Black Friday高達80%折扣

在腳本中搜尋"富时中国50期指"

WR% VARIATIONThis indicator plot the change of the William R%. We have 3 hlines, 50, 0, -50 You can use this as a confirmation indicator for different entries: ENTRIES When change is higher than 50 we have a strong LONG signal When change is lower than -50 we have a strong SHORT signal CONTINUATION TRADES When we are in a Bull Market, candle is red and change crossover the 0 line, we have a LONG continuation trade When we are in a Bear Market, candle is green and change crossunder the 0 line, we have a SHORT continuation trade EXITS When we are in a Bull Market, candle is green and change crossunder the 0 line, we have an Exit, or a Reversal When we are in a Bear Market, candle is read and change crossover the 0 line, we have an Exit, or a Reversal
Pine Script®指標
由Blackboxdev提供
RISK-OFF.RISK.ON-ppxdf.v3======================================= RISK-OFF & RISK ON INDEX ================================================ 1. Stock Price Momentum: Measuring the Standard & Poor's 500 Index ( S&P 500 ) versus its 125-day moving average (MA) 2. Stock Price Strength: Calculating the number of stocks hitting 52-week highs versus those hitting 52-week lows on the New York Stock Exchange (NYSE) 3. Stock Price Breadth: Analyzing trading volumes in rising stocks against declining stocks 4. Put and Call Options: How much do put options lag behind call options, signifying greed, or surpass them, indicating fear 5. Junk Bond Demand: Gauging appetite for higher risk strategies by measuring the spread between yields on investment-grade bonds and junk bonds 6. Market Volatility: CNN measures the Chicago Board Options Exchange Volatility Index ( VIX ), concentrating on a 50-day MA 7. Safe Haven Demand: The difference in returns for stocks versus treasuries Each of these seven indicators is measured on a scale from 0 to 100, with the index being computed by taking an equal-weighted average of each of them. A reading of 50 is deemed NEUTRAL. Above 50 signals the market with RISK-ON. (GREED) Below 50, Signals the market with RISK-OFF (FEAR) 8
Pine Script®指標
由ppxdff提供
3
Ultimate Moving Average Package (17 MA's)Included is the: VWAP Current time frame 10 EMA Current time frame 20 EMA Current time frame 50 EMA Current time frame 10 SMA Current time frame 20 SMA Current time frame 50 SMA Daily 10 EMA Daily 20 EMA Daily 50 EMA Daily 50 SMA Daily 100 SMA Daily 200 SMA Weekly 100 SMA Weekly 200 SMA Monthly 100 SMA Monthly 200 SMA All Daily/Weekly/Monthly MA's can be seen on intraday charts. Current time frame MA's change depending on your time frame. Obviously you dont need all 17 on your chart but you can pick the ones you like and disable the rest.
Pine Script®指標
由Craig_Stine提供
OVL_Kikoocycle Beta_Pine3This script use : - A custom Chande Kroll Stop for generate the channel - Some custom Parabolic S.A.R for generate cycles This script can be separated into 3 categories: - Channel Kroll generator : one layer for the actual interval and a layer for a Large Timeframe .(with ratio) - "Range" generator : one layer for actual Interval and a layer for a Large Timeframe.(with automique ratio) -Targets generator : one layer for actual interval with different trend. "Channel Kroll" : - I "hijack" the Chande Kroll Stop formula with custom parameters for generate this channel. Overall, it works like other types of channels like BB, etc... A midline and two borders. The thickness of the borders are relatively important here. A thick border shows some resistance of the area. And so the probability of seeing the market return to its first contact is stronger. While a very thin and vertical border would rather play the role of a breach, a bit like the idea of gaps. Often the market seems to want to go after several cycles. You can activate its Large TimeFrame version, its midline is strong and fine borders helps to judge the risk. SARget + "SAR Limited" : - (S.A.R + targets) The philosophy of this function is simple... When a small cycle is broken, it creates a mark on a higher cycle. So on until the SAR called "SAR Limited". For simplicity, imagine a fractal image but inverted ... Break the small figure, it will mark the larger figure at this time but to get there you still have to make the way to the small figure. Targets are : cross ("+") for fast targets(hidden by default because, theire work only on lower interval), squares (for medium trend), Xcross(for large trend) and red cross(they try to find a large contexte). When a target proc, it is for later (market need some cycles for going to, but it is relative to your interval). This gives you speculative goals. Why 2 targets for a same type and a triangle with a 90deg angle : This give a potential area for management.The triangle help to visualize the SAR and to juge the market reaction. You need to adapte your trade with that... Targets may be slightly too far because I am a bad coder... Currently the targets appear at the moment of rupture but it would be necessary to wait for the end of the breaking movement. Which can bring a positional error if the break is violent. RnG and LTF RnG : - Attempt to generate a Fibo range for each cycle and see interressing areas to enter or exit. This is played with the same philosophy as the Fibo extensions and retracement. When a new RnG is generated, do not rush. It appears showing 50/50 for both sides. When a new RnG is generated, do not rush. It appears showing 50/50 for both sides. As long as the market is out of the middle zone (the 3 lines) keep in mind the past RnG. When the market is out of range, you can use the FibRetracement tool for have extensions. One point at each end, as on the presentation graph. (Values 1.14, 1.272, 1.414, 1.618, 1.786, 2, 2.4 and 4 work well.) If too extrem you can active the LTF version. Never fomo a break, market like to pull a level... Observe and be patient. It's easier to use than to explain xD NB : Do not use the LTF as context. For this, it is better to look at a higher interval. I invite you to look in the style tab of the script and deselect the plots named UNCHECKEME, this will ease your browser.
Pine Script®指標
由Twigho提供
2
Amazing Crossover System - 100+ pips per day!I got the main concept for this system on another site. While I have made one important change, I must stress that the heart of this system was created by someone else! We must give credit where credit is due! Y'all know baby pips. @ForexPhantom published about this system and did both back and forward test around 10 years ago. I found it on the sit and now I put it to code to see how it performs. I assume 10 points spread for every trade. I use Renesource or AxiTrader to get the low spreads. There are 2 mods, the single trades and constant trading on the direction. Main concept Indicators 5 EMA -- YELLOW 10 EMA -- RED RSI (10 - Apply to Median Price: HL/2) -- One level at 50. TIME FRAME 1 Hour Only (very important!) PAIRS Virtually any pair seems to work as this is strictly technical analysis. I recommend sticking to the main currencies and avoiding cross currencies (just his preference). WHEN TO ENTER A TRADE Enter LONG when the Yellow EMA crosses the Red EMA from underneath. RSI must be approaching 50 from the BOTTOM and cross 50 to warrant entry. Enter SHORT when the Yellow EMA crosses the Red EMA from the top. RSI must be approaching 50 from the TOP and cross 50 to warrant entry. I've attached a picture which demonstrates all these conditions. That's it! f.bpcdn.co
Pine Script®策略
由DevLucem提供
7
MFIww MFI/RSI_v2[wozdux]A new version of the indicator Mfi_v2. Added new control parameters. tt - the averaging period of the volume. Len - the period for calculating the MPI. nn-averaging period MFI (blue line). level-critical levels from below and above (black horizontal lines). Level 0 or 50 - switch between different histogram views with the middle at either level 50 or level 0. key level-key to remove black critical levels. key ema (MFI, nn) - key to remove mfi averaging (blue line). key color-key to remove histogram coloring. key colomns a-line - key switching modes represent the mfi histrogram or line. --------------------------- Новая версия индикатора MFIww_v2. Добавлены новые управляющие параметры. tt- период усреднения объема. Len - период вычисления MFI. nn- период усреднения MFI (голубая линия). level- критические уровни снизу и сверху (черные горизонтальные линии). Level 0 or 50 - переключение между разными представлениями гистрограммы с серединой либо на уровне 50 , либо на уровне 0. key level- ключ убрать черные критические уровни. key ema(mfi,nn) - ключ убрать усреднение mfi (голубая линия). key color- ключ убрать расцветку гистрограммы. key colomns-line - ключ переключения режимов представления mfi гистрограммой или линией.
Pine Script®指標
由wozdux提供
GoTiT|Simple Auto Fib v1.0Simple Auto Fib! Notes: 1. Always set the trend manually! Don't rely on the auto trend detection. 2. The first parameter Length sets the number of candles back (left) to search for highs and lows from the current candle. 3. The High Offset parameter sets the number of candles back (left) to ignore/skip before searching for highs. 4. The Low Offset parameter sets the number of candles back (left) to ignore/skip before searching for lows. 5. The offset parameters change the behavior of the Length parameter. Example 1: Length = 100 High Offset = 0 Low Offset = 0 This is the default behavior, and the search for highs and lows occurs on the last 100 candles. Example 2: Length = 50 High Offset = 20 (Ignore the last 20 candles, and search for highs starting at candle 21 to 71 (or 50 candles back) Low Offset = 15 (Ignore the last 15 candles, and search for lows starting at candle 16 to 66 (or 50 candles back) In example 2, search starts on candle 21 for highs, and candle 16 for lows and extends 50 candles further back from there. 6. The Trend Detection parameter sets the number of candles back (left) to use in the trend calculations. Larger values give better "marco trend" detection. Smaller values give better "micro trend" detection. See note #1. 7. The white fib line is fib0. Assuming you correctly set the trend manually (or the trend is auto detected correctly), in a downtrend fib0 should be bellow the red fib line, and in an uptrend fib0 should be above the red fib line.
