ACM22 not repaintedДелал данный скрипт для FORTS.Идеально подойдет тем,кто использует трейлинг стопы.В основе стратегии лежит RSI.Как по мне,хорошая вещь для проверки стратегии и ее оптимизиации.На скрине 50 контрактов,так что не сильно радуйтесь,а просто делите на 50 и получите показатели на 1 контракт.
Script make for futures on MICEX.U can change paramets of RSI,traling stop and stop loss .On a ps 50 futures USDollar-russian ruble.Use for testing and optimisation.
"北证50+股票+新浪财经"に関するスクリプトを検索
Inertia Indicator The inertia indicator measures the market, stock or currency pair momentum and
trend by measuring the security smoothed RVI (Relative Volatility Index).
The RVI is a technical indicator that estimates the general direction of the
volatility of an asset.
The inertia indicator returns a value that is comprised between 0 and 100.
Positive inertia occurs when the indicator value is higher than 50. As long as
the inertia value is above 50, the long-term trend of the security is up. The inertia
is negative when its value is lower than 50, in this case the long-term trend is
down and should stay down if the inertia stays below 50
GC RSI Columns V2016This is a basic RSI indicator but in column format.I had been using this for a while and it gives a nice visual representation of trend change by changing color of the column.
Base line is 50 level. Anything above 50 is buy opportunity and below 50 is sell opportunity . Try it on higher time frames and see the results.
Example on chart above.
Note: i published it on demand. many folks were asking me for this ,since it(column rsi) was not available in public indicators
Golden Cross, SMA 200 Moving Average Strategy (by ChartArt)This famous moving average strategy is very easy to follow to decide when to buy (go long) and when to take profit.
The strategy goes long when the faster SMA 50 (the simple moving average of the last 50 bars) crosses above the slower SMA 200. Orders are closed when the SMA 50 crosses below the SMA 200. This simple strategy does not have any other stop loss or take profit money management logic. The strategy does not short and goes long only!
Here is an article explaining the "golden cross" strategy in more detail:
www.stockopedia.com
On the S&P 500 index (symbol "SPX") this strategy worked on the daily chart 81% since price data is available since 1982. And on the DOW Jones Industrial Average (symbol "DOWI") this strategy worked on the daily chart 55% since price data is available since 1916. The low number of trades is in both cases not statistically significant though.
All trading involves high risk; past performance is not necessarily indicative of future results. Hypothetical or simulated performance results have certain inherent limitations. Unlike an actual performance record, simulated results do not represent actual trading. Also, since the trades have not actually been executed, the results may have under- or over-compensated for the impact, if any, of certain market factors, such as lack of liquidity. Simulated trading programs in general are also subject to the fact that they are designed with the benefit of hindsight. No representation is being made that any account will or is likely to achieve profits or losses similar to those shown.
Forex Master v4.0 (EUR/USD Mean-Reversion Algorithm)DESCRIPTION
Forex Master v4.0 is a mean-reversion algorithm currently optimized for trading the EUR/USD pair on the 5M chart interval. All indicator inputs use the period's closing price and all trades are executed at the open of the period following the period where the trade signal was generated.
There are 3 main components that make up Forex Master v4.0:
I. Trend Filter
The algorithm uses a version of the ADX indicator as a trend filter to trade only in certain time periods where price is more likely to be range-bound (i.e., mean-reverting). This indicator is composed of a Fast ADX and a Slow ADX, both using the same look-back period of 50. However, the Fast ADX is smoothed with a 6-period EMA and the Slow ADX is smoothed with a 12-period EMA. When the Fast ADX is above the Slow ADX, the algorithm does not trade because this indicates that price is likelier to trend, which is bad for a mean-reversion system. Conversely, when the Fast ADX is below the Slow ADX, price is likelier to be ranging so this is the only time when the algorithm is allowed to trade.
II. Bollinger Bands
When allowed to trade by the Trend Filter, the algorithm uses the Bollinger Bands indicator to enter long and short positions. The Bolliger Bands indicator has a look-back period of 20 and a standard deviation of 1.5 for both upper and lower bands. When price crosses over the lower band, a Long Signal is generated and a long position is entered. When price crosses under the upper band, a Short Signal is generated and a short position is entered.
III. Money Management
Rule 1 - Each trade will use a limit order for a fixed quantity of 50,000 contracts (0.50 lot). The only exception is Rule
Rule 2 - Order pyramiding is enabled and up to 10 consecutive orders of the same signal can be executed (for example: 14 consecutive Long Signals are generated over 8 hours and the algorithm sends in 10 different buy orders at various prices for a total of 350,000 contracts).
Rule 3 - Every order will include a bracket with both TP and SL set at 50 pips (note: the algorithm only closes the current open position and does not enter the opposite trade once a TP or SL has been hit).
Rule 4 - When a new opposite trade signal is generated, the algorithm sends in a larger order to close the current open position as well as open a new one (for example: 14 consecutive Long Signals are generated over 8 hours and the algorithm sends in 10 different buy orders at various prices for a total of 350,000 contracts. A Short Signal is generated shortly after the 14th Long Signal. The algorithm then sends in a sell order for 400,000 contracts to close the 350,000 contracts long position and open a new short position of 50,000 contracts).
RSI-EMA IndicatorThis indicator calculates and plots 2 separate EMAs of the RSI. The default settings below work great on SPX/SPY daily chart. General rule is if an EMA is above 50, the stock's near term outlook is bullish. If an EMA is below 50, the near term outlook is bearish. Personally, I like to use a fast EMA as a buy signal and a slow EMA as a sell signal.
Default settings:
RSI = 50
EMA1 = 100
EMA2 = 200
High-Low Index [LazyBear]-- Fixed ---
Source: pastebin.com
Fixes an issue with "Combined" mode, using wrong symbols.
--- Original ---
The High-Low Index is a breadth indicator based on Record High Percent, which is based on new 52-week highs and new 52-week lows.
Readings below 50 indicate that there were more new lows than new highs. Readings above 50 indicate that there were more new highs than new lows. 0 indicates there were zero new highs (0% new highs). 100 indicates there was at least 1 new high and no new lows (100% new highs). 50 indicates that new highs and new lows were equal (50% new highs).
Readings consistently above 70 usually coincide with a strong uptrend. Readings consistently below 30 usually coincide with a strong downtrend.
More info:
stockcharts.com
List of my public indicators: bit.ly
List of my app-store indicators: blog.tradingview.com
Just noticed @Greeny has already published this -> Linking it here.
TimWest Long Short FiltersTimWest Long Short Filters
Indicator Has 3 Separate Filters that Create Green(Bullish) or Red(Bearish) BackGround Highlights
If Price is Above or Below a certain LookBack Period - Tim Defaults to 63 on Daily Chart to Quickly View if Price is Above or Below it’s Price 1 Quarter Ago.
