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MACD Divergence Fast by RSUAdvantages: 1. When MACD-diff line(orange color) is at a high point, once it falls by 1 k line, it will detect the divergence from the previous high point. This can quickly find the divergence that has taken effect and help you quickly capture the trend before a sharp decline or rise. 2. This indicator detects the previous high and the previous low of 5, 10, 20, 40, 60 lengths at the same time, instead of only detecting a fixed length, so that more divergences can be found. Notice: Because it is a quick divergence detection, it is recommended to confirm that the divergence takes effect after the current k is completely closed first. I have identified this state in the indicator as "k not end". Disadvantages and Risks: Since it is a quick discovery, there will be error identification. Error divergences will recolor to grey. Suggestion: Use “RSI Divergence Fast by RSU” at the same time, because RSI divergence usually occurs before macd, if the position diverges at the same time, the probability of success will increase. Please do not: Don't go short in the uptrend, don't go long in the downtrend. Top divergences that occur because of a strong uptrend are usually only temporary pullbacks. Bottom divergences in persistent declines are also temporary rallies. Do not attempt to trade such low-return trades. It is recommended to use the divergence indicator when the stock price has made a new high and retraced, and once again made a new high, because this often leads to the end of the trend. Divergence how to use: 1. After the previous K line was completely closed, a bottom divergence was found. 2. Open an long order at the beginning of the second bar, or as close to the bottom as possible (because the stop loss will be smaller). 3. Break the stop loss price below the previous low where the divergence occurred, which already means that the divergence is wrong.
Pine Script®指標
由rsu9111提供
5
Chips Average Line (volume price) by RSUThis is a very important volume-price indicator for me. Displays the average cost of chips for the short term (30 days), medium term (60 days), and long term (200 days). Chip lines act as support and resistance. The longer the trend days, the greater the strength. usage: 1. Breakout: If the stock rises, it must be above the short-term chip line. And gradually rise. 2. Sequence: When a bullish trend is formed, the short-term stack is higher than the mid-term stack, and the mid-flag stack is higher than the long-term stack. When there is a bear trend, the order is reversed. 3. Intensive: When the three chip lines are dense, there will be a periodical resonance effect, and the long-term trend will rise or fall sharply
Pine Script®指標
由rsu9111提供
14
VIX Volatility Trend Analysis With Signals - Stocks OnlyVIX VOLATILITY TREND ANALYSIS CLOUD WITH BULLISH & BEARISH SIGNALS - STOCKS ONLY This indicator is a visual aid that shows you the bullish or bearish trend of VIX market volatility so you can see the VIX trend without switching charts. When volatility goes up, most stocks go down and vice versa. When the cloud turns green, it is a bullish sign. When the cloud turns red, it is a bearish sign. This indicator is meant for stocks with a lot of price action and volatility, so for best results, use it on charts that move similar to the S&P 500 or other similar charts. This indicator uses real time data from the stock market overall, so it should only be used on stocks and will only give a few signals during after hours. It does work ok for crypto, but will not give signals when the US stock market is closed. **HOW TO USE** When the VIX Volatility Index trend changes direction, it will give a green or red line on the chart depending on which way the VIX is now trending. The cloud will also change color depending on which way the VIX is trending. Use this to determine overall market volatility and place trades in the direction that the indicator is showing. Do not use this by itself as sometimes markets won’t react perfectly to the overall market volatility. It should only be used as a secondary confirmation in your trading/trend analysis. For more signals with earlier entries, go into settings and reduce the number. 10-100 is best for scalping. For less signals with later entries, change the number to a higher value. Use 100-500 for swing trades. Can go higher for long swing trades. Our favorite settings are 20, 60, 100, 500 and 1000. ***MARKETS*** This indicator should only be used on the US stock markets as signals are given based on the VIX volatility index which measures volatility of the US Stock Markets. ***TIMEFRAMES*** This indicator works on all time frames, but after hours will not change much at all due to the markets being closed. **INVERSE CHARTS** If you are using this on an inverse ETF and the signals are showing backwards, please comment with what chart it is and I will configure the indicator to give the correct signals. I have included over 50 inverse ETFs into the code to show the correct signals on inverse charts, but I'm sure there are some that I have missed so feel free to let me know and I will update the script with the requested tickers. ***TIPS*** Try using numerous indicators of ours on your chart so you can instantly see the bullish or bearish trend of multiple indicators in real time without having to analyze the data. Some of our favorites are our Auto Fibonacci, Directional Movement Index, Volume Profile with buy & sell pressure, Auto Support And Resistance, Vix Scalper and Money Flow Index in combination with this Vix Trend Analysis. They all have real time Bullish and Bearish labels as well so you can immediately understand each indicator's trend.