Pine Script®指標
由gotit提供
MACD + Stochastic + RSI (Long + Short)My strategy uses a combination of three indicators MACD Stochastic RSI . The Idea is to GO LONG when ( MACD > Signal and RSI > 50 and Stochastic > 50) occures at the same time and GO SHORT when ( MACD < Signal and RSI < 50 and Stochastic < 50) This strategy works well on futures and stocks especially during market breaking up after consolidation The best results are on Daily charts , so its NOT a scalping strategy. But it can work also on 1H charts. The strategy does not have any stops and profit targets, so we can take all the market can give us at the moment. The exit point only when MACD goes under/over Signal line Its Preformance is quite stable. So, use it, trade it. If it will help you to imprive your trading results, please donate me BTC: 12kd1F8buWisUBdq27BBwRkUvzW7Ey3og5
Pine Script®策略
由x001tk提供
8
Trend Lines and MoreMulti-Indicator consisting of several useful indicators in a single package. TREND LINES -By default the 20 SMA and 50 SMA are shown. -Use "MOVING AVERAGE TYPE" to select SMA, EMA, Double-EMA, Triple-EMA, or Hull. -Use "50 MA TREND COLOR" to have the 50 turn green/red for uptrend/downtrend. -Use "DAILY SOURCE ONLY" to always show daily averages regardless of timeframe. -Use "SHOW LONG MA" to also include 100, 150, and 200 moving averages. -Use "SHOW MARKERS" to show a small colored marker identifying which line is which. OTHER INDICATORS -You can show Bollinger Bands and Parabolic SAR. -You can highlight key reversal times (9:50-10:10 and 14:40-15:00). -You can show price offset markers, where was the price "n" periods ago. That last one is useful to show the level of prices which are about to "fall off" the moving average and be replaced with current price. So for example, if current price is significantly below the 200-days-ago price, you can gauge the difficulty for the 200 MA to start climbing again.
Pine Script®指標
由nj_guy72提供
4
Multi SMA EMA WMA HMA BB (4x3 MAs Bollinger Bands) Pro MTF - RRBMulti SMA EMA WMA HMA 4x3 Moving Averages with Bollinger Bands Pro MTF by RagingRocketBull 2018 Version 1.0 This indicator shows multiple MAs of any type SMA EMA WMA HMA etc with BB and MTF support, can show MAs as dynamically moving levels. There are 4 MA groups + 1 BB group. You can assign any type/timeframe combo to a group, for example: - EMAs 50,100,200 x H1, H4, D1, W1 (4 TFs x 3 MAs x 1 type) - EMAs 8,13,21,55,100,200 x M15, H1 (2 TFs x 6 MAs x 1 type) - D1 EMAs and SMAs 12,26,50,100,200,400 (1 TF x 6 MAs x 2 types) - H1 WMAs 7,77,231; H4 HMAs 50,100,200; D1 EMAs 144,169,233; W1 SMAs 50,100,200 (4 TFs x 3 MAs x 4 types) - +1 extra MA type/timeframe for BB compile time: 25-30 sec full redraw time after parameter change in UI: 3 sec There are several versions: Simple, MTF, Pro MTF, Advanced MTF and Ultimate MTF. This is the Pro MTF version. The Differences are listed below. All versions have BB - Simple: you have 2 groups of MAs that can be assigned any type (5+5) - MTF: +2 custom Timeframes for each group (2x5 MTF) - Pro MTF: +4 custom Timeframes for each group (4x3 MTF), MA levels and show max bars back options - Advanced MTF: +2 extra MAs/group (4x5 MTF), custom Ticker/Symbol, backreferences for type, TF and MA lengths in UI - Ultimate MTF: +individual settings for each MA, custom Ticker/Symbols Features: - 4x3 = 12 MAs of any type including Hull Moving Average (HMA) - 4x MTF groups with step line smoothing - BB +1 extra TF/type for BB MAs - 12 MA levels with adjustable group offsets, indents and shift - show max bars back - you can show/hide both groups of MAs/levels and individual MAs Notes: 1. based on 3EmaBB, uses plot*, barssince and security functions 2. you can't set certain constants from input due to Pinescript limitations - change the code as needed, recompile and use as a private version 3. Levels = trackprice implementation 4. Show Max Bars Back = show_last implementation 5. uses timeframe textbox instead of input resolution to allow for 120 240 and other custom TFs. Also supports TFs in hours: 2H or H2 6. swma has a fixed length = 4, alma and linreg have additional offset and smoothing params 7. Smoothing is applied by default for visual aesthetics on MTF. To use exact ma mtf values (lines with stair stepping) - disable it MTF Notes: - uses simple timeframe textbox instead of input resolution dropdown to allow for 120, 240 and other custom TFs, also supports timeframes in H: 2H, H2 - Groups that are not assigned a Custom TF will use Current Timeframe (0). - MTF will work for any MA type assigned to the group - MTF works both ways: you can display a higher TF MA/BB on a lower TF or a lower TF MA/BB on a higher TF. - MTF MA values are normally aligned at the boundary of their native timeframe. This produces stair stepping when a higher TF MA is viewed on a lower TF. Therefore X Y Point Density/Smoothing is applied by default on MA MTF for visual aesthetics. Set both to 0 to disable and see exact ma mtf values (lines with stair stepping and original mtf alignment). - Smoothing is disabled for BB MTF bands because fill doesn't work with smoothed MAs after duplicate values are replaced with na. - MTF MA Value fluctuation is possible on the current bar due to default security lookahead Smoothing: - X,Y == 0 - X,Y smoothing disabled (stair stepping on high TFs) - X == 0, Y > 0 - X,Y smoothing applied to all TFs - Y == 0, X > 0 - X smoothing applied to all TFs < deltaX_max_tf, Y smoothing disabled - X > 0, Y > 0 - Y smoothing applied to all TFs, then X smoothing applied to all TFs < deltaX_max_tf X Smoothing with Y == 0 - shows only every deltaX-th point starting from the first bar. X Smoothing with Y > 0 - shows only every deltaX-th point starting from the last shown Y point, essentially filling huge gaps remaining after Y Smoothing with points and preserving the curve's general shape X Smoothing on high TFs with already scarce points produces weird curve shapes, it works best only on high density lower TFs Y Smoothing reduces points on all TFs, removes adjacent points with prices within deltaY, while preserving the smaller curve details. A combination of X,Y produces the most accurate smoothing. Higher delta value - larger range, more points removed. Show Max Bars Back: - can't set plot show_last from input -> implemented using a timenow based range check - you can't delete/modify history once plotted, so essentially it just sets a start point for plotting (from num_bars bars back) that works only in realtime mode (not in replay) Levels: You can plot current MA value using plot trackprice=true or by checking Show Price Line in Style. Problem is: - you can only change color (not the dashed line style, width), have both ma + price line (not just the line), and it's full screen wide - you can't set plot trackprice from input => implemented using plotshape/plotchar with fixed text labels serving as levels - there's no other way of creating a dynamic level: hline, plot, offset - nothing else works. - you can't plot a text var - all text strings must be constants, so you can't change the style, width and text labels without recompiling. - from input you can only adjust offset, indent and shift for each level group, and change color - the dot below each level line is the exact MA value. If you want just the line swap plotshape with plotchar, recompile and save as your private version, adjust Y shift. To speed up redraw times: reduce last_bars to ~2000, recompile and use as your own private version Pinescript is a rudimentary language (should be called Painscript instead) that can basically only plot data. You can't do much else. Please see the code for tips and hints. Certain things just can't be done or require shady workarounds and weeks of testing trying to resolve weird node.js compiler errors. Feel free to learn from/reuse/change the code as needed and use as your own private version. See comments in code. Good Luck!
Pine Script®指標
由RagingRocketBull提供
7
Simple_longshort_signalsLong Entry Criteria: 1) Green candle close above 50MA 2) Green candle close above 20MA 3) MA of RSI(14) is cross upward 50 Result: displays green up arrow Long Exit Criteria: 1) Three red candles in a row 2) Any candle close bellow 20MA 3) MA of RSI(14) cross downward 50 Result: displays green diamond Short Entry 1) Red candle close bellow 50MA 2) Red candle close bellow 20MA 3) MA of RSI(14) is cross downward 50 Result: displays red down arrow Short Exit Criteria 1) Three green candles in a row 2) Any candle close above 20MA 3) MA of RSI(14) is cross upward 50 Result: displays red diamond
Pine Script®指標
由kokosro提供
1
GoldenCross by PuffyThis is a simple trading strategy that seeks the Golden Cross and Death Cross on the 4HR chart. The fast moving indicator in this strategy is the EMA 50 and the slow moving indicator is the EMA 200. When the EMA 50 crosses over the EMA 200 the strategy indicates a buy. When the EMA 50 crosses below the EMA 200 the strategy indicates a sell. This strategy averages trades in the 40 - 50 day range and as such should not be used with heavy leverage.