A Simple Moving Average Filter - Tim Defaults to 50 SMA and 200 SMA also known as the “Golden Cross”.
A Exponential Moving Average Filter - For Those Who Want To View Shorter Term Market Swings. Defaults to 50 EMA and 100 EMA used By Chuck Hughes, 7 Time World Trading Champion. Chuck Claims the 50/100 EMA's Show the Earliest Change in Market Direction the Equal - Sustainable Moves
Inputs Tab has Checkboxes to Turn On/Off any of the 3 Filters Above.
Reference Chart Post www.tradingview.com
3 projection Indicators - PBands, PO & PBAll these indicators are by Mel Widner.
Projection Bands :
-------------------------------------------------------
These project market data along the trend with the maxima and minima of the projections defining the band. The method provides a way to signal potential direction changes relative to the trend. Usage is like any other trading band.
Projection Oscillator :
-------------------------------------------------------
This indicates the relative position of price with in the bands. It fluctuates between the values 0 to 100. You can configure the "basis" to make it oscillate around a specific value (for ex., basis=50 will make it oscillate between +50 and -50). EMA of PO (length configurable, default is 5) is plotted as a signal line. There is also an option to plot the difference (oscillator - signal), just like MACD histogram. When you see a divergence in this oscillator, remember that it just indicates a potential movement with in the band (for ex., a bullish divergence shown may cause the price to cross the median and move up to the top band).
Projection Bandwidth :
-------------------------------------------------------
This shows the % width of the projection bands. A trend reversal is signaled by a high value. Low value may indicate the start of a new trend. This is also a trend strength indicator.
More info: drive.google.com
Borrowed the color theme for this chart from @liw0. Thanks :)
Liquidity Sweep Pro [Tier 1 Strategy]🎯 Early Entry Features
Automatic Entry Signals:
🔵 BUY Entry - Triggers immediately when bullish sweep is detected
🔴 SELL Entry - Triggers immediately when bearish sweep is detected
Entry happens at the close of the sweep candle for early positioning
Built-in Trade Management:
✅ Take Profit: Default 20 pips (adjustable 10-100 pips)
❌ Stop Loss: Default 10 pips (adjustable 5-50 pips)
Automatic TP/SL calculation and tracking
Real-time position monitoring
📊 Visual Features
Entry Labels Show:
Entry price
Exact TP level (+20 pips target)
Exact SL level (risk amount)
Live Position Tracking:
Solid line = Entry price
Green dashed line = Take Profit target
Red dashed line = Stop Loss
Exit Notifications:
"✓ TP HIT +20 pips" when target reached
"✗ SL HIT -10 pips" when stopped out
⚙️ Adjustable Settings
Entry Settings:
Toggle entry on sweep candle (instant) or wait for confirmation
Customize TP target (20+ pips)
Customize SL distance
Risk/Reward ratio control
Perfect for:
Scalping liquidity grabs
Catching reversals early
20-50 pip profit targets
Quick in-and-out trades
Synthetic Implied APROverview
The Synthetic Implied APR is an artificial implied APR, designed to imitate the implied APR seen when trading cryptocurrency funding rates. It combines real-time funding rates with premium data to calculate an artificial market expectation of the annualized funding rate.
The (actual) implied APR is the market's expectation of the annualized funding rate. This is dependent on bid/ask impacts of the implied APR, something which is currently unavailable to fetch with TradingView. In essence, an implied APR of X% means traders believe that asset's funding fees to average X% when annualized.
What's important to understand, is that the actual value of the synthetic implied APR is not relevant. We only simply use its relative changes when we trade (i.e if it crosses above/below its MA for a given weight). Even for the same asset, the implied APRs will change depending on days to maturity.
How it calculates
The synthetic implied APR is calculated with these steps:
Collects premium data from perpetual futures markets using optimized lower timeframe requests (check my 'Predicted Funding Rates' indicator)
Calculates the funding rate by adding the premium to an interest rate component (clamped within exchange limits)
Derives the underlying APR from the 8-hour funding rate (funding rate × 3 × 365)
Apply a weighed formula that imitates both the direction (underlying APR) with the volatility of prices (from the premium index and funding)
premium_component = (prem_avg / 50 ) * 365
weighedprem = (weight * fr) + ((1 - weight) * apr) + (premium_component * 0.3)
impliedAPR = math.avg(weighedprem, ta.sma(apr, maLength))
How to use it: Generally
Preface: Funding rates are an indication of market sentiment
If funding is positive, generally the market is bullish as longs are willing to pay shorts funding
If funding is negative, generally the market is bearish as shorts are willing to pay longs funding
So, this script can be used like a typical oscillator:
Bullish: If implied APR > MA OR if implied APR MA is green
Bearish: If implied APR < MA OR if implied APR MA is red
The components:
Synthetic Implied APR: The main metric. At current setting of 0.7, it imitates volatility
Weight: The higher the value, the smoother the synthetic implied APR is (and MA too). This value is very important to the imitation. At 0.7, it imitates the actual volatility of the implied APR. At weight = 1, it becomes very smooth. Perfect for trading
Synthetic Implied APR Moving Average: A moving average of the Synthetic implied APR. Can choose from multiple selections, (SMA, EMA, WMA, HMA, VWMA, RMA)
How to use it: Trading Funding
When trading funding there're multiple ways to use it with different settings
Trade funding rates with trend changes
Settings: Weight = 1
Method 1: When the implied APR MA turns green, long funding rates (or short if red)
Method 2: When the implied APR crosses above the MA, long funding rates (or short when crosses below)
Trade funding rates with MA pullbacks
Settings: Weight = 0.7, timeframe 15m
In an uptrend: When implied APR crosses below then above the script, long funding opportunity
In an downtrend: When implied APR crosses above then below the script, shortfunding opportunity
You can determine the trend with the method before, using a weight of 1
To trade funding rates, it's best to have these 3 scripts at these settings:
Predicted Funding Rates: This allows you to see the predicted funding rates and see if they've maxxed out for added confluence too (+/-0.01% usually for Binance BTC futures)
Synthetic implied APR: At weight 1, the MA provides a good trend (whether close above/below or colour change)
Synthetic implied APR: At weight 0.7, it provides a good imitation of volatility
How to use it: Trading Futures
When trading futures:
You can determine roughly what the trend is, if the assumption is made that funding rates can help identify trends if used as a sentiment indicator. It should be supplemented with traditional trend trading methods
To prevent whipsaws, weight should remain high
Long trend: When the implied APR MA turns green OR when it crosses above its MA
Short trend: When the implied APR MA turns red OR when it below above its MA
Why it's original
This indicator introduces a unique synthetic weighting system that combines funding rates, underlying APR, and premium components in a way not found in existing TradingView scripts. Trading funding rates is a niche area, there aren't that many scripts currently available. And to my knowledge, there's no synthetic implied APR scripts available on TradingView either. So I believe this script to be original in that sense.