Pine Script®指標
由FriendOfTheTrend提供
3
Realtime FootprintThe purpose of this script is to gain a better understanding of the order flow by the footprint. To that end, i have added unusual features in addition to the standard features. I use "Real Time 5D Profile by LucF" main engine to create basic footprint(profile type) and added some popular features and my favorites. This script can only be used in realtime, because tradingview doesn't provide historical Bid/Ask date. Bid/Ask date used this script are up/down ticks. This script can only be used by time based chart (1m, 5m , 60m and daily etc) This script use many labels and these are limited max 500, so you can't display many bars. If you want to display foot print bars longer, turn off the unused sub-display function. Default setting is footprint is 25 labels, IB count is 1, COT high and Ratio high is 1, COT low and Ratio low is 1 and Delta Box Ratio Volume is 1 , total 29. plus UA , IB stripes , ladder fading mark use several labels. ///////// General Setting /////////// Resets on Volume / Range bar : If you want to use simple time based Resets on, please set Total Volume is 0. Your timeframe is always the first condition. So if you set Total Volume is 1000, both conditions(Volume >= 1000 and your timeframe start next bar) must be met. (that is, new footprint bar doesn't start at when total volume = exactly 1000). Ticks per row and Maximum row of Bar : 1 is minimum size(tick). "Maximum row of Bar" decide the number of rows used in one footprint. 1 row is created from 1 label, so you need to reduce this number to display many footprints (Max label is 500). Volume Filter and For Calculation and Display : "Volume Filter" decide minimum size of using volume for this script. "For Calculation and Display" is used to convert volume to an integer. This script only use integer to make profile look better (I contained Bid number and Ask number in one row( one label) to saving labels. This require to make no difference in width by the number of digits and this script corresponds integers from 0 to 3 digits). ex) Symbol average volume size is from 0.0001 to 0.001. You decide only use Volume >= 0.0005 by "Volume Filter". Next, you convert volume to integer, by setting "For Calculation and Display" is 1000 (0.0005 * 1000 = 5). If 0.00052 → 5.2 → 5, 0.00058 → 5.8 → 6 (Decimal numbers are rounded off) This integer is used to all calculation in this script. //////// Main Display /////// Footprint, Total, Row Delta, Diagonal Delta and Profile : "Footprint" display Ask and Bid per row. "Total" display Ask + Bid per row. "Row Delta" display Ask - Bid per row. "Diagonal Delta" display Ask(row N) - Bid(row N -1) per row. Profile display Total Volume(Ask + Bid) per row by using Block. Profile Block coloring are decided by Row Delta value(default: positive Row Delta (Ask > Bid) is greenish colors and negative Row Delta (Ask < Bid) is reddish colors.) Volume per Profile Block, Row Imbalance Ratio and Delta Bull/Bear/Neutral Colors : "Volume per Profile Block" decide one block contain how many total volume. ex) When you set 20, Total volume 70 display 3 block. The maximum number of blocks that can be used per low is 20. So if you set 20, Total volume 400 is 20 blocks. total volume 800 is 20 blocks too. "Row Imbalance Ratio" decide block coloring. The row imbalance is that the difference between Ask and Bid (row delta) is large. default is x3, x2 and x1. The larger the difference, the brighter the color. ex) Ask 30 Bid 10 is light green. Ask 20 Bid 10 is green. Ask 11 Bid 10 is dark green. Ask 0 Bid 1 is light red. Ask 1 Bid 2 is red. ask 30 Bid 59 is dark green. Ask 10 Bid 10 is neutral color(gray) profile coloring is reflected same row's other elements(Ask, Bid, Total and Delta) too. It's because one label can only use one text color. /////// Sub Display /////// Delta, total and Commitment of Traders : "Delta" is total Ask - total Bid in one footprint bar. Total is total Ask + total Bid in one footprint bar. "Commitment of traders" is variation of "Delta". COT High is reset to 0 when current highest is touched. COT Low is opposite. Basic concept of Delta is to compare price with Delta. Ordinary, when price move up, delta is positive. Price move down is negative delta. This is because market orders move price and market orders are counted by Delta (although this description is not exactly correct). But, sometimes prices do not move even though many market orders are putting pressure on price , or conversely, price move strongly without many market orders. This is key point. Big player absorb market orders by iceberg order(Subdivide large orders and pretend to be small limit orders. Small limit orders look weak in the order book, but they are added each time you fill, so they are more powerful than they look.), so price don't move. On the other hand, when the price is moving easily, smart players may be aiming to attract and counterattack to a better price for them. It's more of a sport than science, and there's always no right response. Pay attention to the relationship between price, volume and delta. ex) If COT Low is large negative value, it means many sell market orders is coming, but iceberg order is absorbing their attack at limit order. you should not do buy entry, only this clue. but this is one of the hints. "Delta, Box Ratio and Total texts is contained same label and its color are "Delta" coloring. Positive Delta is Delta Bull color(green),Negative Delta is Delta Bear Color and Delta = 0 is Neutral Color(gray). When Delta direction and price direction are opposite is Delta Divergence Color(yellow). I didn't add the cumulative volume delta because I prefer to display the CVD line on the price chart rather than the number. Box Ratio , Box Ratio Divisor and Heavy Box Ratio Ratio : This is not ordinary footprint features, but I like this concept so I added. Box Ratio by Richard W. Arms is simple but useful tool. calculation is "total volume (one bar) divided by Bar range (highest - lowest)." When Bull and bear are fighting fiercely this number become large, and then important price move happen. I made average BR from something like 5 SMA and if current BR exceeds average BR x (Heavy Box Ratio Ratio), BR box mark will be filled. Box Ratio Divisor is used to good looking display(BR multiplied by Box Ratio Divisor is rounded off and displayed as an integer) Diagonal Imbalance Count , D IB Mark and D IB Stripes : Diagonal Imbalance is defined by "Diagonal Imbalance Ratio". ex) You set 2. When Ask(row N) 30 