Pine Script®策略
由Puffy23提供
6
Exponential Moving Average (Set of 3) [Krypt] + 13/34 EMAsI took Krypt's script and essentially added on to it. the 20/50/100/200 EMAs should be used together as support and resistance as normal. Wait for price to break 200 EMA Wait for 50 EMA to cross 200 EMA Wait for pullback to 50 EMA to open position 20 and 100 EMAs are for extra information about moving support and resistance and 13/34 EMAs should be used in conjunction When 13 EMA crosses 34 EMA, open position When price gets far from 13/34, close position (because price will attempt to revert back to mean) This is better for scalping and swing trades than the 20/50/100/200 setup. Twitter: @AzorAhai06
Pine Script®指標
由AzorAhai06提供
Price vs VolImproved version of OBV/price (this one actually works) Both lines show where price is going relative to volume metrics (one line uses OBV, the other uses accumulation/distribution). Green and above 50 means price is rising faster then buying volume Red and below 50 means price is falling faster then selling volume you can add smoothing in the controls and color will go according to raw (even if smoothing goes above/below 50) under the hood: changes price, OBV and AD to RSI for comparability, calculates the difference between price and the others, then an RSI on the result to create an <50< style indicator. this script replaces the previouse from:
Pine Script®指標
由gb50k提供
1
GBPUSD Weekly Cross LinesThis indicator tracks 20/50 EMA crossovers on GBPUSD (Weekly timeframe) and displays the crossover points across all symbols and timeframes, allowing traders to visually align current price action with key historical turning points in GBPUSD. The script works by detecting bullish (20 EMA crossing above 50 EMA) and bearish (20 EMA crossing below 50 EMA) signals since 2010, using request.security() to source data from GBPUSD weekly candles, even if the indicator is applied to AAPL, EURJPY, BTCUSD, or any other asset. Each crossover is marked with a vertical line that persists across all charts, offering a powerful way to: Compare current market context with GBPUSD’s historical trend shifts Observe intermarket correlations Align trading timing across multiple assets Spot macro trend transitions that ripple across global markets
Pine Script®指標
由bellotifang提供
Advanced Triple Strategy ScalperHere are the three scalping strategies presented in the video "3 Scalping Strategies That Work Every Day (Backtested & Proven)" by Asia Forex Mentor – Ezekiel Chew: ### Scalper’s Trend Filter (Triple EMA) This strategy uses three EMAs (25, 50, 100) on the 5-minute chart to filter high-probability trades aligned with momentum . - Only trade when all three EMAs are angled in the same direction and clearly separated (no crossing or tangling) . - Enter when price pulls back toward the 25 or 50 EMA and then bounces back toward the 25 EMA, but do not enter if price closes below the 100 EMA . - Set stop-loss just below the 50 EMA or swing low and aim for a risk-to-reward ratio of 1:1.5 . ### Flip Zone Trap (Reversal Catching) This method identifies precise reversal moments where market structure shifts from weakness to strength . - Use the 15-min chart to locate key support or resistance zones where price previously reacted . - Wait for price to stop making lower lows and begin making higher highs (or vice versa for shorts); confirm with a trendline break AND follow-through (higher lows & highs within 5-7 candles) . - Use confirmation candles (bullish engulfing, pin bar rejection) at the zone before entry . ### Liquidity Shift Trigger (Smart Money Trap) This system leverages institutional stop hunts and liquidity sweeps at key zones for sniper entries . - Start with a 15-min chart to identify structure breaks and points of interest (order blocks, flip zones, demand zones) . - Drop to 1-min chart and wait for price to enter the refined zone and sweep liquidity (sharp wick/spike below/above key level) . - Once liquidity is swept, wait for a clean structure shift (break of most recent internal high or low) within 5–6 candles—if confirmed, refine entry to the candle that caused the break and enter when price returns to that candle with a strong reaction . *** ### Practical Application - These strategies are systematic, rule-based, and designed to cut out fake moves, avoid early stop-outs, and align entries with momentum and institutional activity . - Perfect for short timeframes and volatile pairs like XAUUSD, especially if paired with additional confirmation from other technical analysis tools . All three strategies emphasize filtering noise, waiting for momentum/trend confirmation, and avoiding impulsive entries—key principles for consistent scalping success
Pine Script®指標
由asifhkin提供
Kripto Fema ind/ This Pine Script™ code is subject to the terms of the Mozilla Public License 2.0 at mozilla.org // © Femayakup //@version=5 indicator(title = "Kripto Fema ind", shorttitle="Kripto Fema ind", overlay=true, format=format.price, precision=2,max_lines_count = 500, max_labels_count = 500, max_bars_back=500) showEma200 = input(true, title="EMA 200") showPmax = input(true, title="Pmax") showLinreg = input(true, title="Linreg") showMavilim = input(true, title="Mavilim") showNadaray = input(true, title="Nadaraya Watson") ma(source, length, type) => switch type "SMA" => ta.sma(source, length) "EMA" => ta.ema(source, length) "SMMA (RMA)" => ta.rma(source, length) "WMA" => ta.wma(source, length) "VWMA" => ta.vwma(source, length) //Ema200 timeFrame = input.timeframe(defval = '240',title= 'EMA200 TimeFrame',group = 'EMA200 Settings') len200 = input.int(200, minval=1, title="Length",group = 'EMA200 Settings') src200 = input(close, title="Source",group = 'EMA200 Settings') offset200 = input.int(title="Offset", defval=0, minval=-500, maxval=500,group = 'EMA200 Settings') out200 = ta.ema(src200, len200) higherTimeFrame = request.security(syminfo.tickerid,timeFrame,out200 ,barmerge.gaps_on,barmerge.lookahead_on) ema200Plot = showEma200 ? higherTimeFrame : na plot(ema200Plot, title="EMA200", offset=offset200) //Linreq group1 = "Linreg Settings" lengthInput = input.int(100, title="Length", minval = 1, maxval = 5000,group = group1) sourceInput = input.source(close, title="Source") useUpperDevInput = input.bool(true, title="Upper Deviation", inline = "Upper Deviation", group = group1) upperMultInput = input.float(2.0, title="", inline = "Upper Deviation", group = group1) useLowerDevInput = input.bool(true, title="Lower Deviation", inline = "Lower Deviation", group = group1) lowerMultInput = input.float(2.0, title="", inline = "Lower Deviation", group = group1) group2 = "Linreg Display Settings" showPearsonInput = input.bool(true, "Show Pearson's R", group = group2) extendLeftInput = input.bool(false, "Extend Lines Left", group = group2) extendRightInput = input.bool(true, "Extend Lines Right", group = group2) extendStyle = switch extendLeftInput and extendRightInput => extend.both extendLeftInput => extend.left extendRightInput => extend.right => extend.none group3 = "Linreg Color Settings" colorUpper = input.color(color.new(color.blue, 85), "Linreg Renk", inline = group3, group = group3) colorLower = input.color(color.new(color.red, 85), "", inline = group3, group = group3) calcSlope(source, length) => max_bars_back(source, 5000) if not barstate.islast or length <= 1 else sumX = 0.0 sumY = 0.0 sumXSqr = 0.0 sumXY = 0.0 for i = 0 to length - 1 by 1 val = source per = i + 1.0 sumX += per sumY += val sumXSqr += per * per sumXY += val * per slope = (length * sumXY - sumX * sumY) / (length * sumXSqr - sumX * sumX) average = sumY / length intercept = average - slope * sumX / length + slope = calcSlope(sourceInput, lengthInput) startPrice = i + s * (lengthInput - 1) endPrice = i var line baseLine = na if na(baseLine) and not na(startPrice) and showLinreg baseLine := line.new(bar_index - lengthInput + 1, startPrice, bar_index, endPrice, width=1, extend=extendStyle, color=color.new(colorLower, 0)) else line.set_xy1(baseLine, bar_index - lengthInput + 1, startPrice) line.set_xy2(baseLine, bar_index, endPrice) na calcDev(source, length, slope, average, intercept) => upDev = 0.0 dnDev = 0.0 stdDevAcc = 0.0 dsxx = 0.0 dsyy = 0.0 dsxy = 0.0 periods = length - 1 daY = intercept + slope * periods / 2 val = intercept for j = 0 to periods by 1 price = high - val if price > upDev upDev := price price := val - low if price > dnDev dnDev := price price := source dxt = price - average dyt = val - daY price -= val stdDevAcc += price * price dsxx += dxt * dxt dsyy += dyt * dyt dsxy += dxt * dyt val += slope stdDev = math.sqrt(stdDevAcc / (periods == 0 ? 1 : periods)) pearsonR = dsxx == 0 or dsyy == 0 ? 0 : dsxy / math.sqrt(dsxx * dsyy) = calcDev(sourceInput, lengthInput, s, a, i) upperStartPrice = startPrice + (useUpperDevInput ? upperMultInput * stdDev : upDev) upperEndPrice = endPrice + (useUpperDevInput ? upperMultInput * stdDev : upDev) var line upper = na lowerStartPrice = startPrice + (useLowerDevInput ? -lowerMultInput * stdDev : -dnDev) lowerEndPrice = endPrice + (useLowerDevInput ? -lowerMultInput * stdDev : -dnDev) var line lower = na if na(upper) and not na(upperStartPrice) and showLinreg upper := line.new(bar_index - lengthInput + 1, upperStartPrice, bar_index, upperEndPrice, width=1, extend=extendStyle, color=color.new(colorUpper, 0)) else line.set_xy1(upper, bar_index - lengthInput + 1, upperStartPrice) line.set_xy2(upper, bar_index, upperEndPrice) na if na(lower) and not na(lowerStartPrice) and showLinreg lower := line.new(bar_index - lengthInput + 1, lowerStartPrice, bar_index, lowerEndPrice, width=1, extend=extendStyle, color=color.new(colorUpper, 0)) else line.set_xy1(lower, bar_index - lengthInput + 1, lowerStartPrice) line.set_xy2(lower, bar_index, lowerEndPrice) na showLinregPlotUpper = showLinreg ? upper : na showLinregPlotLower = showLinreg ? lower : na showLinregPlotBaseLine = showLinreg ? baseLine : na linefill.new(showLinregPlotUpper, showLinregPlotBaseLine, color = colorUpper) linefill.new(showLinregPlotBaseLine, showLinregPlotLower, color = colorLower) // Pearson's R var label r = na label.delete(r ) if showPearsonInput and not na(pearsonR) and showLinreg r := label.new(bar_index - lengthInput + 1, lowerStartPrice, str.tostring(pearsonR, "#.