Notes
Because it depends on my triangular weighting algos, optimal accuracy is found on timeframes that are 4H or less. On higher timeframes, the accuracy drops off. Best timeframes for intraday trading using this are 15m or 1 hour
The higher the timeframe, the lower the MA one should use. At 1 hour, 200 or higher is best. At say, 4h, length of 50 is best
Only works for coins that have a Binance premium index
Inputs
Funding Period - Select between "1 Hour" or "8 Hour" funding cycles. 8 hours is standard for Binance
Table - Toggle the information dashboard on/off to show or hide real-time metrics including funding rate, premium, and APR value
Weight - Controls the balance between funding rate (higher values = smoother) and APR (lower values = more responsive) in the calculation, ranging from 0.0 to 1.0. Default is 0.7, this imitates the volatility
Auto Timeframe Implied Length - Automatically calculates optimal smoothing length based on your chart timeframe for consistent behavior across different time periods
Manual Implied Length - Sets a fixed smoothing length (in bars) when auto mode is disabled, with lower values being more responsive and higher values being smoother
Show Implied APR MA - Displays an additional moving average line of the Synthetic Implied APR to help identify trend direction and crossover signals
MA Type for Implied APR - Selects the calculation method (SMA, EMA, WMA, HMA, VWMA, or RMA) for the moving average, each offering different responsiveness and lag characteristics
MA Length for Implied APR - Sets the lookback period (1-500 bars) for the moving average, with shorter lengths providing more signals and longer lengths filtering noise
Show Underlying APR - Displays the raw APR calculation (without synthetic weighting) as a reference line to compare against the main indicator
Bullish Color - Sets the color for positive values in the table and rising MA line
Bearish Color - Sets the color for negative values in the table and falling MA line
Table Background - Customizes the background color and transparency of the information dashboard
Table Text Color - Sets the color for label text in the left column of the information table
Table Text Size - Controls the font size of table text with options from Tiny to Huge
HA + EMA Entry/Exit (First Wick Candle Exit)Strategy Logic -
Entry Signals:
BUY: HA candle crosses above 50 EMA
SELL: HA candle crosses below 50 EMA
Exit Signals:
Exit Long: After a BUY, trigger when:
HA candle is solid red (haClose < haOpen)
Candle has a lower wick (haLow < haClose)
Exit Short: After a SELL, trigger when:
HA candle is solid green (haClose > haOpen)
Candle has an upper wick (haHigh > haClose)
Updated -
After a BUY signal:
Look for a red Heikin Ashi candle (haClose < haOpen)
It must have only a lower wick:
✅ haLow < haClose (lower wick exists)
✅ haHigh == haOpen (no upper wick)
After a SELL signal:
Look for a green Heikin Ashi candle (haClose > haOpen)
It must have only an upper wick:
✅ haHigh > haClose (upper wick exists)
✅ haLow == haOpen (no lower wick)
Bazaarbull - Smart Money Concepts// This Pine Script™ code is subject to the terms of the Mozilla Public License 2.0 at mozilla.org
// © Bazaarbull
//
//@version=5
indicator("Bazaarbull - Smart Money Concepts", "Bazaarbull - Smart Money Concepts ",
overlay = true,
max_bars_back = 5000,
max_boxes_count = 500,
max_labels_count = 500,
max_lines_count = 500,
max_polylines_count = 100)
plot(na)
//
MSG = "MARKET STRUCTURE"
VBG = "VOLUMETRIC ORDER BLOCKS"
MST = "Limit market structure calculation to improve memory speed time"
SLT = " Limit swing structure to tot bars back"
IDT = " Start date of the internal structure"
CST = "Color candle based on trend detection system"
OBT = "Display internal buy and sell activity"
OBD = "Show Last number of orderblock"
OBMT = " Use Length to adjust cordinate of the orderblocks\n Use whole candle body"
_ ='
------------
–––––––––––––––––––––––––– INPUTS –––––––––––––––––––––––––––
------------ '//{
bool windowsis = input.bool(true, "Window", inline="kla", group=MSG)
int mswindow = input.int(5000, "", tooltip=MST,group=MSG, inline="kla", minval=1000)
bool showSwing = input.bool(true, "Swing", inline="scss", group=MSG)
int swingLimit = input.int(100, "", tooltip=SLT, inline="scss", group=MSG, minval=10, maxval=200)
color swingcssup = input.color(#089981, "", inline="scss", group=MSG)
color swingcssdn = input.color(#f23645, "", inline="scss", group=MSG)
bool showMapping = input.bool(false, "Mapping Structure", inline="mapping", group=MSG)
string mappingStyle = input.string("----", "", options= , inline="mapping", group=MSG)
color mappingcss = input.color(color.silver, "", tooltip="Display Mapping Structure", inline="mapping", group=MSG)
bool candlecss = input.bool(false, "Color Candles", tooltip=CST, group=MSG, inline="txt")
string mstext = input.string("Tiny", "", options= ,
inline="txt", group=MSG)
string msmode = input.string("Adjusted Points", "Algorithmic Logic", options=
, inline="node", group=MSG)
int mslen = input.int(5, "", inline="node", group=MSG, minval=2)
bool buildsweep = input.bool(true, "Build Sweep (x)", "Build sweep on market structure", "znc", MSG)
bool msbubble = input.bool(true, "Bubbles", tooltip="Display Circle Bubbles", inline="bubbles", group=MSG)
bool obshow = input.bool(true, "Show Last", tooltip=OBD, group=VBG, inline="obshow")
int oblast = input.int(5, "", group=VBG, inline="obshow", minval=0)
color obupcs = input.color(color.new(#089981, 90), "", inline="obshow", group=VBG)
color obdncs = input.color(color.new(#f23645, 90), "", inline="obshow", group=VBG)
bool obshowactivity = input.bool(true, "Show Buy/Sell Activity", inline="act", group=VBG, tooltip=OBT)
color obactup = input.color(color.new(#089981, 50), "", inline="act", group=VBG)