Bid(row N -1)10, it's 30 > 10*2, so positive Diagonal Imbalance. When Ask(row N) 4 Bid(row N -1)9, it's 4*2 < 9, so negative Diagonal Imbalance. This calculation does not use equals to avoid Ask(row N) 0 Bid(row N -1)0 became Diagonal Imbalance. Ask(row N) 0 Bid(row N -1)0, it's 0 = 0*2, not Diagonal Imbalance. Ask(row N) 10 Bid(row N -1)5, it's 10 = 5*2, not Diagonal Imbalance. "D IB Mark" emphasize Ask or Bid number which is dominant side(Winner of Diagonal Imbalance calculation), by under line. "Diagonal Imbalance Count" compare Ask side D IB Mark to Bid side D IB Mark in one footprint. Coloring depend on which is more aggressive side (it has many IB Mark) and When Aggressive direction and price direction are opposite is Delta Divergence Color(yellow). "D IB Stripes" is a function that further emphasizes with an arrow Mark, when a DIB mark is added on the same side for three consecutive row. Three consecutive arrow is added at third row. Unfinished Auction, Ratio Bounds and Ladder fading Mark : "Unfinished Auction" emphasize highest or lowest row which has both Ask and Bid, by Delta Divergence Color(yellow) XXXXXX mark. Unfinished Auction sometimes has magnet effect, price may touch and breakout at UA side in the future. This concept is famous as profit taking target than entry decision. But, I'm interested in the case that Big player make fake breakout at UA side and trapped retail traders, and then do reversal with retail traders stop-loss hunt. Anyway, it's not stand alone signal. "Ratio Bounds" gauge decrease of pressure at extreme price. Ratio Bounds High is number which second highest ask is divided by highest ask. Ratio Bounds Low is number which second lowest bid is divided by lowest bid. The larger the number, the less momentum the price has. ex)first footprint bar has Ratio Bounds Low 2, second footprint bar has RBL 4, third footprint bar has RBL 20. This indicates that the bear's power is gradually diminishing. "Ladder fading mark" emphasizes the decrease of the value in 3 consecutive row at extreme price. I added two type Marks. Ask/Bid type(triangle Mark) is Ask/Bid values are decreasing of three consecutive row at extreme price. Row Imbalance type(Diamond Mark) are row Imbalance values are decreasing of three consecutive row at extreme price. ex)Third lowest Bid 40, second lowest Bid 10 and lowest Bid 5 have triangle up Mark. That is bear's power is gradually diminishing. (This Mark only check Bid value at lowest price and Ask value at highest price). Third highest row delta + 60, second highest row delta + 5, highest delta - 20 have diamond Mark. That is Bull's power is gradually diminishing. Sub display use Delta colors at bottom of Sub display section. ////// Candle & POC ///////// candle and POC : Ordinary, "POC" Point of Control is row of largest total volume, but this script'POC is volume weighted average. This is because the regular POC was visually displayed by the profile ,and I was influenced LucF's ideas. POC coloring is decided in relation to the previous POC. When current POC is higher than previous POC, color is UP Bar Color(green). In the opposite case, Down Bar color is used. POC Divergence Color is used when Current POC is up but current bar close is lower than open (Down price Bar),or in the opposite case. POC coloring has option also highlight background by Delta Divergence Color(yellow). but bg color is displayed at your time frame current price bar not current footprint bar. The basic explanation is over. I add some image to promote understanding basic ideas.
Pine Script®指標
由akutsusho提供
65
StapleIndicatorsLibrary "StapleIndicators" This Library provides some common indicators commonly referenced from other studies in Pine Script squeeze(bbSrc, bbPeriod, bbDev, kcSrc, kcPeriod, kcATR, signalPeriod) Volatility Squeeze   Parameters:      bbSrc : (Optional) Bollinger Bands Source. By default close      bbPeriod : (Optional) Bollinger Bands Period. By default 20      bbDev : (Optional) Bollinger Bands Standard Deviation. By default 2.0      kcSrc : (Optional) Keltner Channel Source. By default close      kcPeriod : (Optional) Keltner Channel Period. By default 20      kcATR : (Optional) Keltner Channel ATR Multiplier. By default 1.5      signalPeriod : (Optional) Keltner Channel ATR Multiplier. By default 1.5   Returns: adx(diPeriod, adxPeriod, signalPeriod, adxTier1, adxTier2, adxTier3) ADX: Average Directional Index   Parameters:      diPeriod : (Optional) Directional Indicator Period. By default 14      adxPeriod : (Optional) ADX Smoothing. By default 14      signalPeriod : (Optional) Signal Period. By default 13      adxTier1 : (Optional) ADX Tier #1 Level. By default 20      adxTier2 : (Optional) ADX Tier #2 Level. By default 15      adxTier3 : (Optional) ADX Tier #3 Level. By default 10   Returns: smaPreset(srcMa) Delivers a set of frequently used Simple Moving Averages   Parameters:      srcMa : (Optional) MA Source. By default 'close'   Returns: emaPreset(srcMa) Delivers a set of frequently used Exponential Moving Averages   Parameters:      srcMa : (Optional) MA Source. By default 'close'   Returns: maSelect(ma, srcMa) Filters and outputs the selected MA   Parameters:      ma : (Optional) MA text. By default 'Ema-21'      srcMa : (Optional) MA Source. By default 'close'   Returns: maSelected periodAdapt(modeAdaptative, src, maxLen, minLen) Adaptative Period   Parameters:      modeAdaptative : (Optional) Adaptative Mode. By default 'Average'      src : (Optional) Source. By default 'close'      maxLen : (Optional) Max Period. By default '60'      minLen : (Optional) Min Period. By default '4'   Returns: periodAdaptative azlema(modeAdaptative, srcMa) Azlema: Adaptative Zero-Lag Ema   Parameters:      modeAdaptative : (Optional) Adaptative Mode. By default 'Average'      srcMa : (Optional) MA Source. By default 'close'   Returns: azlema ssma(lsmaVar, srcMa, periodMa) SSMA: Smooth Simple MA   Parameters:      lsmaVar : Linear Regression Curve.      srcMa : (Optional) MA Source. By default 'close'      periodMa : (Optional) MA Period. By default '13'   Returns: ssma jvf(srcMa, periodMa) Jurik Volatility Factor   Parameters:      srcMa : (Optional) MA Source. By default 'close'      periodMa : (Optional) MA Period. By default '7'   Returns: jBands(srcMa, periodMa) Jurik Bands   Parameters:      srcMa : (Optional) MA Source. By default 'close'      periodMa : (Optional) MA Period. By default '7'   Returns: jma(srcMa, periodMa, phase) Jurik MA (JMA)   Parameters:      srcMa : (Optional) MA Source. By default 'close'      periodMa : (Optional) MA Period. By default '7'      phase : (Optional) Phase. By default '50'   Returns: jma maCustom(ma, srcMa, periodMa, lrOffset, almaOffset, almaSigma, jmaPhase, azlemaMode) Creates a custom Moving Average   Parameters:      ma : (Optional) MA text. By default 'Ema'      srcMa : (Optional) MA Source. By default 'close'      periodMa : (Optional) MA Period. By default '13'      lrOffset : (Optional) Linear Regression Offset. By default '0'      almaOffset : (Optional) Alma Offset. By default '0.85'      almaSigma : (Optional) Alma Sigma. By default '6'      jmaPhase : (Optional) JMA Phase. By default '50'      azlemaMode : (Optional) Azlema Adaptative Mode. By default 'Average'   Returns: maTF