################"), color = color.new(color.white, 100), textcolor=color.new(colorUpper, 0), size=size.normal, style=label.style_label_up) //Mavilim group4 = "Mavilim Settings" mavilimold = input(false, title="Show Previous Version of MavilimW?",group=group4) fmal=input(3,"First Moving Average length",group = group4) smal=input(5,"Second Moving Average length",group = group4) tmal=fmal+smal Fmal=smal+tmal Ftmal=tmal+Fmal Smal=Fmal+Ftmal M1= ta.wma(close, fmal) M2= ta.wma(M1, smal) M3= ta.wma(M2, tmal) M4= ta.wma(M3, Fmal) M5= ta.wma(M4, Ftmal) MAVW= ta.wma(M5, Smal) col1= MAVW>MAVW col3= MAVWpmaxsrc ? pmaxsrc-pmaxsrc : 0 vdd1=pmaxsrc ma = 0.0 if mav == "SMA" ma := ta.sma(pmaxsrc, length) ma if mav == "EMA" ma := ta.ema(pmaxsrc, length) ma if mav == "WMA" ma := ta.wma(pmaxsrc, length) ma if mav == "TMA" ma := ta.sma(ta.sma(pmaxsrc, math.ceil(length / 2)), math.floor(length / 2) + 1) ma if mav == "VAR" ma := VAR ma if mav == "WWMA" ma := WWMA ma if mav == "ZLEMA" ma := ZLEMA ma if mav == "TSF" ma := TSF ma ma MAvg=getMA(pmaxsrc, length) longStop = Normalize ? MAvg - Multiplier*atr/close : MAvg - Multiplier*atr longStopPrev = nz(longStop , longStop) longStop := MAvg > longStopPrev ? math.max(longStop, longStopPrev) : longStop shortStop = Normalize ? MAvg + Multiplier*atr/close : MAvg + Multiplier*atr shortStopPrev = nz(shortStop , shortStop) shortStop := MAvg < shortStopPrev ? math.min(shortStop, shortStopPrev) : shortStop dir = 1 dir := nz(dir , dir) dir := dir == -1 and MAvg > shortStopPrev ? 1 : dir == 1 and MAvg < longStopPrev ? -1 : dir PMax = dir==1 ? longStop: shortStop plot(showsupport ? MAvg : na, color=#fbff04, linewidth=2, title="EMA9") pALL=plot(PMax, color=color.new(color.red, transp = 0), linewidth=2, title="PMax") alertcondition(ta.cross(MAvg, PMax), title="Cross Alert", message="PMax - Moving Avg Crossing!") alertcondition(ta.crossover(MAvg, PMax), title="Crossover Alarm", message="Moving Avg BUY SIGNAL!") alertcondition(ta.crossunder(MAvg, PMax), title="Crossunder Alarm", message="Moving Avg SELL SIGNAL!") alertcondition(ta.cross(pmaxsrc, PMax), title="Price Cross Alert", message="PMax - Price Crossing!") alertcondition(ta.crossover(pmaxsrc, PMax), title="Price Crossover Alarm", message="PRICE OVER PMax - BUY SIGNAL!") alertcondition(ta.crossunder(pmaxsrc, PMax), title="Price Crossunder Alarm", message="PRICE UNDER PMax - SELL SIGNAL!") buySignalk = ta.crossover(MAvg, PMax) plotshape(buySignalk and showsignalsk ? PMax*0.995 : na, title="Buy", text="Buy", location=location.absolute, style=shape.labelup, size=size.tiny, color=color.new(color.green, transp = 0), textcolor=color.white) sellSignallk = ta.crossunder(MAvg, PMax) plotshape(sellSignallk and showsignalsk ? PMax*1.005 : na, title="Sell", text="Sell", location=location.absolute, style=shape.labeldown, size=size.tiny, color=color.new(color.red, transp = 0), textcolor=color.white) // buySignalc = ta.crossover(pmaxsrc, PMax) // plotshape(buySignalc and showsignalsc ? PMax*0.995 : na, title="Buy", text="Buy", location=location.absolute, style=shape.labelup, size=size.tiny, color=#0F18BF, textcolor=color.white) // sellSignallc = ta.crossunder(pmaxsrc, PMax) // plotshape(sellSignallc and showsignalsc ? PMax*1.005 : na, title="Sell", text="Sell", location=location.absolute, style=shape.labeldown, size=size.tiny, color=#0F18BF, textcolor=color.white) // mPlot = plot(ohlc4, title="", style=plot.style_circles, linewidth=0,display=display.none) longFillColor = highlighting ? (MAvg>PMax ? color.new(color.green, transp = 90) : na) : na shortFillColor = highlighting ? (MAvg math.exp(-(math.pow(x, 2)/(h * h * 2))) //-----------------------------------------------------------------------------} //Append lines //-----------------------------------------------------------------------------{ n = bar_index var ln = array.new_line(0) if barstate.isfirst and repaint for i = 0 to 499 array.push(ln,line.new(na,na,na,na)) //-----------------------------------------------------------------------------} //End point method //-----------------------------------------------------------------------------{ var coefs = array.new_float(0) var den = 0. if barstate.isfirst and not repaint for i = 0 to 499 w = gauss(i, h) coefs.push(w) den := coefs.sum() out = 0. if not repaint for i = 0 to 499 out += src * coefs.get(i) out /= den mae = ta.sma(math.abs(src - out), 499) * mult upperN = out + mae lowerN = out - mae //-----------------------------------------------------------------------------} //Compute and display NWE //-----------------------------------------------------------------------------{ float y2 = na float y1 = na nwe = array.new(0) if barstate.islast and repaint sae = 0. //Compute and set NWE point for i = 0 to math.min(499,n - 1) sum = 0. sumw = 0. //Compute weighted mean for j = 0 to math.min(499,n - 1) w = gauss(i - j, h) sum += src * w sumw += w y2 := sum / sumw sae += math.abs(src - y2) nwe.push(y2) sae := sae / math.min(499,n - 1) * mult for i = 0 to math.min(499,n - 1) if i%2 and showNadaray line.new(n-i+1, y1 + sae, n-i, nwe.get(i) + sae, color = upCss) line.new(n-i+1, y1 - sae, n-i, nwe.get(i) - sae, color = dnCss) if src > nwe.get(i) + sae and src < nwe.get(i) + sae and showNadaray label.new(n-i, src , '▼', color = color(na), style = label.style_label_down, textcolor = dnCss, textalign = text.align_center) if src < nwe.get(i) - sae and src > nwe.get(i) - sae and showNadaray label.new(n-i, src , '▲', color = color(na), style = label.style_label_up, textcolor = upCss, textalign = text.align_center) y1 := nwe.get(i) //-----------------------------------------------------------------------------} //Dashboard //-----------------------------------------------------------------------------{ var tb = table.new(position.top_right, 1, 1 , bgcolor = #1e222d , border_color = #373a46 , border_width = 1 , frame_color = #373a46 , frame_width = 1) if repaint tb.cell(0, 0, 'Repainting Mode Enabled', text_color = color.white, text_size = size.small) //-----------------------------------------------------------------------------} //Plot //-----------------------------------------------------------------------------} // plot(repaint ? na : out + mae, 'Upper', upCss) // plot(repaint ? na : out - mae, 'Lower', dnCss) //Crossing Arrows // plotshape(ta.crossunder(close, out - mae) ? low : na, "Crossunder", shape.labelup, location.absolute, color(na), 0 , text = '▲', textcolor = upCss, size = size.tiny) // plotshape(ta.crossover(close, out + mae) ? high : na, "Crossover", shape.labeldown, location.absolute, color(na), 0 , text = '▼', textcolor = dnCss, size = size.tiny) //-----------------------------------------------------------------------------} ////////////////////////////////////////////////////////////////////////////////// enableD = input (true, "DIVERGANCE ON/OFF" , group="INDICATORS ON/OFF") //DIVERGANCE prd1 = input.int (defval=5 , title='PIVOT PERIOD' , minval=1, maxval=50 , group="DIVERGANCE") source = input.string(defval='HIGH/LOW' , title='SOURCE FOR PIVOT POINTS' , options= , group="DIVERGANCE") searchdiv = input.string(defval='REGULAR/HIDDEN', title='DIVERGANCE TYPE' , options= , group="DIVERGANCE") showindis = input.string(defval='FULL' , title='SHOW INDICATORS NAME' , options= , group="DIVERGANCE") showlimit = input.int(1 , title='MINIMUM NUMBER OF DIVERGANCES', minval=1, maxval=11 , group="DIVERGANCE") maxpp = input.int (defval=20 , title='MAXIMUM PIVOT POINTS TO CHECK', minval=1, maxval=20 , group="DIVERGANCE") maxbars = input.int (defval=200 , title='MAXIMUM BARS TO CHECK' , minval=30, maxval=200 , group="DIVERGANCE") showlast = input (defval=false , title='SHOW ONLY LAST DIVERGANCE' , group="DIVERGANCE") dontconfirm = input (defval=false , title="DON'T WAIT FOR CONFORMATION" , group="DIVERGANCE") showlines = input (defval=false , title='SHOW DIVERGANCE LINES' , group="DIVERGANCE") showpivot = input (defval=false , title='SHOW PIVOT POINTS' , group="DIVERGANCE") calcmacd = input (defval=true , title='MACD' , group="DIVERGANCE") calcmacda = input (defval=true , title='MACD HISTOGRAM' , group="DIVERGANCE") calcrsi = input (defval=true , title='RSI' , group="DIVERGANCE") calcstoc = input (defval=true , title='STOCHASTIC' , group="DIVERGANCE") calccci = input (defval=true , title='CCI' , group="DIVERGANCE") calcmom = input (defval=true , title='MOMENTUM' , group="DIVERGANCE") calcobv = input (defval=true , title='OBV' , group="DIVERGANCE") calcvwmacd = input (true , title='VWMACD' , group="DIVERGANCE") calccmf = input (true , title='CHAIKIN MONEY FLOW' , group="DIVERGANCE") calcmfi = input (true , title='MONEY FLOW INDEX' , group="DIVERGANCE") calcext = input (false , title='CHECK EXTERNAL INDICATOR' , group="DIVERGANCE") externalindi = input (defval=close , title='EXTERNAL INDICATOR' , group="DIVERGANCE") pos_reg_div_col = input (defval=#ffffff , title='POSITIVE REGULAR DIVERGANCE' , group="DIVERGANCE") neg_reg_div_col = input (defval=#00def6 , title='NEGATIVE REGULAR