color obactdn = input.color(color.new(#f23645, 50), "", inline="act", group=VBG)
obshowbb = input.bool(false, "Show Breakers", inline="bb", group=VBG, tooltip="Display Breakers")
color bbup = input.color(color.new(#089981, 100), "", inline="bb", group=VBG)
color bbdn = input.color(color.new(#f23645, 100), "", inline="bb", group=VBG)
obmode = input.string("Length", "Construction", options= , tooltip=OBMT, inline="atr", group=VBG)
len = input.int(5, "", inline="atr", group=VBG, minval=1)
obmiti = input.string("Close", "Mitigation Method", options= ,
tooltip="Mitigation method for when to trigger order blocks", group=VBG)
obtxt = input.string("Normal", "Metric Size", options= ,
tooltip="Order block Metrics text size", inline="txt", group=VBG)
showmetric = input.bool(true, "Show Metrics", group=VBG)
showline = input.bool(true, "Show Mid-Line", group=VBG)
overlap = input.bool(true, "Hide Overlap", group=VBG, inline="ov")
wichlap = input.string("Recent", "", options= , inline="ov", group=VBG)
fvg_enable = input.bool(false, "", inline="1", group="FAIR VALUE GAP", tooltip="Display fair value gap")
what_fvg = input.string("FVG", "", inline="1", group="FAIR VALUE GAP", tooltip="Display fair value gap",
options= )
fvg_num = input.int(5, "Show Last", inline="1a", group="FAIR VALUE GAP", tooltip="Number of fvg to show", minval=0)
fvg_upcss = input.color(color.new(#089981, 80), "", inline="1", group="FAIR VALUE GAP")
fvg_dncss = input.color(color.new(#f23645, 80), "", inline="1", group="FAIR VALUE GAP")
fvgbbup = input.color(color.new(#089981, 100), "", inline="1", group="FAIR VALUE GAP")
fvgbbdn = input.color(color.new(#f23645, 100), "", inline="1", group="FAIR VALUE GAP")
fvg_src = input.string("Close", "Mitigation",
inline="3",
group="FAIR VALUE GAP",
tooltip=" Use the close of the body as trigger\n\n Use the extreme point of the body as trigger",
options= )
fvgthresh = input.float(0, "Threshold", tooltip="Filter out non significative FVG", group="FAIR VALUE GAP",
inline="asd", minval=0, maxval=2, step=0.1)
fvgoverlap = input.bool(true, "Hide Overlap", "Hide overlapping FVG", group="FAIR VALUE GAP")
fvgline = input.bool(true, "Show Mid-Line", group="FAIR VALUE GAP")
fvgextend = input.bool(false, "Extend FVG", group="FAIR VALUE GAP")
dispraid = input.bool(false, "Display Raids", inline="raid", group="FAIR VALUE GAP")
//}
_ ='
------------
–––––––––––––––––––––––––– UDT –––––––––––––––––––––––––––
------------ '//{
type hqlzone
box pbx
box ebx
box lbx
label plb
label elb
label lbl
type Zphl
line top
line bottom
label top_label
label bottom_label
bool stopcross
bool sbottomcross
bool itopcross
bool ibottomcross
string txtup
string txtdn
float topy
float bottomy
float topx
float bottomx
float tup
float tdn
int tupx
int tdnx
float itopy
float itopx
float ibottomy
float ibottomx
float uV
float dV
type entered
bool normal = false
bool breaker = false
type store
line ln
label lb
box bx
linefill lf
type structure
int zn
float zz
float bos
float choch
int loc
int temp
int trend
int start
float main
int xloc
bool upsweep
bool dnsweep
string txt = na
type drawms
int x1
int x2
float y
string txt
color css
string style
type ob
bool bull
float top
float btm
float avg
int loc
color css
float vol
int dir
int move
int blPOS
int brPOS
int xlocbl
int xlocbr
bool isbb = false
int bbloc
type FVG
float top = na
float btm = na
int loc = bar_index
bool isbb = false
int bbloc = na
bool israid = false
float raidy = na
int raidloc = na
int raidx2 = na
bool active = false
color raidcs = na
type SFP
float y
int loc
float ancor
type sfpbuildlbl
int x
float y
string style
color css
string txt
type sfpbuildline
int x1
int x2
float y
color css
float ancor
int loc
type equalbuild
int x1
float y1
int x2
float y2
color css
string style
type equalname
int x
float y
string txt
color css
string style
type ehl
float pt
int t
float pb
int b
type sellbuyside
float top
float btm
int loc
color css
string txt
float vol
type timer
bool start = false
int count = 0
//}
_ ='
------------
–––––––––––––––––––––––––– SETUP –––––––––––––––––––––––––––
------------ '//{
var store bin = store.new(
array.new< line >()
, array.new< label >()
, array.new< box >()
, array.new()
)
var entered blobenter = entered.new()
var entered brobenter = entered.new()
var entered blfvgenter = entered.new()
var entered brfvgenter = entered.new()
var entered blarea = entered.new()
var entered brarea = entered.new()
var timer lc = timer.new ()
if barstate.islast
for obj in bin.ln
obj.delete()
for obj in bin.lb
obj.delete()
for obj in bin.bx
obj.delete()
for obj in bin.lf
obj.delete()
bin.ln.clear()
bin.lb.clear()
bin.bx.clear()
bin.lf.clear()
invcol = #ffffff00
float atr = (ta.atr(200) / (5/len))
//}
_ ='
------------
–––––––––––––––––––––––––– UTILITY –––––––––––––––––––––––––––
------------ '//{
method txSz(string s) =>
out = switch s
"Tiny" => size.tiny
"Small" => size.small
"Normal" => size.normal
"Large" => size.large
"Huge" => size.huge
"Auto" => size.auto
out
method lstyle(string style) =>
out = switch style
'⎯⎯⎯⎯' => line.style_solid
'----' => line.style_dashed
'····' => line.style_dotted
ghl() => [high , low , close , open , close, open, high, low, high , low , ta.atr(200)]
method IDMIDX(bool use_max, int loc) =>
min = 99999999.
max = 0.
idx = 0
if use_max
for i = 0 to (bar_index - loc)
max := math.max(high , max)
min := max == high ? low : min
idx := max == high ? i : idx
else
for i = 0 to (bar_index - loc)
min := math.min(low , min)
max := min == low ? high : max
idx := min == low ? i : idx
idx
SFPData() => [high, high , high , low, low , low , close, volume, time, bar_index , time ]
SFPcords() =>
RealTF = barstate.isrealtime ? 0 : 1
= SFPData()
[h , h1 , h2 , l , l1 , l2 , c , v , t , n , t1 ]
method find(structure ms, bool use_max, bool sweep, bool useob) =>
min = 99999999.
max = 0.