Pine Script®腳本庫
由gliderfund提供
2
MZ Adaptive Ichimoku Cloud (Volume, Volatility, Chikou Filter) This study is a functional enhancement to conventionally used Ichimoku Clouds . It uses particular effective adaptive parameters (Relative Volume Strength Index (MZ RVSI ), Volatility and Chikou Backward Trend Filter) to adapt dynamic lengths for Kijun-sen, Tenkan-sen, Senkou-span and Chikou . This study uses complete available Ichimoku Clouds trading methodology to provide trade confirmations. Its still in experimental phase so will be updated accordingly. ADAPTIVE LENGTH PARAMETERS Relative Volume Strength Index (MZ RVSI ) For adaptive length, I tried using Volume and for this purpose I used my Relative Volume Strength Index " RVSI " indicator. RVSI is the best way to detect if Volume is going for a breakout or not and based on that indication length changes. RVSI breaking above provided value would indicate Volume breakout and hence dynamic length would accordingly make Ichimoku Clouds more over-fitted to better act as support and resistance . Similar case would happen if Volume goes down and dynamic length becomes more under-fit. Original RVSI Library and study can be found here: Volatility Average true range is used as volatility measurement and detection tool. Dual ATR condition would decide over-fitting or under-fitting of curve. Chikou Backward Trend Filter Chikou is basically close value of ticker offset to close and it is a good for indicating if close value has crossed potential Support/Resistance zone from past. Chikou is usually used with 26 period. Chikou filter uses a lookback length calculated from provided lookback percentage and checks if trend was bullish or bearish within that lookback period. Original Chikou Filter library and study can be found here: ADAPTIVE ICHIMOKU CLOUD Tenkan-Sen (Conversion Line) Tenkan-sen is a moving average that is calculated by taking the average of the high and the low for the last nine periods conventionally but in this study its length is dynamically adapted based on Volume, Volatility and Chikou filter. Default adaption range is set to 9-30 which I found universally applicable to almost every market on all time-frames. Kijun-Sen (Base Line) The Kijun-Sen is usually considered a support/resistance line which also acts as an indicator of price movements in the future and takes a longer period into consideration, usually 26 periods compared to Tenkan-Sen’s nine periods is used conventionally. In this study, its length is set to vary in range of 20-60 based on adaptive parameters. Senkou-Span (Leading Span) Senkou-Span A : Senkou Span A is the average of the highs and lows of Tenkan-Sen and Kijun-Sen so it automatically adapts accroding to dynamic lengths of Tenkan and Kijun. Senkou-Span B : Senkou Span B is usually calculated by averaging highs and lows of the past 52 periods and plotting it 26 points to the right but this study uses adaptive parameters to adapt its dynamic length in range of 50-120 which makes Kumo (Ichimoku Cloud) a better area for support and resistance. I don’t consider its necessary to adapt Kumo’s displacement to the right, so I used conventional 26 period as offset. Chikou -Span (Lagging Span) The Chikou Span, also known as the lagging span is formed by taking the price source and offsetting it back 26 periods to the left but I used adaptive length in range 26-50 which makes this tool a better option to check for Chikou -Price cross check in wide range. TRADE SIGNALS & CONFIRMATIONS Volume : RVSI used to detect volume breakout about given point. By default, On Balance Volume based RVSI is selected for all dynamic length adaption and also for trade confirmations. Cross(Tenkan,Kijun) : Easiest way to detect trend as if Tenkan is above Kijun then market is uptrend and vice versa. Volatility : High volatility is a good way to confirm if price is on the move or not. Tenkan = Kijun : Because of a wide range of Tenkan and Kijun length; their value can become equal before reversal. Chikou > Source : A very conventional way to detect price momentum as if Chikou is above price then market is in uptrend and vice versa. Chikou Momentum : Another simpler way to represent Chikou > Source as if momentum of price source is uptrend then price will tend to follow. Source > Kumo : Using the best tool of Ichimoku Clouds i.e. Kumo. If price crosses both Senkou-Span A & B then market has broken potential resistance leading to a good uptrend and vice versa. Source > Tenkan : Better way to detect price trend in short term. Chikou Backward Trend Filter : Different from Chikou >Source in a way that Chikou filter makes sure that price crosses highest/lowest within defined period. CHARTING Bars Coloring : Bars coloring is set as following : src > tenkan-Sen and src > kijun-Sen : Strong uptrend detection and shown by green bars. src < tenkan-Sen and src < kijun-Sen : Strong downtrend detection and shown by green bars. src > tenkan-Sen and src < kijun-Sen : Better way to detect bottom reversals as if price comes above tenkan but remains below kijun; that’s early signs of recovery. Light red bars are used for this by default. src < tenkan-Sen and src > kijun-Sen : Better way to detect top reversals as if price comes below tenkan but remains above kijun; that’s early signs of losing potential in uptrend. Dark Grey bars are used for this by default. Kumo Coloring : Following steps are used to derive Kumo’s dynamic color: Average of Senkou-span A and B is calculated. RSI with 14 period of that average is calculated. Gradient color based on calculated RSI values with 0-100 range is derived which is final Kumo color. Chikou Span Coloring : Dynamic coloring from Chikou Filter is used as Indicator’s Chikou ’s color. Signals Overlay : Red and Green small triangles are used as signals overlay.