DIVERGANCE' , group="DIVERGANCE") pos_hid_div_col = input (defval=#00ff0a , title='POSITIVE HIDDEN DIVERGANCE' , group="DIVERGANCE") neg_hid_div_col = input (defval=#ff0015 , title='NEGATIVE HIDDEN DIVERGANCE' , group="DIVERGANCE") reg_div_l_style_ = input.string(defval='SOLID' , title='REGULAR DIVERGANCE LINESTYLE' , options= , group="DIVERGANCE") hid_div_l_style_ = input.string(defval='SOLID' , title='HIDDEN DIVERGANCE LINESTYLE' , options= , group="DIVERGANCE") reg_div_l_width = input.int (defval=2 , title='REGULAR DIVERGANCE LINEWIDTH' , minval=1, maxval=5 , group="DIVERGANCE") hid_div_l_width = input.int (defval=2 , title='HIDDEN DIVERGANCE LINEWIDTH' , minval=1, maxval=5 , group="DIVERGANCE") showmas = input.bool (defval=false , title='SHOW MOVING AVERAGES (50 & 200)', inline='MA' , group="DIVERGANCE") cma1col = input.color (defval=#ffffff , title='' , inline='MA' , group="DIVERGANCE") cma2col = input.color (defval=#00def6 , title='' , inline='MA' , group="DIVERGANCE") //PLOTS plot(showmas ? ta.sma(close, 50) : na, color=showmas ? cma1col : na) plot(showmas ? ta.sma(close, 200) : na, color=showmas ? cma2col : na) var reg_div_l_style = reg_div_l_style_ == 'SOLID' ? line.style_solid : reg_div_l_style_ == 'DASHED' ? line.style_dashed : line.style_dotted var hid_div_l_style = hid_div_l_style_ == 'SOLID' ? line.style_solid : hid_div_l_style_ == 'DASHED' ? line.style_dashed : line.style_dotted rsi = ta.rsi(close, 14) = ta.macd(close, 12, 26, 9) moment = ta.mom(close, 10) cci = ta.cci(close, 10) Obv = ta.obv stk = ta.sma(ta.stoch(close, high, low, 14), 3) maFast = ta.vwma(close, 12) maSlow = ta.vwma(close, 26) vwmacd = maFast - maSlow Cmfm = (close - low - (high - close)) / (high - low) Cmfv = Cmfm * volume cmf = ta.sma(Cmfv, 21) / ta.sma(volume, 21) Mfi = ta.mfi(close, 14) var indicators_name = array.new_string(11) var div_colors = array.new_color(4) if barstate.isfirst and enableD array.set(indicators_name, 0, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 1, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 2, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 3, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 4, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 5, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 6, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 7, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 8, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 9, showindis == "DON'T SHOW" ? '' : '') array.set(indicators_name, 10, showindis == "DON'T SHOW" ? '' : '') array.set(div_colors, 0, pos_reg_div_col) array.set(div_colors, 1, neg_reg_div_col) array.set(div_colors, 2, pos_hid_div_col) array.set(div_colors, 3, neg_hid_div_col) float ph1 = ta.pivothigh(source == 'CLOSE' ? close : high, prd1, prd1) float pl1 = ta.pivotlow(source == 'CLOSE' ? close : low, prd1, prd1) plotshape(ph1 and showpivot, text='H', style=shape.labeldown, color=color.new(color.white, 100), textcolor=#00def6, location=location.abovebar, offset=-prd1) plotshape(pl1 and showpivot, text='L', style=shape.labelup, color=color.new(color.white, 100), textcolor=#ffffff, location=location.belowbar, offset=-prd1) var int maxarraysize = 20 var ph_positions = array.new_int(maxarraysize, 0) var pl_positions = array.new_int(maxarraysize, 0) var ph_vals = array.new_float(maxarraysize, 0.) var pl_vals = array.new_float(maxarraysize, 0.) if ph1 array.unshift(ph_positions, bar_index) array.unshift(ph_vals, ph1) if array.size(ph_positions) > maxarraysize array.pop(ph_positions) array.pop(ph_vals) if pl1 array.unshift(pl_positions, bar_index) array.unshift(pl_vals, pl1) if array.size(pl_positions) > maxarraysize array.pop(pl_positions) array.pop(pl_vals) positive_regular_positive_hidden_divergence(src, cond) => divlen = 0 prsc = source == 'CLOSE' ? close : low if dontconfirm or src > src or close > close startpoint = dontconfirm ? 0 : 1 for x = 0 to maxpp - 1 by 1 len = bar_index - array.get(pl_positions, x) + prd1 if array.get(pl_positions, x) == 0 or len > maxbars break if len > 5 and (cond == 1 and src > src and prsc < nz(array.get(pl_vals, x)) or cond == 2 and src < src and prsc > nz(array.get(pl_vals, x))) slope1 = (src - src ) / (len - startpoint) virtual_line1 = src - slope1 slope2 = (close - close ) / (len - startpoint) virtual_line2 = close - slope2 arrived = true for y = 1 + startpoint to len - 1 by 1 if src < virtual_line1 or nz(close ) < virtual_line2 arrived := false break virtual_line1 -= slope1 virtual_line2 -= slope2 virtual_line2 if arrived divlen := len break divlen negative_regular_negative_hidden_divergence(src, cond) => divlen = 0 prsc = source == 'CLOSE' ? close : high if dontconfirm or src < src or close < close startpoint = dontconfirm ? 0 : 1 for x = 0 to maxpp - 1 by 1 len = bar_index - array.get(ph_positions, x) + prd1 if array.get(ph_positions, x) == 0 or len > maxbars break if len > 5 and (cond == 1 and src < src and prsc > nz(array.get(ph_vals, x)) or cond == 2 and src > src and prsc < nz(array.get(ph_vals, x))) slope1 = (src - src ) / (len - startpoint) virtual_line1 = src - slope1 slope2 = (close - nz(close )) / (len - startpoint) virtual_line2 = close - slope2 arrived = true for y = 1 + startpoint to len - 1 by 1 if src > virtual_line1 or nz(close ) > virtual_line2 arrived := false break virtual_line1 -= slope1 virtual_line2 -= slope2 virtual_line2 if arrived divlen := len break divlen //CALCULATIONS calculate_divs(cond, indicator_1) => divs = array.new_int(4, 0) array.set(divs, 0, cond and (searchdiv == 'REGULAR' or searchdiv == 'REGULAR/HIDDEN') ? positive_regular_positive_hidden_divergence(indicator_1, 1) : 0) array.set(divs, 1, cond and (searchdiv == 'REGULAR' or searchdiv == 'REGULAR/HIDDEN') ? negative_regular_negative_hidden_divergence(indicator_1, 1) : 0) array.set(divs, 2, cond and (searchdiv == 'HIDDEN' or searchdiv == 'REGULAR/HIDDEN') ? positive_regular_positive_hidden_divergence(indicator_1, 2) : 0) array.set(divs, 3, cond and (searchdiv == 'HIDDEN' or searchdiv == 'REGULAR/HIDDEN') ? negative_regular_negative_hidden_divergence(indicator_1, 2) : 0) divs var all_divergences = array.new_int(44) array_set_divs(div_pointer, index) => for x = 0 to 3 by 1 array.set(all_divergences, index * 4 + x, array.get(div_pointer, x)) array_set_divs(calculate_divs(calcmacd , macd) , 0) array_set_divs(calculate_divs(calcmacda , deltamacd) , 1) array_set_divs(calculate_divs(calcrsi , rsi) , 2) array_set_divs(calculate_divs(calcstoc , stk) , 3) array_set_divs(calculate_divs(calccci , cci) , 4) array_set_divs(calculate_divs(calcmom , moment) , 5) array_set_divs(calculate_divs(calcobv , Obv) , 6) array_set_divs(calculate_divs(calcvwmacd, vwmacd) , 7) array_set_divs(calculate_divs(calccmf , cmf) , 8) array_set_divs(calculate_divs(calcmfi , Mfi) , 9) array_set_divs(calculate_divs(calcext , externalindi), 10) total_div = 0 for x = 0 to array.size(all_divergences) - 1 by 1 total_div += math.round(math.sign(array.get(all_divergences, x))) total_div if total_div < showlimit array.fill(all_divergences, 0) var pos_div_lines = array.new_line(0) var neg_div_lines = array.new_line(0) var pos_div_labels = array.new_label(0) var neg_div_labels = array.new_label(0) delete_old_pos_div_lines() => if array.size(pos_div_lines) > 0 for j = 0 to array.size(pos_div_lines) - 1 by 1 line.delete(array.get(pos_div_lines, j)) array.clear(pos_div_lines) delete_old_neg_div_lines() => if array.size(neg_div_lines) > 0 for j = 0 to array.size(neg_div_lines) - 1 by 1 line.delete(array.get(neg_div_lines, j)) array.clear(neg_div_lines) delete_old_pos_div_labels() => if array.size(pos_div_labels) > 0 for j = 0 to array.size(pos_div_labels) - 1 by 1 label.delete(array.get(pos_div_labels, j)) array.clear(pos_div_labels) delete_old_neg_div_labels() => if array.size(neg_div_labels) > 0 for j = 0 to array.size(neg_div_labels) - 1 by 1 label.delete(array.get(neg_div_labels, j)) array.clear(neg_div_labels) delete_last_pos_div_lines_label(n) => if n > 0 and array.size(pos_div_lines) >= n asz = array.size(pos_div_lines) for j = 1 to n by 1 line.delete(array.get(pos_div_lines, asz - j)) array.pop(pos_div_lines) if array.size(pos_div_labels) > 0 label.delete(array.get(pos_div_labels, array.size(pos_div_labels) - 1)) array.pop(pos_div_labels) delete_last_neg_div_lines_label(n) => if n > 0 and array.size(neg_div_lines) >= n asz = array.size(neg_div_lines) for j = 1 to n by 1 line.delete(array.get(neg_div_lines, asz - j)) array.pop(neg_div_lines) if array.size(neg_div_labels) > 0 label.delete(array.get(neg_div_labels, array.size(neg_div_labels) - 1)) array.pop(neg_div_labels) pos_reg_div_detected = false neg_reg_div_detected = false pos_hid_div_detected = false neg_hid_div_detected = false var last_pos_div_lines = 0 var last_neg_div_lines = 0 var remove_last_pos_divs = false var remove_last_neg_divs = false if pl1 remove_last_pos_divs := false last_pos_div_lines := 0 last_pos_div_lines if ph1 remove_last_neg_divs := false last_neg_div_lines := 0 last_neg_div_lines divergence_text_top = '' divergence_text_bottom = '' distances = array.new_int(0) dnumdiv_top = 0 dnumdiv_bottom = 0 top_label_col = color.white bottom_label_col = color.white old_pos_divs_can_be_removed = true old_neg_divs_can_be_removed = true startpoint = dontconfirm ? 