idx = 0
if not sweep
if ((bar_index - ms.loc) - 1) > 0
if use_max
for i = 0 to (bar_index - ms.loc) - 1
max := math.max(high , max)
min := max == high ? low : min
idx := max == high ? i : idx
if useob
if high > high
max := high
min := low
idx := idx + 1
else
for i = 0 to (bar_index - ms.loc) - 1
min := math.min(low , min)
max := min == low ? high : max
idx := min == low ? i : idx
if useob
if low < low
max := high
min := low
idx := idx + 1
else
if use_max
for i = 0 to (bar_index - ms.loc)
max := math.max(high , max)
min := max == high ? low : min
idx := max == high ? i : idx
if useob
if high > high
max := high
min := low
idx := idx + 1
else
for i = 0 to (bar_index - ms.loc)
min := math.min(low , min)
max := min == low ? high : max
idx := min == low ? i : idx
if useob
if low < low
max := high
min := low
idx := idx + 1
else
if ((bar_index - ms.xloc) - 1) > 0
if use_max
for i = 0 to (bar_index - ms.xloc) - 1
max := math.max(high , max)
min := max == high ? low : min
idx := max == high ? i : idx
if useob
if high > high
max := high
min := low
idx := idx + 1
else
for i = 0 to (bar_index - ms.xloc) - 1
min := math.min(low , min)
max := min == low ? high : max
idx := min == low ? i : idx
if useob
if low < low
max := high
min := low
idx := idx + 1
else
if use_max
for i = 0 to (bar_index - ms.xloc)
max := math.max(high , max)
min := max == high ? low : min
idx := max == high ? i : idx
if useob
if high > high
max := high
min := low
idx := idx + 1
else
for i = 0 to (bar_index - ms.xloc)
min := math.min(low , min)
max := min == low ? high : max
idx := min == low ? i : idx
if useob
if low < low
max := high
min := low
idx := idx + 1
idx
method fnOB(ob block, bool bull, float cords, int idx) =>
switch bull
true =>
blobenter.normal := false
blobenter.breaker := false
block.unshift(
ob.new(
true
, cords
, low
, math.avg(cords, low )
, time
, obupcs
, volume
, close > open ? 1 : -1
, 1
, 1
, 1
, time
)
)
false =>
brobenter.normal := false
brobenter.breaker := false
block.unshift(
ob.new(
false
, high
, cords
, math.avg(cords, high )
, time
, obdncs
, volume
, close > open ? 1 : -1
, 1
, 1
, 1
, time
)
)
method mitigated(ob block) =>
if barstate.isconfirmed
for in block
if not stuff.isbb
switch stuff.bull
true =>
if obmiti == "Close" ? math.min(close, open) < stuff.btm : obmiti == "Wick" ? low < stuff.btm : obmiti == "Avg" ? low < stuff.avg : na
stuff.isbb := true
stuff.bbloc := time
if not obshowbb
block.remove(i)
false =>
if obmiti == "Close" ? math.max(close, open) > stuff.top : obmiti == "Wick" ? high > stuff.top : obmiti == "Avg" ? high > stuff.avg : na
stuff.isbb := true
stuff.bbloc := time
if not obshowbb
block.remove(i)
else
switch stuff.bull
true =>
if obmiti == "Close" ? math.max(close, open) > stuff.top : obmiti == "Wick" ? high > stuff.top : obmiti == "Avg" ? high > stuff.avg : na
block.remove(i)
false =>
if obmiti == "Close" ? math.min(close, open) < stuff.btm : obmiti == "Wick" ? low < stuff.btm : obmiti == "Avg" ? low < stuff.avg : na
block.remove(i)
overlap(ob bull, ob bear) =>
if bull.size() > 1
for i = bull.size() - 1 to 1
stuff = bull.get(i)
current = bull.get(0)
v = wichlap == "Recent" ? i : 0
switch
stuff.btm > current.btm and stuff.btm < current.top => bull.remove(v)
stuff.top < current.top and stuff.btm > current.btm => bull.remove(v)
stuff.top > current.top and stuff.btm < current.btm => bull.remove(v)
stuff.top < current.top and stuff.top > current.btm => bull.remove(v)
if bear.size() > 1
for i = bear.size() - 1 to 1
stuff = bear.get(i)
current = bear.get(0)
v = wichlap == "Recent" ? i : 0
switch
stuff.btm > current.btm and stuff.btm < current.top => bear.remove(v)
stuff.top < current.top and stuff.btm > current.btm => bear.remove(v)
stuff.top > current.top and stuff.btm < current.btm => bear.remove(v)
stuff.top < current.top and stuff.top > current.btm => bear.remove(v)
if bull.size() > 0 and bear.size() > 0
for i = bull.size() - 1 to 0
stuff = bull.get(i)
current = bear.get(0)
v = wichlap == "Recent" ? 0 : i
switch
stuff.btm > current.btm and stuff.btm < current.top => bull.remove(v)
stuff.top < current.top and stuff.btm > current.btm => bull.remove(v)
stuff.top > current.top and stuff.btm < current.btm => bull.remove(v)
stuff.top < current.top and stuff.top > current.btm => bull.remove(v)
if bull.size() > 0 and bear.size() > 0
for i = bear.size() - 1 to 0
stuff = bear.get(i)
current = bull.get(0)
v = wichlap == "Recent" ? 0 : i
switch
stuff.btm > current.btm and stuff.btm < current.top => bear.remove(v)
stuff.top < current.top and stuff.btm > current.btm => bear.remove(v)
stuff.top > current.top and stuff.btm < current.btm => bear.remove(v)
stuff.top < current.top and stuff.top > current.btm => bear.remove(v)
overlapFVG(FVG blFVG, FVG brFVG) =>
if blFVG.size() > 1
for i = blFVG.size() - 1 to 1
stuff = blFVG.get(i)
current = blFVG.get(0)
switch
stuff.btm > current.btm and stuff.btm < current.top => blFVG.remove(i)
stuff.top < current.top and stuff.btm > current.btm => blFVG.remove(i)
stuff.top > current.top and stuff.btm < current.btm => blFVG.remove(i)
stuff.top < current.top and stuff.top > current.btm => blFVG.remove(i)
if brFVG.size() > 1
for i = brFVG.size() - 1 to 1
stuff = brFVG.get(i)
current = brFVG.get(0)