Pine Script®指標
由MightyZinger提供
9
Ichimoku VariationsThe Ichimoku cloud is traditionally constructed from the highest high and lowest low for a number of periods. This script allows for it to be transformed and calculated like more traditional moving averages (e.g. simple moving average, exponential moving average). Since the Ichimoku is normally a system of moving average-like lines, maybe someone out there will learn something from being able to switch to sma, ema, etc etc. In general, I think no TA indicator is a magic bullet, and you should just use what you like! Credit: This script utilizes the "Color Gradient Framework" tutorial by LucF (PineCoders) to create gradient visuals, which are also customizable for the user. Recommended modes: default SMA EMA SMMA WMA VWMA Tillson T3 Not Recommended (These moving averages are too fast, and probably will require adjusting settings to something like the 20-60-120-30 to make more sense): HMA EHMA TEMA ALMA LSMA
Pine Script®指標
由animecummer提供
ReversalCandlestickPatternWithTrendIndentifierGMLibrary "ReversalCandlestickPatternWithTrendIndentifierGM" Provides functions calculating the all-time high/low of values. reversalCandlestickPatternWithTrendIndentifier(bullishcriteria, bearishcriteria, momentumOscillatorTypeInput) Calculates the Reversal Candlestick Pattern With Trend Indentifier.   Parameters:      bullishcriteria : Stoch RSI/RSI Bullish Criteria. defval=70, minval=60, maxval=100      bearishcriteria : Stoch RSI/RSI Bearish Criteria. defval=30, minval=0, maxval=40      momentumOscillatorTypeInput : Momentum Oscillator Type. options=   Returns: Reversal Candlestick Pattern With Trend Indentifier.
Pine Script®腳本庫
由gonzalomelov提供
R3 ETF StrategyThis strategy is a modification of the “R3 Strategy” from the book "High Probability ETF Trading" by Larry Connors and Cesar Alvarez. This RSI strategy is for a 1-day time-frame and has these 3 simple rules: Criteria: The price must be above the 200 day moving average. The 2-period (day) RSI drops 3 days in a row. The 2-period RSI must have been below 60 3 days ago and below 10 today. Entry and Exit: If the 3 rules above are true, then buy on the close of the current day. Exit on the day's close when the RSI crosses above 70. How it works : The Strategy will buy when the buy conditions above are true. The strategy will sell when the RSI crosses above 70. The RSI period/length, and RSI entry/exit criteria thresholds have all been coded to be adjustable with inputs. Plots : Blue line = 200 Day EMA (Used as Entry Criteria) Disclaimer: Open-source scripts I publish in the community are largely meant to spark ideas that can be used as building blocks for part of a more robust trade management strategy. If you would like to implement a version of any script, I would recommend making significant additions/modifications to the strategy & risk management functions. If you don’t know how to program in Pine, then hire a Pine-coder. We can help!
Pine Script®策略
由TradeAutomation提供
2
WAP Maverick - (Dual EMA Smoothed VWAP) - [mutantdog]Short Version: This here is my take on the popular VWAP indicator with several novel features including: Dual EMA smoothing. Arithmetic and Harmonic Mean plots. Custom Anchor feat. Intraday Session Sizes. 2 Pairs of Bands. Side Input for Connection to other Indicator. This can be used 'out of the box' as a replacement VWAP, benefitting from smoother transitions and easy-to-use custom alerts. By design however, this is intended to be a highly customisable alternative with many adjustable parameters and a pseudo-modular input system to connect with another indicator. Well suited for the tweakers around here and those who like to get a little more creative. I made this primarily for crypto although it should work for other markets. Default settings are best suited to 15m timeframe - the anchor of 1 week is ideal for crypto which often follows a cyclical nature from Monday through Sunday. In 15m, the default ema length of 21 means that the wap comes to match a standard vwap towards the end of Monday. If using higher chart timeframes, i recommend decreasing the ema length to closely match this principle (suggested: for 1h chart, try length = 8; for 4h chart, length = 2 or 3 should suffice). Note: the use of harmonic mean calculations will cause problems on any data source incorporating both positive and negative values, it may also return unusable results on extremely low-value charts (eg: low-sat coins in /btc pairs). Long version: The development of this project was one driven more by experimentation than a specific end-goal, however i have tried to fine-tune everything into a coherent usable end-product. With that in mind then, this walkthrough will follow something of a development chronology as i dissect the various functions. DUAL-EMA SMOOTHING At its core this is based upon / adapted from the standard vwap indicator provided by TradingView although I have modified and changed most of it. The first mod is the dual ema smoothing. Rather than simply applying an ema to the output of the standard vwap function, instead i have incorporated the ema in a manner analogous to the way smas are used within a standard vwma. Sticking for now with the arithmetic mean, the basic vwap calculation is simply sum(source * volume) / sum(volume) across the anchored period. In this case i have simply applied an ema to each of the numerator and denominator values resulting in ema(sum(source * volume)) / ema(sum(volume)) with the ema length independent of the anchor. This results in smoother (albeit slower) transitions than the aforementioned post-vwap method. Furthermore in the case when anchor period is equal to current timeframe, the result is a basic volume-weighted ema. The example below shows a standard vwap (1week anchor) in blue, a 21-ema applied to the vwap in purple and a dual-21-ema smoothed wap in gold. Notably both ema types come to effectively resemble the standard vwap after around 24 hours into the new anchor session but how they behave in the meantime is very different. The dual-ema transitions quite gradually while the post-vwap ema immediately sets about trying to catch up. Incidentally. a similar and slower variation of the dual-ema can be achieved with dual-rma although i have not included it in this indicator, attempted analogues using sma or wma were far less useful however. STANDARD DEVIATION AND BANDS With this updated calculation, a corresponding update to the standard deviation is also required. The vwap has its own anchored volume-weighted st.dev but this cannot be used in combination with the ema smoothing so instead it has been recalculated appropriately. There are two pairs of bands with separate multipliers (stepped to 0.1x) and in both cases high and low bands can be activated or deactivated individually. An example usage for this