0 : 1 for x = 0 to 10 by 1 div_type = -1 for y = 0 to 3 by 1 if array.get(all_divergences, x * 4 + y) > 0 div_type := y if y % 2 == 1 dnumdiv_top += 1 top_label_col := array.get(div_colors, y) top_label_col if y % 2 == 0 dnumdiv_bottom += 1 bottom_label_col := array.get(div_colors, y) bottom_label_col if not array.includes(distances, array.get(all_divergences, x * 4 + y)) array.push(distances, array.get(all_divergences, x * 4 + y)) new_line = showlines ? line.new(x1=bar_index - array.get(all_divergences, x * 4 + y), y1=source == 'CLOSE' ? close : y % 2 == 0 ? low : high , x2=bar_index - startpoint, y2=source == 'CLOSE' ? close : y % 2 == 0 ? low : high , color=array.get(div_colors, y), style=y < 2 ? reg_div_l_style : hid_div_l_style, width=y < 2 ? reg_div_l_width : hid_div_l_width) : na if y % 2 == 0 if old_pos_divs_can_be_removed old_pos_divs_can_be_removed := false if not showlast and remove_last_pos_divs delete_last_pos_div_lines_label(last_pos_div_lines) last_pos_div_lines := 0 last_pos_div_lines if showlast delete_old_pos_div_lines() array.push(pos_div_lines, new_line) last_pos_div_lines += 1 remove_last_pos_divs := true remove_last_pos_divs if y % 2 == 1 if old_neg_divs_can_be_removed old_neg_divs_can_be_removed := false if not showlast and remove_last_neg_divs delete_last_neg_div_lines_label(last_neg_div_lines) last_neg_div_lines := 0 last_neg_div_lines if showlast delete_old_neg_div_lines() array.push(neg_div_lines, new_line) last_neg_div_lines += 1 remove_last_neg_divs := true remove_last_neg_divs if y == 0 pos_reg_div_detected := true pos_reg_div_detected if y == 1 neg_reg_div_detected := true neg_reg_div_detected if y == 2 pos_hid_div_detected := true pos_hid_div_detected if y == 3 neg_hid_div_detected := true neg_hid_div_detected if div_type >= 0 divergence_text_top += (div_type % 2 == 1 ? showindis != "DON'T SHOW" ? array.get(indicators_name, x) + '\n' : '' : '') divergence_text_bottom += (div_type % 2 == 0 ? showindis != "DON'T SHOW" ? array.get(indicators_name, x) + '\n' : '' : '') divergence_text_bottom if showindis != "DON'T SHOW" if dnumdiv_top > 0 divergence_text_top += str.tostring(dnumdiv_top) divergence_text_top if dnumdiv_bottom > 0 divergence_text_bottom += str.tostring(dnumdiv_bottom) divergence_text_bottom if divergence_text_top != '' if showlast delete_old_neg_div_labels() array.push(neg_div_labels, label.new(x=bar_index, y=math.max(high, high ), color=top_label_col, style=label.style_diamond, size = size.auto)) if divergence_text_bottom != '' if showlast delete_old_pos_div_labels() array.push(pos_div_labels, label.new(x=bar_index, y=math.min(low, low ), color=bottom_label_col, style=label.style_diamond, size = size.auto)) // POSITION AND SIZE PosTable = input.string(defval="Bottom Right", title="Position", options= , group="Table Location & Size", inline="1") SizTable = input.string(defval="Auto", title="Size", options= , group="Table Location & Size", inline="1") Pos1Table = PosTable == "Top Right" ? position.top_right : PosTable == "Middle Right" ? position.middle_right : PosTable == "Bottom Right" ? position.bottom_right : PosTable == "Top Center" ? position.top_center : PosTable == "Middle Center" ? position.middle_center : PosTable == "Bottom Center" ? position.bottom_center : PosTable == "Top Left" ? position.top_left : PosTable == "Middle Left" ? position.middle_left : position.bottom_left Siz1Table = SizTable == "Auto" ? size.auto : SizTable == "Huge" ? size.huge : SizTable == "Large" ? size.large : SizTable == "Normal" ? size.normal : SizTable == "Small" ? size.small : size.tiny tbl = table.new(Pos1Table, 21, 16, border_width = 1, border_color = color.gray, frame_color = color.gray, frame_width = 1) // Kullanıcı tarafından belirlenecek yeşil ve kırmızı zaman dilimi sayısı greenThreshold = input.int(5, minval=1, maxval=10, title="Yeşil Zaman Dilimi Sayısı", group="Alarm Ayarları") redThreshold = input.int(5, minval=1, maxval=10, title="Kırmızı Zaman Dilimi Sayısı", group="Alarm Ayarları") // TIMEFRAMES OPTIONS box01 = input.bool(true, "TF ", inline = "01", group="Select Timeframe") tf01 = input.timeframe("1", "", inline = "01", group="Select Timeframe") box02 = input.bool(false, "TF ", inline = "02", group="Select Timeframe") tf02 = input.timeframe("3", "", inline = "02", group="Select Timeframe") box03 = input.bool(true, "TF ", inline = "03", group="Select Timeframe") tf03 = input.timeframe("5", "", inline = "03", group="Select Timeframe") box04 = input.bool(true, "TF ", inline = "04", group="Select Timeframe") tf04 = input.timeframe("15", "", inline = "04", group="Select Timeframe") box05 = input.bool(false, "TF ", inline = "05", group="Select Timeframe") tf05 = input.timeframe("30", "", inline = "05", group="Select Timeframe") box06 = input.bool(true, "TF ", inline = "01", group="Select Timeframe") tf06 = input.timeframe("60", "", inline = "01", group="Select Timeframe") box07 = input.bool(false, "TF ", inline = "02", group="Select Timeframe") tf07 = input.timeframe("120", "", inline = "02", group="Select Timeframe") box08 = input.bool(false, "TF ", inline = "03", group="Select Timeframe") tf08 = input.timeframe("180", "", inline = "03", group="Select Timeframe") box09 = input.bool(true, "TF ", inline = "04", group="Select Timeframe") tf09 = input.timeframe("240", "", inline = "04", group="Select Timeframe") box10 = input.bool(false, "TF ", inline = "05", group="Select Timeframe") tf10 = input.timeframe("D", "", inline = "05", group="Select Timeframe") // indicator('Tillson FEMA', overlay=true) length1 = input(1, 'FEMA Length') a1 = input(0.7, 'Volume Factor') e1 = ta.ema((high + low + 2 * close) / 4, length1) e2 = ta.ema(e1, length1) e3 = ta.ema(e2, length1) e4 = ta.ema(e3, length1) e5 = ta.ema(e4, length1) e6 = ta.ema(e5, length1) c1 = -a1 * a1 * a1 c2 = 3 * a1 * a1 + 3 * a1 * a1 * a1 c3 = -6 * a1 * a1 - 3 * a1 - 3 * a1 * a1 * a1 c4 = 1 + 3 * a1 + a1 * a1 * a1 + 3 * a1 * a1 FEMA = c1 * e6 + c2 * e5 + c3 * e4 + c4 * e3 tablocol1 = FEMA > FEMA tablocol3 = FEMA < FEMA color_1 = col1 ? color.rgb(149, 219, 35): col3 ? color.rgb(238, 11, 11) : color.yellow plot(FEMA, color=color_1, linewidth=3, title='FEMA') tilson1 = FEMA tilson1a =FEMA // DEFINITION OF VALUES symbol = ticker.modify(syminfo.tickerid, syminfo.session) tfArr = array.new(na) tilson1Arr = array.new(na) tilson1aArr = array.new(na) // DEFINITIONS OF RSI & CCI FUNCTIONS APPENDED IN THE TIMEFRAME OPTIONS cciNcciFun(tf, flg) => = request.security(symbol, tf, ) if flg and (barstate.isrealtime ? true : timeframe.in_seconds(timeframe.period) <= timeframe.in_seconds(tf)) array.push(tfArr, na(tf) ? timeframe.period : tf) array.push(tilson1Arr, tilson_) array.push(tilson1aArr, tilson1a_) cciNcciFun(tf01, box01), cciNcciFun(tf02, box02), cciNcciFun(tf03, box03), cciNcciFun(tf04, box04), cciNcciFun(tf05, box05), cciNcciFun(tf06, box06), cciNcciFun(tf07, box07), cciNcciFun(tf08, box08), cciNcciFun(tf09, box09), cciNcciFun(tf10, box10) // TABLE AND CELLS CONFIG // Post Timeframe in format tfTxt(x)=> out = x if not str.contains(x, "S") and not str.contains(x, "M") and not str.contains(x, "W") and not str.contains(x, "D") if str.tonumber(x)%60 == 0 out := str.tostring(str.tonumber(x)/60)+"H" else out := x + "m" out if barstate.islast table.clear(tbl, 0, 0, 20, 15) // TITLES table.cell(tbl, 0, 0, "⏱", text_color=color.white, text_size=Siz1Table, bgcolor=#000000) table.cell(tbl, 1, 0, "FEMA("+str.tostring(length1)+")", text_color=#FFFFFF, text_size=Siz1Table, bgcolor=#000000) j = 1 greenCounter = 0 // Yeşil zaman dilimlerini saymak için bir sayaç redCounter = 0 if array.size(tilson1Arr) > 0 for i = 0 to array.size(tilson1Arr) - 1 if not na(array.get(tilson1Arr, i)) //config values in the cells TF_VALUE = array.get(tfArr,i) tilson1VALUE = array.get(tilson1Arr, i) tilson1aVALUE = array.get(tilson1aArr, i) SIGNAL1 = tilson1VALUE >= tilson1aVALUE ? "▲" : tilson1VALUE <= tilson1aVALUE ? "▼" : na // Yeşil oklar ve arka planı ayarla greenArrowColor1 = SIGNAL1 == "▲" ? color.rgb(0, 255, 0) : color.rgb(255, 0, 0) greenBgColor1 = SIGNAL1 == "▲" ? color.rgb(25, 70, 22) : color.rgb(93, 22, 22) allGreen = tilson1VALUE >= tilson1aVALUE allRed = tilson1VALUE <= tilson1aVALUE // Determine background color for time text timeBgColor = allGreen ? #194616 : (allRed ? #5D1616 : #000000) txtColor = allGreen ? #00FF00 : (allRed ? #FF4500 : color.white) if allGreen greenCounter := greenCounter + 1 redCounter := 0 else if allRed redCounter := redCounter + 1 greenCounter := 0 else redCounter := 0 greenCounter := 0 // Dinamik pair değerini oluşturma pair = "USDT_" + syminfo.basecurrency + "USDT" // Bot ID için kullanıcı girişi bot_id = input.int(12387976, title="Bot ID", minval=0,group ='3Comas Message', inline = '1') // Varsayılan değeri 12387976 olan bir tamsayı girişi alır // E-posta tokenı için kullanıcı girişi email_token = input("cd4111d4-549a-4759-a082-e8f45c91fa47", title="Email Token",group ='3Comas Message', inline = '1') // USER INPUT FOR DELAY delay_seconds = input.int(0, title="Delay Seconds", minval=0, maxval=86400,group ='3Comas Message', inline = '1') // Dinamik mesajın oluşturulması message = '{ "message_type": "bot", "bot_id": ' + str.tostring(bot_id) + ', "email_token": "' + email_token + '", "delay_seconds": ' + str.tostring(delay_seconds) + ', "pair": "' + pair + '"}' // Kullanıcının belirlediği yeşil veya kırmızı zaman dilimi sayısına ulaşıldığında alarmı tetikle if greenCounter >= greenThreshold alert(message, alert.freq_once_per_bar_close) // if redCounter >= redThreshold // alert(message, alert.freq_once_per_bar_close) // Kullanıcının belirlediği yeşil veya kırmızı zaman dilimi sayısına ulaşıldığında alarmı tetikle // if greenCounter >= greenThreshold // alert("Yeşil zaman dilimi sayısı " + str.tostring(greenThreshold) + " adede ulaştı", alert.freq_once_per_bar_close) // if redCounter >= redThreshold // alert("Kırmızı zaman dilimi sayısı " + str.tostring(redThreshold) + " adede ulaştı", alert.freq_once_per_bar_close) table.cell(tbl, 0, j, tfTxt(TF_VALUE), text_color=txtColor, text_halign=text.align_left, text_size=Siz1Table, bgcolor=timeBgColor) table.cell(tbl, 1, j, str.tostring(tilson1VALUE, "#.