switch
stuff.btm > current.btm and stuff.btm < current.top => brFVG.remove(i)
stuff.top < current.top and stuff.btm > current.btm => brFVG.remove(i)
stuff.top > current.top and stuff.btm < current.btm => brFVG.remove(i)
stuff.top < current.top and stuff.top > current.btm => brFVG.remove(i)
if blFVG.size() > 0 and brFVG.size() > 0
for i = blFVG.size() - 1 to 0
stuff = blFVG.get(i)
current = brFVG.get(0)
switch
stuff.btm > current.btm and stuff.btm < current.top => blFVG.remove(i)
stuff.top < current.top and stuff.btm > current.btm => blFVG.remove(i)
stuff.top > current.top and stuff.btm < current.btm => blFVG.remove(i)
stuff.top < current.top and stuff.top > current.btm => blFVG.remove(i)
if blFVG.size() > 0 and brFVG.size() > 0
for i = brFVG.size() - 1 to 0
stuff = brFVG.get(i)
current = blFVG.get(0)
switch
stuff.btm > current.btm and stuff.btm < current.top => brFVG.remove(i)
stuff.top < current.top and stuff.btm > current.btm => brFVG.remove(i)
stuff.top > current.top and stuff.btm < current.btm => brFVG.remove(i)
stuff.top < current.top and stuff.top > current.btm => brFVG.remove(i)
method umt(ob metric) =>
switch metric.dir
1 =>
switch metric.move
1 => metric.blPOS := metric.blPOS + 1, metric.move := 2
2 => metric.blPOS := metric.blPOS + 1, metric.move := 3
3 => metric.brPOS := metric.brPOS + 1, metric.move := 1
-1 =>
switch metric.move
1 => metric.brPOS := metric.brPOS + 1, metric.move := 2
2 => metric.brPOS := metric.brPOS + 1, metric.move := 3
3 => metric.blPOS := metric.blPOS + 1, metric.move := 1
if (time - time ) == (time - time )
metric.xlocbl := metric.loc + (time - time ) * metric.blPOS
metric.xlocbr := metric.loc + (time - time ) * metric.brPOS
method display(ob id, ob full, int i) =>
if not id.isbb
bin.bx.unshift(box.new (top = id.top, bottom = id.btm, left = id.loc, right = time , border_color = na , bgcolor = id.css, xloc = xloc.bar_time))
bin.bx.unshift(box.new (top = id.top, bottom = id.btm, left = time , right = time + 1 , border_color = na , bgcolor = id.css, xloc = xloc.bar_time, extend = extend.right))
else
bin.bx.unshift(box.new (top = id.top, bottom = id.btm, left = id.loc , right = id.bbloc , border_color = na , bgcolor = id.css , xloc = xloc.bar_time))
bin.bx.unshift(box.new (top = id.top, bottom = id.btm, left = id.bbloc , right = time , border_color = id.css , bgcolor = id.bull ? bbup : bbdn , xloc = xloc.bar_time, border_width = 2))
bin.bx.unshift(box.new (top = id.top, bottom = id.btm, left = time , right = time + 1 , border_color = id.css , bgcolor = id.bull ? bbup : bbdn , xloc = xloc.bar_time, extend = extend.right))
if obshowactivity
bin.bx.unshift(box.new (top = id.top, bottom = id.avg, left = id.loc , right = id.xlocbl, border_color = na , bgcolor = obactup, xloc = xloc.bar_time))
bin.bx.unshift(box.new (top = id.avg, bottom = id.btm, left = id.loc , right = id.xlocbr, border_color = na , bgcolor = obactdn, xloc = xloc.bar_time))
if showline
bin.ln.unshift(line.new(
x1 = id.loc
, x2 = time
, y1 = id.avg
, y2 = id.avg
, color = color.new(id.css, 0)
, xloc = xloc.bar_time
, style = line.style_dashed
)
)
if showmetric
if i == math.min(oblast - 1, full.size() - 1)
float tV = 0
float dV = array.new()
seq = math.min(oblast - 1, full.size() - 1)
for j = 0 to seq
cV = full.get(j)
tV += cV.vol
if j == seq
for y = 0 to seq
dV.push(
math.floor(
(full.get(y).vol / tV) * 100)
)
ids = full.get(y)
bin.lb.unshift(label.new(
bar_index - 1
, ids.avg
, textcolor = color.new(ids.css, 0)
, style = label.style_label_left
, size = obtxt.txSz()
, color = #ffffff00
, text =
str.tostring(
math.round(full.get(y).vol, 3), format = format.volume) + " (" + str.tostring(dV.get(y)) + "%)"
)
)
method dispFVG(FVG fvg, int i, bool bull) =>
ext = fvgextend ? extend.right : extend.none
if not fvg.isbb
bin.bx.unshift(box .new(top = fvg.top, bottom = fvg.btm, left = fvg.loc , right = time , border_color = na , bgcolor = bull ? fvg_upcss : fvg_dncss , xloc = xloc.bar_time, extend = ext))
if fvgline
bin.ln.unshift(line.new(x1 = fvg.loc, x2 = time , y1 = math.avg(fvg.top, fvg.btm), y2 = math.avg(fvg.top, fvg.btm), xloc = xloc.bar_time, color = color.new(bull ? fvg_upcss : fvg_dncss, 0) , extend = ext))
if dispraid
bin.ln.unshift(line.new(x1 = fvg.raidloc, x2 = fvg.raidx2, y1 = fvg.raidy, y2 = fvg.raidy, xloc = xloc.bar_time, color = fvg.raidcs))
bin.lb.unshift(label.new(x = int(math.avg(fvg.raidloc, fvg.raidx2)), y = fvg.raidy, text = "x", xloc = xloc.bar_time, textcolor = fvg.raidcs, style = bull ? label.style_label_up : label.style_label_down, size = size.small, color = #ffffff00))
else
bin.bx.unshift(box .new(top = fvg.top , bottom = fvg.btm, left = fvg.loc , right = fvg.bbloc , border_color = na , bgcolor = bull ? fvg_upcss : fvg_dncss, xloc = xloc.bar_time))
bin.bx.unshift(box .new(top = fvg.top , bottom = fvg.btm, left = fvg.bbloc , right = time , border_color = bull ? fvg_dncss : fvg_upcss , bgcolor = bull ? fvg_dncss : fvg_upcss, xloc = xloc.bar_time, extend = ext))
if fvgline
bin.ln.unshift(line.new(x1 = fvg.loc , x2 = fvg.bbloc , y1 = math.avg(fvg.top, fvg.btm), y2 = math.avg(fvg.top, fvg.btm), color = color.new(bull ? fvg_upcss : fvg_dncss, 0) , xloc = xloc.bar_time))