would be to create different upper and lower bands for profit and stoploss targets. Alerts can be set easily for different crossing conditions, more on this later. Alongside the bands, i have also added the option to shift ('Deviate') the entire indicator up or down according to a multiple of the corrected st.dev value. This has many potential uses, for example if we want to bias our analysis in one direction it may be useful to move the wap in the opposite. Or if the asset is trading within a narrow range and we are waiting on a breakout, we could shift to the desired level and set alerts accordingly. The 'Deviate' parameter applies to the entire indicator including the bands which will remain centred on the main WAP. CUSTOM (W)ANCHOR Ever thought about using a vwap with anchor periods smaller than a day? Here you can do just that. I've removed the Earnings/Dividends/Splits options from the basic vwap and added an 'Intraday' option instead. When selected, a custom anchor length can be created as a multiple of minutes (default steps of 60 mins but can input any value from 0 - 1440). While this may not seem at first like a useful feature for anyone except hi-speed scalpers, this actually offers more interesting potential than it appears. When set to 0 minutes the current timeframe is always used, turning this into the basic volume-weighted ema mentioned earlier. When using other low time frames the anchor can act as a pre-ema filter creating a stepped effect akin to an adaptive MA. Used in combination with the bands, the result is a kind of volume-weighted adaptive exponential bollinger band; if such a thing does not already exist then this is where you create it. Alternatively, by combining two instances you may find potential interesting crosses between an intraday wap and a standard timeframe wap. Below is an example set to intraday with 480 mins, 2x st.dev bands and ema length 21. Included for comparison in purple is a standard 21 ema. I'm sure there are many potential uses to be found here, so be creative and please share anything you come up with in the comments. ARITHMETIC AND HARMONIC MEAN CALCULATIONS The standard vwap uses the arithmetic mean in its calculation. Indeed, most mean calculations tend to be arithmetic: sma being the most widely used example. When volume weighting is involved though this can lead to a slight bias in favour of upward moves over downward. While the effect of this is minor, over longer anchor periods it can become increasingly significant. The harmonic mean, on the other hand, has the opposite effect which results in a value that is always lower than the arithmetic mean. By viewing both arithmetic and harmonic waps together, the extent to which they diverge from each other can be used as a visual reference of how much price has changed during the anchored period. Furthermore, the harmonic mean may actually be the more appropriate one to use during downtrends or bearish periods, in principle at least. Consider that a short trade is functionally the same as a long trade on the inverse of the pair (eg: selling BTC/USD is the same as buying USD/BTC). With the harmonic mean being an inverse of the arithmetic then, it makes sense to use it instead. To illustrate this below is a snapshot of LUNA/USDT on the left with its inverse 1/(LUNA/USDT) = USDT/LUNA on the right. On both charts is a wap with identical settings, note the resistance on the left and its corresponding support on the right. It should be easy from this to see that the lower harmonic wap on the left corresponds to the upper arithmetic wap on the right. Thus, it would appear that the harmonic mean should be used in a downtrend. In principle, at least... In reality though, it is not quite so black and white. Rarely are these values exact in their predictions and the sort of range one should allow for inaccuracies will likely be greater than the difference between these two means. Furthermore, the ema smoothing has already introduced some lag and thus additional inaccuracies. Nevertheless, the symmetry warrants its inclusion. SIDE INPUT & ALERTS Finally we move on to the pseudo-modular component here. While TradingView allows some interoperability between indicators, it is limited to just one connection. Any attempt to use multiple source inputs will remove this functionality completely. The workaround here is to instead use custom 'string' input menus for additional sources, preserving this function in the sole 'source' input. In this case, since the wap itself is dependant only price and volume, i have repurposed the full 'source' into the second 'side' input. This allows for a separate indicator to interact with this one that can be used for triggering alerts. You could even use another instance of this one (there is a hidden wap:mid plot intended for this use which is the midpoint between both means). Note that deleting a connected indicator may result in the deletion of those connected to it. Preset alertconditions are available for crossings of the side input above and below the main wap, alongside several customisable alerts with corresponding visual markers based upon selectable conditions. Alerts for band crossings apply only to those that are active and only crossings of the type specified within the 'crosses' subsection of the indicator settings. The included options make it easy to create buy alerts specific to certain bands with sell alerts specific to other bands. The chart below shows two instances with differing anchor periods, both are connected with buy and sell alerts enabled for visible bands. Okay... So that just about covers it here, i think. As mentioned earlier this is the product of various experiments while i have been learning my way around PineScript. Some of those experiments have been branched off from this in order to not over-clutter it with functions. The pseudo-modular design and the 'side' input are the result of an attempt to create a connective framework across various projects. Even on its own though, this should offer plenty of tweaking potential for anyone who likes to venture away from the usual standards, all the while still retaining its core purpose as a traders tool. Thanks for checking this out. I look forward to any feedback below.
Pine Script®指標
由mutantdog提供
12
[Multi-layers][VDT]New multi-indicator to merge together three of the most popular indicators used by traders in technical analysis: 1) Ichimoku Cloud, with parameters editable by the trader. Default parameters are: 9-26-52-26 2) 3X Simple Moving Average (SMA), with periods editable by the trader. Default periods are: 20-50-200 3) 3X Exponential Moving Average (EMA), with periods editable by the trader. Default periods are: 7-60-200 Traders can decide whether to print or to hide each indicators separately in the graph, creating three different overlays.