#######")+SIGNAL1, text_color=greenArrowColor1, text_halign=text.align_right, text_size=Siz1Table, bgcolor=greenBgColor1) j += 1 prd = input.int(defval=10, title='Pivot Period', minval=4, maxval=30, group='Setup') ppsrc = input.string(defval='High/Low', title='Source', options= , group='Setup') maxnumpp = input.int(defval=20, title=' Maximum Number of Pivot', minval=5, maxval=100, group='Setup') ChannelW = input.int(defval=10, title='Maximum Channel Width %', minval=1, group='Setup') maxnumsr = input.int(defval=5, title=' Maximum Number of S/R', minval=1, maxval=10, group='Setup') min_strength = input.int(defval=2, title=' Minimum Strength', minval=1, maxval=10, group='Setup') labelloc = input.int(defval=20, title='Label Location', group='Colors', tooltip='Positive numbers reference future bars, negative numbers reference histical bars') linestyle = input.string(defval='Dashed', title='Line Style', options= , group='Colors') linewidth = input.int(defval=2, title='Line Width', minval=1, maxval=4, group='Colors') resistancecolor = input.color(defval=color.red, title='Resistance Color', group='Colors') supportcolor = input.color(defval=color.lime, title='Support Color', group='Colors') showpp = input(false, title='Show Point Points') float src1 = ppsrc == 'High/Low' ? high : math.max(close, open) float src2 = ppsrc == 'High/Low' ? low : math.min(close, open) float ph = ta.pivothigh(src1, prd, prd) float pl = ta.pivotlow(src2, prd, prd) plotshape(ph and showpp, text='H', style=shape.labeldown, color=na, textcolor=color.new(color.red, 0), location=location.abovebar, offset=-prd) plotshape(pl and showpp, text='L', style=shape.labelup, color=na, textcolor=color.new(color.lime, 0), location=location.belowbar, offset=-prd) Lstyle = linestyle == 'Dashed' ? line.style_dashed : linestyle == 'Solid' ? line.style_solid : line.style_dotted //calculate maximum S/R channel zone width prdhighest = ta.highest(300) prdlowest = ta.lowest(300) cwidth = (prdhighest - prdlowest) * ChannelW / 100 var pivotvals = array.new_float(0) if ph or pl array.unshift(pivotvals, ph ? ph : pl) if array.size(pivotvals) > maxnumpp // limit the array size array.pop(pivotvals) get_sr_vals(ind) => float lo = array.get(pivotvals, ind) float hi = lo int numpp = 0 for y = 0 to array.size(pivotvals) - 1 by 1 float cpp = array.get(pivotvals, y) float wdth = cpp <= lo ? hi - cpp : cpp - lo if wdth <= cwidth // fits the max channel width? if cpp <= hi lo := math.min(lo, cpp) else hi := math.max(hi, cpp) numpp += 1 numpp var sr_up_level = array.new_float(0) var sr_dn_level = array.new_float(0) sr_strength = array.new_float(0) find_loc(strength) => ret = array.size(sr_strength) for i = ret > 0 ? array.size(sr_strength) - 1 : na to 0 by 1 if strength <= array.get(sr_strength, i) break ret := i ret ret check_sr(hi, lo, strength) => ret = true for i = 0 to array.size(sr_up_level) > 0 ? array.size(sr_up_level) - 1 : na by 1 //included? if array.get(sr_up_level, i) >= lo and array.get(sr_up_level, i) <= hi or array.get(sr_dn_level, i) >= lo and array.get(sr_dn_level, i) <= hi if strength >= array.get(sr_strength, i) array.remove(sr_strength, i) array.remove(sr_up_level, i) array.remove(sr_dn_level, i) ret else ret := false ret break ret var sr_lines = array.new_line(11, na) var sr_labels = array.new_label(11, na) for x = 1 to 10 by 1 rate = 100 * (label.get_y(array.get(sr_labels, x)) - close) / close label.set_text(array.get(sr_labels, x), text=str.tostring(label.get_y(array.get(sr_labels, x))) + '(' + str.tostring(rate, '#.##') + '%)') label.set_x(array.get(sr_labels, x), x=bar_index + labelloc) label.set_color(array.get(sr_labels, x), color=label.get_y(array.get(sr_labels, x)) >= close ? color.red : color.lime) label.set_textcolor(array.get(sr_labels, x), textcolor=label.get_y(array.get(sr_labels, x)) >= close ? color.white : color.black) label.set_style(array.get(sr_labels, x), style=label.get_y(array.get(sr_labels, x)) >= close ? label.style_label_down : label.style_label_up) line.set_color(array.get(sr_lines, x), color=line.get_y1(array.get(sr_lines, x)) >= close ? resistancecolor : supportcolor) if ph or pl //because of new calculation, remove old S/R levels array.clear(sr_up_level) array.clear(sr_dn_level) array.clear(sr_strength) //find S/R zones for x = 0 to array.size(pivotvals) - 1 by 1 = get_sr_vals(x) if check_sr(hi, lo, strength) loc = find_loc(strength) // if strength is in first maxnumsr sr then insert it to the arrays if loc < maxnumsr and strength >= min_strength array.insert(sr_strength, loc, strength) array.insert(sr_up_level, loc, hi) array.insert(sr_dn_level, loc, lo) // keep size of the arrays = 5 if array.size(sr_strength) > maxnumsr array.pop(sr_strength) array.pop(sr_up_level) array.pop(sr_dn_level) for x = 1 to 10 by 1 line.delete(array.get(sr_lines, x)) label.delete(array.get(sr_labels, x)) for x = 0 to array.size(sr_up_level) > 0 ? array.size(sr_up_level) - 1 : na by 1 float mid = math.round_to_mintick((array.get(sr_up_level, x) + array.get(sr_dn_level, x)) / 2) rate = 100 * (mid - close) / close array.set(sr_labels, x + 1, label.new(x=bar_index + labelloc, y=mid, text=str.tostring(mid) + '(' + str.tostring(rate, '#.##') + '%)', color=mid >= close ? color.red : color.lime, textcolor=mid >= close ? color.white : color.black, style=mid >= close ? label.style_label_down : label.style_label_up)) array.set(sr_lines, x + 1, line.new(x1=bar_index, y1=mid, x2=bar_index - 1, y2=mid, extend=extend.both, color=mid >= close ? resistancecolor : supportcolor, style=Lstyle, width=linewidth)) f_crossed_over() => ret = false for x = 0 to array.size(sr_up_level) > 0 ? array.size(sr_up_level) - 1 : na by 1 float mid = math.round_to_mintick((array.get(sr_up_level, x) + array.get(sr_dn_level, x)) / 2) if close <= mid and close > mid ret := true ret ret f_crossed_under() => ret = false for x = 0 to array.size(sr_up_level) > 0 ? array.size(sr_up_level) - 1 : na by 1 float mid = math.round_to_mintick((array.get(sr_up_level, x) + array.get(sr_dn_level, x)) / 2) if close >= mid and close < mid ret := true ret ret alertcondition(f_crossed_over(), title='Resistance Broken', message='Resistance Broken') alertcondition(f_crossed_under(), title='Support Broken', message='Support Broken')
Pine Script®指標
由Femayakup提供
Adaptive Trend Compression (Arjo)Adaptive Trend Mapper (ATM) is a multi-purpose trend and momentum tool designed to help traders study trend strength, identify compression phases, and observe shifts in buying and selling pressure. It helps identify emerging breakouts early The script combines RSI-based momentum, ADX strength, bull/bear pressure indices, and a squeeze-style compression model. It also includes a smoothed trend line based on a SuperSmoother filter and an optional EMA-50 overlay for trend context. Key Features Bull & Bear Pressure Index Derived using ADX and an inverse-RSI approach to highlight directional strength in a normalized scale. Squeeze & Compression Detection Detects periods where directional pressure converges while ADX remains weak, often marking low-volatility phases. Adaptive Smoothing Engine Bull/Bear indices can be smoothed using SMA/EMA/WMA/RMA, allowing traders to reduce noise when required. SuperSmoother Trend Line A filtered trend curve helps highlight short-term directional bias. Includes color-coding based on trend slope and a wide underlying band for visual clarity. EMA-50 Option Standard trend context tool for higher-level direction. Step-Based Scaling (Optional) Bull and Bear indices can be rounded to custom step intervals, making them easier to visualize on smaller charts. How to Use Rising Bull Index indicates increasing upward pressure . Rising Bear Index indicates increasing downward pressure . A squeeze zone marks compression phases where directional conviction is low. A breakout from a squeeze often aligns with the start of new strong directional movement. The SuperSmoother trend line helps track micro-trend shifts, while EMA-50 provides macro context. Disclaimer This tool is intended for educational and analytical purposes. It is not a buy/sell signal generator and doesn’t make predictions. All trading decisions should be based on your own judgment and risk management. Happy Trading (Arjo)
Pine Script®指標
由ARJO_2019提供