bin.ln.unshift(line.new(x1 = fvg.bbloc, x2 = time , y1 = math.avg(fvg.top, fvg.btm), y2 = math.avg(fvg.top, fvg.btm), color = color.new(bull ? fvg_dncss : fvg_upcss, 0) , xloc = xloc.bar_time, extend = ext, style = line.style_dashed))
//}
_ ='
------------
–––––––––––––––––––––––––– FUNCTION –––––––––––––––––––––––––––
------------ '//{
mapping() =>
var float up = na
var float dn = na
var float point = na
var int trend = 0
var int idx = na
var int sum = na
var int project = na
var chart.point charts = array.new()
if na(up)
up := high
idx := bar_index
if na(dn)
dn := low
idx := bar_index
if high > up
if trend == -1
id = IDMIDX(false, idx)
charts.unshift(
chart.point.from_time(
time
, low
)
)
idx := bar_index
point := low
sum := time
up := high
dn := low
project := time
trend := 1
if low < dn
if trend == 1
id = IDMIDX(true, idx)
charts.unshift(
chart.point.from_time(
time
, high
)
)
idx := bar_index
point := high
sum := time
up := high
dn := low
project := time
trend := -1
if barstate.islast
var line ln = na
var polyline pl = na
ln.delete()
pl.delete()
ln := na
pl := na
ln := line.new(
x1 = sum
, x2 = project
, y1 = point
, y2 = trend == 1 ? up : dn
, xloc = xloc.bar_time
, color = color.red
)
pl := polyline.new(
charts
, line_color = mappingcss
, xloc = xloc.bar_time
, line_style = mappingStyle.lstyle()
)
dFVG() =>
= ghl()
var FVG blFVG = array.new()
var FVG brFVG = array.new()
bool upfvg = false
bool dnfvg = false
float blth = l1 + (fvatr * fvgthresh)
float brth = h1 - (fvatr * fvgthresh)
cc = timeframe.change()
switch
what_fvg == "FVG" or what_fvg == "Breakers" =>
if l > h2 and cc and c1 > blth
upfvg := true
if l2 > h and cc and c1 < brth
dnfvg := true
if upfvg
if blFVG.size() > 0
fvg = blFVG.get(0)
if fvg.israid == true and fvg.active == false
fvg.active := true
fvg.raidloc := na
fvg.raidx2 := na
fvg.raidy := na
fvg.raidcs := #ffffff00
blFVG.unshift(
FVG.new(
l
, h2
, time
, false
, na
)
)
if dnfvg
if brFVG.size() > 0
fvg = brFVG.get(0)
if fvg.israid == true and fvg.active == false
fvg = brFVG.get(0)
fvg.active := true
fvg.active := true
fvg.raidloc := na
fvg.raidx2 := na
fvg.raidy := na
fvg.raidcs := #ffffff00
brFVG.unshift(
FVG.new(
l2
, h
, time
, false
, na
)
)
if blFVG.size() > 0
for in blFVG
if not fvg.isbb
if fvg_src == "Close" ? math.min(c, o) < fvg.btm : fvg_src == "Wick" ? l < fvg.btm : fvg_src == "Avg" ? l < math.avg(fvg.top, fvg.btm) : na
fvg.isbb := true
fvg.bbloc := time
if what_fvg == "FVG"
blFVG.remove(i)
else
if (fvg_src == "Close" ? math.max(c, o) > fvg.top : fvg_src == "Wick" ? h > fvg.top : fvg_src == "Avg" ? h > math.avg(fvg.top, fvg.btm) : na) and what_fvg == "Breakers"
blFVG.remove(i)
if brFVG.size() > 0
for in brFVG
if not fvg.isbb
if (fvg_src == "Close" ? math.max(c, o) > fvg.top : fvg_src == "Wick" ? h > fvg.top : fvg_src == "Avg" ? h > math.avg(fvg.top, fvg.btm) : na)
fvg.isbb := true
fvg.bbloc := time
if what_fvg == "FVG"
brFVG.remove(i)
else
if (fvg_src == "Close" ? math.min(c, o) < fvg.btm : fvg_src == "Wick" ? l < fvg.btm : fvg_src == "Avg" ? l < math.avg(fvg.top, fvg.btm) : na) and what_fvg == "Breakers"
brFVG.remove(i)
if fvgoverlap
overlapFVG(blFVG, brFVG)
if dispraid
for in blFVG
if not fvg.israid and not fvg.isbb
if low < fvg.top and close > fvg.top
fvg.israid := true
fvg.raidloc := time
fvg.raidx2 := time
fvg.raidy := low
fvg.raidcs := chart.fg_color
else
if low <= fvg.raidy and fvg.active == false and not fvg.isbb
fvg.active := true
fvg.raidx2 := time
else
if fvg.active == false and not fvg.isbb
fvg.raidx2 := time
for in brFVG
if not fvg.israid and not fvg.isbb
if high > fvg.btm and close < fvg.btm and not fvg.isbb
fvg.israid := true
fvg.raidloc := time
fvg.raidy := high
fvg.raidx2 := time
fvg.raidcs := chart.fg_color
else
if high >= fvg.raidy and fvg.active == false and not fvg.isbb
fvg.active := true
fvg.raidx2 := time
else
if fvg.active == false and not fvg.isbb
fvg.raidx2 := time
if barstate.islast
if blFVG.size() > 0 and fvg_num > 0
for i = 0 to math.min(fvg_num - 1, blFVG.size() - 1)
fvg = blFVG.get(i)
dispFVG(fvg, i, true)
if brFVG.size() > 0 and fvg_num > 0
for i = 0 to math.min(fvg_num - 1, brFVG.size() - 1)
fvg = brFVG.get(i)
dispFVG(fvg, i, false)
structure(color upcss, color dncss, bool draw, bool internal, int limit) =>
var structure ms = structure.new(start = 0)
var ob blob = array.new< ob >()
var ob brob = array.new< ob >()
var drawms bldw = array.new< drawms >()
var drawms brdw = array.new< drawms >()
var sellbuyside sellside = array.new()
var sellbuyside buyside = array.new()
bool crossup = false
bool crossdn = false
var float up = na
var float dn = na
idbull = ms.find(false, false, true)
idbear = ms.find(true , false, true)
btmP = obmode == "Length" ? (high - 1 * atr ) < low ? low : (high - 1 * atr ) : low
topP = obmode == "Length" ? (low + 1 * atr ) > high ? high : (low + 1 * atr ) : high
atr = ta.atr (200)
buy = low + atr
sel = high - atr
ph = ta.pivothigh(high, mslen, mslen)
pl = ta.pivotlow (low , mslen, mslen)
var int phn = array.new< int >(1, na)
var int pln = array.new< int >(1, na)
var float php = array.new(1, na)
var float plp = array.new(1, na)
if internal
blob.clear()
brob.clear()
if ph
phn.unshift(bar_index )
php.unshift(high )
if pl
pln.unshift(bar_index )
plp.unshift(low )
if php.size() > 0