Pine Script®指標
由FCCMTT92提供
pandas_taLibrary "pandas_ta" Level: 3 Background Today is the first day of 2022 and happy new year every tradingviewers! May health and wealth go along with you all the time. I use this chance to publish my 1st PINE v5 lib : pandas_ta This is not a piece of cake like thing, which cost me a lot of time and efforts to build this lib. Beyond 300 versions of this script was iterated in draft. Function Library "pandas_ta" PINE v5 Counterpart of Pandas TA - A Technical Analysis Library in Python 3 at github.com The Original Pandas Technical Analysis (Pandas TA) is an easy to use library that leverages the Pandas package with more than 130 Indicators and Utility functions and more than 60 TA Lib Candlestick Patterns. I realized most of indicators except Candlestick Patterns because tradingview built-in Candlestick Patterns are even more powerful! I use this to verify pandas_ta python version indicators for myself, but I realize that maybe many may need similar lib for pine v5 as well. Function Brief Descriptions (Pls find details in script comments) bton --> Binary to number wcp --> Weighted Closing Price (WCP) counter --> Condition counter xbt --> Between ebsw --> Even Better SineWave (EBSW) ao --> Awesome Oscillator (AO) apo --> Absolute Price Oscillator (APO) xrf --> Dynamic shifted values bias --> Bias (BIAS) bop --> Balance of Power (BOP) brar --> BRAR (BRAR) cci --> Commodity Channel Index (CCI) cfo --> Chande Forcast Oscillator (CFO) cg --> Center of Gravity (CG) cmo --> Chande Momentum Oscillator (CMO) coppock --> Coppock Curve (COPC) cti --> Correlation Trend Indicator (CTI) dmi --> Directional Movement Index(DMI) er --> Efficiency Ratio (ER) eri --> Elder Ray Index (ERI) fisher --> Fisher Transform (FISHT) inertia --> Inertia (INERTIA) kdj --> KDJ (KDJ) kst --> 'Know Sure Thing' (KST) macd --> Moving Average Convergence Divergence (MACD) mom --> Momentum (MOM) pgo --> Pretty Good Oscillator (PGO) ppo --> Percentage Price Oscillator (PPO) psl --> Psychological Line (PSL) pvo --> Percentage Volume Oscillator (PVO) qqe --> Quantitative Qualitative Estimation (QQE) roc --> Rate of Change (ROC) rsi --> Relative Strength Index (RSI) rsx --> Relative Strength Xtra (rsx) rvgi --> Relative Vigor Index (RVGI) slope --> Slope smi --> SMI Ergodic Indicator (SMI) sqz* --> Squeeze (SQZ) * NOTE: code sufferred from very strange error, code was commented. sqz_pro --> Squeeze PRO(SQZPRO) xfl --> Condition filter stc --> Schaff Trend Cycle (STC) stoch --> Stochastic (STOCH) stochrsi --> Stochastic RSI (STOCH RSI) trix --> Trix (TRIX) tsi --> True Strength Index (TSI) uo --> Ultimate Oscillator (UO) willr --> William's Percent R (WILLR) alma --> Arnaud Legoux Moving Average (ALMA) xll --> Dynamic rolling lowest values dema --> Double Exponential Moving Average (DEMA) ema --> Exponential Moving Average (EMA) fwma --> Fibonacci's Weighted Moving Average (FWMA) hilo --> Gann HiLo Activator(HiLo) hma --> Hull Moving Average (HMA) hwma --> HWMA (Holt-Winter Moving Average) ichimoku --> Ichimoku Kinkō Hyō (ichimoku) jma --> Jurik Moving Average Average (JMA) kama --> Kaufman's Adaptive Moving Average (KAMA) linreg --> Linear Regression Moving Average (linreg) mgcd --> McGinley Dynamic Indicator rma --> wildeR's Moving Average (RMA) sinwma --> Sine Weighted Moving Average (SWMA) ssf --> Ehler's Super Smoother Filter (SSF) © 2013 supertrend --> Supertrend (supertrend) xsa --> X simple moving average swma --> Symmetric Weighted Moving Average (SWMA) t3 --> Tim Tillson's T3 Moving Average (T3) tema --> Triple Exponential Moving Average (TEMA) trima --> Triangular Moving Average (TRIMA) vidya --> Variable Index Dynamic Average (VIDYA) vwap --> Volume Weighted Average Price (VWAP) vwma --> Volume Weighted Moving Average (VWMA) wma --> Weighted Moving Average (WMA) zlma --> Zero Lag Moving Average (ZLMA) entropy --> Entropy (ENTP) kurtosis --> Rolling Kurtosis skew --> Rolling Skew xev --> Condition all zscore --> Rolling Z Score adx --> Average Directional Movement (ADX) aroon --> Aroon & Aroon Oscillator (AROON) chop --> Choppiness Index (CHOP) xex --> Condition any cksp --> Chande Kroll Stop (CKSP) dpo --> Detrend Price Oscillator (DPO) long_run --> Long Run psar --> Parabolic Stop and Reverse (psar) short_run --> Short Run vhf --> Vertical Horizontal Filter (VHF) vortex --> Vortex accbands --> Acceleration Bands (ACCBANDS) atr --> Average True Range (ATR) bbands --> Bollinger Bands (BBANDS) donchian --> Donchian Channels (DC) kc --> Keltner Channels (KC) massi --> Mass Index (MASSI) natr --> Normalized Average True Range (NATR) pdist --> Price Distance (PDIST) rvi --> Relative Volatility Index (RVI) thermo --> Elders Thermometer (THERMO) ui --> Ulcer Index (UI) ad --> Accumulation/Distribution (AD) cmf --> Chaikin Money Flow (CMF) efi --> Elder's Force Index (EFI) ecm --> Ease of Movement (EOM) kvo --> Klinger Volume Oscillator (KVO) mfi --> Money Flow Index (MFI) nvi --> Negative Volume Index (NVI) obv --> On Balance Volume (OBV) pvi --> Positive Volume Index (PVI) dvdi --> Dual Volume Divergence Index (DVDI) xhh --> Dynamic rolling highest values pvt --> Price-Volume Trend (PVT) Remarks I also incorporated func descriptions and func test script in commented mode, you can test the functino with the embedded test script and modify them as you wish. This is a Level 3 free and open source indicator library. Feedbacks are appreciated. This is not the end