlap on price scale.
Wave 1, 3, 5 are all not extended. We check for retracement ratios of more than 200% to be considered as extended wave.
Below are the conditions for Diagonal Waves on top of Motive Wave conditions
Wave4 never moves beyond the start of Wave 3 - Wave 4 retracement is less than 100%
Wave 4 always ends within the price territory of Wave 1 - Unlike impulse wave, wave 4 intersects with wave 1 in case of diagonal waves. This is the major difference between impulse and diagonal wave.
Waves are progressively expanding or contracting - Wave1 > Wave3 > Wave5 and Wave2 > Wave4 to be contracting diagonal. Wave1 < Wave3 < Wave5 and Wave2 < Wave4 to be expanding diagonal wave.
Here is an example of diagonal wave projection
Here is an example of impulse wave projection