Dobrusky Pressure CoreWhat it does & who it’s for Dobrusky Pressure Core is a volume by time replacement for traders who care about which side actually controls each bar. Instead of just plotting total volume, it splits each bar into estimated buy vs sell pressure and overlays a custom, session-aware volume baseline. It’s built for discretionary traders who want more nuanced volume context for entries, breakouts, and pullbacks. Core ideas Buy/sell pressure split: Each bar’s volume is broken into estimated buying and selling pressure. Dominant side highlighting: The dominant side (buy or sell) is always displayed starting from the bottom of the bar, so you can quickly see who “owned” that bar. Median-based baseline: Uses the median of the last N bars (50 by default) to build a robust volume baseline that’s less sensitive to one-off spikes. Session-aware behavior: Baseline is calculated from Regular Trading Hours (RTH) by default, with an option to include Extended Hours (ETH) and a control to force Regular data on higher timeframes. Volume regimes: Three multipliers (1x, 1.5x, 2x by default) show normal, high, and extreme volume regions. Flexible display: Baseline can be shown as lines or as columns behind the volume, with full color customization. How the pressure logic works For each bar, the script: Adjusts the range for gaps relative to the prior close so the “true” traded range is more consistent. Computes buy pressure as a proportion of the adjusted range from low to close. Defines sell pressure as: total volume minus buy pressure. Marks the bar as buy-dominant if buy pressure ≥ sell pressure, otherwise sell-dominant, and colors the dominant side from the bottom to at least the midpoint using the selected buy/sell colors. In practice, this turns basic volume columns into bars where the internal split and dominant side are clearly visible, helping you judge whether aggressive buyers or sellers truly controlled the bar instead of just looking at the price action. Volume baseline & session logic The script builds a session-aware baseline from recent volume: Baseline length: A rolling window (default 50 bars) is used to compute a median volume value instead of a simple moving average. RTH-only by default: By default, the baseline is built from Regular Trading Hours bars only. During extended hours, the baseline effectively “freezes” at the last RTH-derived value unless you choose to include extended session data. Extended mode: If you select Extended mode, the script builds separate rolling baselines for RTH and ETH trading, using the appropriate one depending on the current session. Force Regular Above Timeframe: On timeframes equal to or higher than your chosen threshold, the baseline automatically uses Regular session data, even if Extended is selected. Multipliers: Three adjustable multipliers (1x, 1.5x, 2x by default) create normal, high, and extreme volume bands for quick identification. This lets you choose whether you want a pure RTH reference or a baseline that adapts to extended-session activity. Example ways to use it 1. Replace standard volume bars Add Dobrusky Pressure Core to your volume pane and hide the default volume if you prefer a clean look. Use the colors and split to see at a glance whether buyers or sellers were dominant on each bar. 2. Pressure confirmation for entries For longs (example concept; adapt to your own rules): Require that the entry bar’s buy pressure is greater than the previous bar’s sell pressure , or If the entry and prior bar are both buy-dominant, require that the entry bar has more buy pressure than the prior bar. This helps avoid taking a long when buying pressure is clearly fading relative to what sellers recently showed. A mirrored idea can be used for short setups with sell pressure. 3. Context from baseline multipliers Use ~1x baseline as “normal” volume. Watch for bars at or above 1.5x baseline when you want to see increased participation. Treat 2x baseline and above as “extreme” volume zones that may mark climactic or especially important bars. In practice, the baseline and multipliers are best used as context and filters, not as rigid rules. Settings overview Display - Show Volume Baseline: toggle the baseline and its levels on or off. - Baseline Display: choose between Line or Bars for the baseline visualization. Baseline Calculation - Length: lookback for the median baseline (default 50, configurable). - Baseline Session Data: choose Regular or Extended to control which session data feeds the baseline. Session Controls - Regular Session (Local to TZ): define your RTH window (e.g., 0930-1600). - Session Time Zone: choose the time zone used for that window. - Force Regular Above Timeframe: on higher timeframes, force the baseline to use Regular session data only. Baseline Levels - Show Level x Multiplier 1/2/3: toggle each volume regime level. - Multiplier 1/2/3: define what you consider normal, high, and extreme volume (defaults: 1.0, 1.5, 2.0). Colors - Buy Volume / Sell Volume: choose colors for buy and sell pressure. - Baseline Bars (Base / x2 / x3): colors when the baseline is drawn as columns. - Baseline Line (Base / x2 / x3): colors when the baseline is drawn as lines. Limitations & best practices This is a decision-support and visualization tool, not a buy/sell signal generator. Best suited to markets where volume data is meaningful (e.g., index futures, liquid equities, liquid crypto). The usefulness of any volume-based metric depends on the underlying data feed and instrument structure. Always combine pressure and baseline context with your own strategy, risk management, and testing. Originality Most volume tools either show total volume only or compare it to a simple moving average. Dobrusky Pressure Core combines: An intrabar buy/sell pressure split based on a gap-adjusted price range. A median-based, configurable baseline built from session-specific data. Session-aware behavior that keeps the baseline focused on Regular hours by default, with the option to incorporate Extended hours and force Regular data on higher timeframes. The goal is to give traders a richer, session-aware view of participation and pressure that standard volume bars and simple SMA overlays don’t provide, while keeping everything transparent and open-source so users can review and adapt the logic.
Pine Script®指標
由adobtrades提供
Fat Tony's Composite Momentum Histogram (v01)# Fat Tony's Composite Momentum Histogram ## What It Does This indicator combines four momentum oscillators into a single composite signal that ranges approximately from -100 to +100. It identifies potential overbought and oversold conditions while weighting signals by volume activity to filter out weak moves. The histogram shows momentum strength with color-coded bars: - **Red bars** indicate extreme overbought conditions (above +100) - **Green bars** indicate extreme oversold conditions (below -100) - **Blue bars** show positive momentum in normal range - **Orange bars** show negative momentum in normal range ## Core Components The indicator blends these four momentum measures: 1. **Williams %R** - Measures where price closed relative to the high-low range 2. **Stochastic %K** - Compares closing price to the recent price range 3. **MACD Histogram** - Shows momentum changes via moving average convergence/divergence 4. **ROC (Rate of Change)** - Measures percentage price change, normalized by volatility Each component is scaled to a -50 to +50 range, then averaged together. The MACD component uses adaptive scaling based on its historical volatility to remain relevant across different market conditions. ## Volume Weighting The indicator amplifies signals when volume is elevated and dampens them when volume is low. It uses a logarithmic scaling approach to smooth extreme volume spikes. There's also a minimum volume filter that prevents signals from triggering during very low-volume periods. ## Settings Explained **Momentum Settings:** - **Length (14)** - Lookback period for Williams %R and Stochastic calculations - **MACD Fast/Slow/Signal (12/26/9)** - Standard MACD parameters - **ROC Length (10)** - Lookback for rate of change calculation - **MACD StDev Length (200)** - Historical window for normalizing MACD values **Levels:** - **Overbought Level (+100)** - Threshold for extreme upside momentum - **Oversold Level (-100)** - Threshold for extreme downside momentum **Volume Settings:** - **Enable Volume Weighting** - Toggle volume amplification on/off - **Volume Sensitivity (1.5)** - Controls how much volume impacts the signal (higher = stronger impact) - **Min Avg Volume (50,000)** - Filters out signals when 5-bar average volume is too low **Components:** - **Include ROC Component** - Toggle to add/remove ROC from the calculation - **Enable Trend Filter** - Only allows signals aligned with the 200-period EMA trend - **Show Component Plots** - Displays individual oscillator values for tuning purposes ## Trading Signals **Entry Signals:** - **Long (green triangle)** - Composite crosses above the oversold level with adequate volume - **Short (red triangle)** - Composite crosses below the overbought level with adequate volume **Exit Signals (when trend filter enabled):** - **Long Exit** - Composite crosses below zero from positive territory - **Short Exit** - Composite crosses above zero from negative territory The indicator also provides alert conditions for automated notifications on these signal events.
Pine Script®指標
由robbooker提供
2
Vince/Williams Extreme Volatility VulnerabilityDescription: This indicator implements the "Period of Extreme Vulnerability" concept developed by Ralph Vince and Larry Williams. The theory posits that a healthy market must regularly see the number of New Lows "dry up" (drop to near zero). When the percentage of New Lows fails to drop below a minimal threshold (default 0.15%) for a prolonged period (default 65 days), it indicates that internal market structure is rotting even if prices are rising, leaving the market fragile and prone to sudden volatility shocks. I have programmed this script to track that exact condition—the extended absence of a "low" New Lows reading. It applies a 50-day Moving Average filter to contextually categorize the signal: Red Dot (Crash Warning): Triggers when the vulnerability period begins while the price is above the 50 SMA. This is the classic warning signal, indicating that an uptrend is unsupported by market internals and a sharp correction may be imminent. Green Dot (Contrarian Buy): Triggers when the vulnerability period begins while the price is below the 50 SMA. The script identifies this as a potential capitulation or value point where the persistent internal weakness is likely already priced in. Note: This indicator requires exchange-wide data (New Lows, Advancers, Decliners) to function. It is best used on daily timeframes.
Pine Script®指標
由suresh789提供