of pandas_ta lib publication, but it is start point with pine v5 lib function and I will add more and more funcs into this lib for my own indicators. Function Name List: bton() wcp() count() xbt() ebsw() ao() apo() xrf() bias() bop() brar() cci() cfo() cg() cmo() coppock() cti() dmi() er() eri() fisher() inertia() kdj() kst() macd() mom() pgo() ppo() psl() pvo() qqe() roc() rsi() rsx() rvgi() slope() smi() sqz_pro() xfl() stc() stoch() stochrsi() trix() tsi() uo() willr() alma() wcx() xll() dema() ema() fwma() hilo() hma() hwma() ichimoku() jma() kama() linreg() mgcd() rma() sinwma() ssf() supertrend() xsa() swma() t3() tema() trima() vidya() vwap() vwma() wma() zlma() entropy() kurtosis() skew() xev() zscore() adx() aroon() chop() xex() cksp() dpo() long_run() psar() short_run() vhf() vortex() accbands() atr() bbands() donchian() kc() massi() natr() pdist() rvi() thermo() ui() ad() cmf() efi() ecm() kvo() mfi() nvi() obv() pvi() dvdi() xhh() pvt()
Pine Script®腳本庫
由blackcat1402提供
20
ROC PercentileRate Of Change Percentile calculates the current ROC (user defined length) as a percentile rank. We use 2 separate arrays, one for all positive ROC values and one for all negative values within a defined lookback period. Then the current ROC value is compared to those arrays to find it's percentile ranking. For example, a ranking of 75 means the ROC is in the 75th percentile of all POSITIVE ROC values over the lookback period. A ranking of -80 is in the 80th percentile of all NEGATIVE ROC values over the lookback period. Most ROC scripts use raw ROC values (or smoothed or otherwise altered), or have stochastic formula applied to them, I've not seen one that displays ROC as percentile ranking of previous positive/negative values. What is the advantage? Raw ROC data only gives half the picture. What we want to do is compare the ROC to previous ROC values, to give a sense of scale. Raw ROC values don't give you that context and you can only compare visually, usually limited to the number of bars you can see on your screen. Using a percentile ranking gives us the context of current Rate of Change relative to the previous Rate of Change over a large lookback period, and not just visually but mathematically. Why not using a long stochastic ROC? The problem with stochastics in general is that an outlier data point can ruin the data for the rest of the lookback period. For example, imagine a huge outlier 8% ROC. The 2nd largest ROC is 4% and the 3rd largest is 2%, with all other values below this. In this example, a stochastic ROC would display the 8% outlier as 100, the 4% as 50, the 2% as 25 and all other data would be squeezed down between 0-25. Additionally, a value of 60 may have vastly different meaning depending on whether the lookback period contains a large outlier or not. With a percentile ranking, that 8% outlier would still have a value of 100. But the 4% and 2% would be 99 and 98 respectively (this assumes 100 data points in the series, in reality values will usually be decimals). This effectively flattens the curve and gives a more consistent and dependable experience, allowing you to more accurately assess the relative importance of the current ROC. The line of circles is set at the 50 and -50 values for quick comparison. Values > 50 represent ROC greater than 50% of previous positive ROC values. Values < -50 represent ROC greater than 50% of previous negative ROC values.
Pine Script®指標
由HayeTrading提供
5
Mazuuma Churn IndicatorThis indicator was specifically made to confirm a periode of sideways movement (churn) on Bitcoin. It can probably be used for other cryptocurrencies as well. I use it on the daily timeframe. Yellow means "Unconfirmed". Orange means "Partially Confirmed". Red means "Confirmed" The indicator is not perfect, so use your common sense. Churn starts when at least 2 of the conditions below are met (use also your common sense): 1. ATR < MA 20 on ATR 2. Distance to EMA 200 must be ≤ 16% at “Open churn” 3. EMA 12 on RSI between 40 and 60 4. ADX < 25 The above are weighted. Meaning no 1 has most significance. The numbers can be tweaked. Reversal coming * The indicators above break out, especially the ATR * Color shift of the Heikin Ashi candle on weekly timeframe * Engulfing candle on weekly timeframe Because of the offset of the EMA 200, the precision of the Churn predictor can be off after a VERY big spike up or down, e.g. dec 2017. After such a spike use your common sense. Personally I use this for bot trading, i.e. turn off trend following bots when in sideways market and use grid bots or other means of trading instead.
Pine Script®指標
由klausbach提供
watermarkJust for fun... watermark graphics! The steps are: 1. Choose an image, probably no more than 20x20 pixels 2. Use an image library to convert each pixel into a table cell, as shown in the script. I used they Python "pillow" library for step 2. This library allows you to iterate over each pixel, grab the RGB value, and generate table cells. You can use the width/height attributes of each cell to size the watermark. Be careful, because Pinescript has a maximum character limit around 60,000 or so, and this script will reach that limit quickly. You also run into some limitation on table size, I think. That's why I suggest using no more than a 20x20 image. Pictured in this chart is a legendary trader... message me if you would like to commission your own watermark.
Pine Script®指標
由taylor_o提供