if high > php.get(0)
php.clear()
phn.clear()
if plp.size() > 0
if low < plp.get(0)
plp.clear()
pln.clear()
if na(up)
up := high
if na(dn)
dn := low
if high > up
up := high
dn := low
crossup := true
if low < dn
up := high
dn := low
crossdn := true
if ms.start == 0
ms := structure.new(bar_index, na, high, low , bar_index, bar_index, 0, 1, na, bar_index)
if draw
bldw.unshift(drawms.new(time, time, high , "CHoCH" , upcss, line.style_dashed))
brdw.unshift(drawms.new(time, time, low , "CHoCH" , dncss, line.style_dashed))
ms.upsweep := false
ms.dnsweep := false
if ms.start == 1
switch
low <= ms.choch and close >= ms.choch and buildsweep =>
ms.dnsweep := true
ms.choch := low
ms.xloc := bar_index
if draw
dw = brdw.get(0)
dw.x2 := time
dw.style := line.style_dotted
dw.txt := "x"
brdw.unshift(
drawms.new(
time
, time
, low
, "CHoCH"
, dncss
, line.style_dashed
)
)
high >= ms.bos and close <= ms.bos and buildsweep =>
ms.upsweep := true
ms.bos := high
ms.xloc := bar_index
if draw
dw = bldw.get(0)
dw.x2 := time
dw.style := line.style_dotted
dw.txt := "x"
bldw.unshift(
drawms.new(
time
, time
, high
, "CHoCH"
, upcss
, line.style_dashed
)
)
close <= ms.choch =>
ms.txt := "choch"
lc.start := true
lc.count := 0
blob.fnOB(true, topP, idbull)
ms.trend := -1
ms.choch := ms.bos
ms.bos := na
ms.start := 2
ms.loc := bar_index
ms.main := low
ms.temp := ms.loc
ms.xloc := bar_index
if draw
dw = brdw.get(0)
dw.x2 := time
dw.style := internal ? line.style_dashed : line.style_solid
close >= ms.bos =>
ms.txt := "choch"
lc.start := true
lc.count := 0
brob.fnOB(false, btmP, idbear)
ms.trend := 1
ms.choch := ms.choch
ms.bos := na
ms.start := 2
ms.loc := bar_index
ms.main := high
ms.temp := ms.loc
ms.xloc := bar_index
if draw
dw = bldw.get(0)
dw.x2 := time
dw.style := internal ? line.style_dashed : line.style_solid
if ms.start == 2
switch ms.trend
-1 =>
if low <= ms.main
ms.main := low
ms.temp := bar_index
if bar_index % mslen * 2 == 0
if not na(ms.bos) and msmode == "Adjusted Points" and php.size() > 0
if php.get(0) < ms.choch
// ms.xloc := phn.get(0)
ms.choch := php.get(0)
ms.loc := phn.get(0)
ms.xloc := phn.get(0)
ms.temp := phn.get(0)
if draw
choch = bldw.get(0)
choch.x1 := time
choch.x2 := time
choch.y := php.get(0)
if na(ms.bos)
if crossup and close > open and close > open
ms.bos := ms.main
ms.loc := ms.temp
ms.xloc := ms.loc
if draw
brdw.unshift(
drawms.new(
time
, time
, low
, "BOS"
, dncss
, line.style_dashed
)
)
if not na(ms.bos) and draw
dw = brdw.get(0)
dw.x2 := time
if draw
choch = bldw.get(0)
choch.x2 := time
switch
low <= ms.bos and close >= ms.bos and not na(ms.bos) and buildsweep =>
ms.dnsweep := true
ms.bos := low
if draw
dw = brdw.get(0)
dw.x2 := time
dw.style := line.style_dotted
dw.txt := "x"
brdw.unshift(
drawms.new(
time
, time
, low
, "BOS"
, dncss
, line.style_dashed
)
)
ms.xloc := bar_index
close <= ms.bos and not na(ms.bos) =>
ms.txt := "bos"
ms.zz := ms.bos
ms.zn := bar_index
lc.start := true
lc.count := 0
brob.fnOB(false, btmP, idbear)
id = ms.find(true, false, false)
ms.xloc := bar_index
ms.bos := na
ms.choch := high
ms.loc := bar_index
if draw
dw = brdw.get(0)
dw.x2 := time
dw.style := internal ? line.style_dashed : line.style_solid
choch = bldw.get(0)
choch.x1 := time
choch.x2 := time
choch.y := high
switch
high >= ms.choch and close <= ms.choch and buildsweep =>
ms.upsweep := true
ms.choch := high
ms.xloc := bar_index
if draw
dw = bldw.get(0)
dw.x2 := time
dw.style := line.style_dotted
dw.txt := "x"
bldw.unshift(
drawms.new(
time
, time
, high
, "CHoCH"
, upcss
, line.style_dashed
)
)
close >= ms.choch =>
ms.txt := "choch"
ms.zz := ms.choch
ms.zn := bar_index
lc.start := true
lc.count := 0
blob.fnOB(true, topP, idbull)
id = ms.find(false, false, false)
switch
na(ms.bos) =>
ms.choch := low
if draw
brdw.unshift(
drawms.new(
time
, time
, low
, "BOS"
, dncss
, line.style_dashed
)
)
choch = brdw.get(0)
choch.x1 := time
=> ms.choch := ms.bos//low < low ? low : low
ms.bos := na
ms.main := high
ms.trend := 1
ms.loc := bar_index
ms.xloc := bar_index
ms.temp := ms.loc
if draw
dw = bldw.get(0)
dw.x2 := time
dw.txt := "CHoCH"
dw.style := internal ? line.style_dashed : line.style_solid
choch = brdw.get(0)
choch.x2 := time
choch.y := ms.choch
choch.txt := "CHoCH"
ms.xloc := bar_index
blarea.normal := false
1 =>
if high >= ms.main
ms.main := high
ms.temp := bar_index
if na(ms.bos)
if crossdn and close < open and close < open
ms.bos := ms.main
ms.loc := ms.temp
ms.xloc := ms.loc
if draw
bldw.unshift(
drawms.new(
time
, time
, high
, "BOS"
, upcss
, line.style_dashed
)
)
if bar_index % mslen * 2 == 0
if not na(ms.bos) and msmode == "Adjusted Points" and plp.size() > 0
if plp.get(0) > ms.choch
// ms.xloc := pln.get(0)
ms.choch := plp.get(0)
ms.loc := pln.get(0)
ms.xloc := pln.get(0)
ms.temp := pln.get(0)
// ms.loc := pln.get(0)
if draw
choch = brdw.get(0)
choch.x1 := time
choch.x2 := time
choch.y := plp.get(0)
if not na(ms.bos) and draw
dw = bldw.get(0)
dw.x2 := time
if draw
choch = brdw.get(0)
choch.x2 := time
switch
high >= ms.bos and close <= ms.bos and not na(ms.bos) and buildsweep =>
ms.upsweep := true
ms.bos := high
if draw
dw = bldw.get(0)
dw.x2 := time
dw.style := line.style_dotted
dw.txt := "x"
bldw.unshift(
drawms.new(
time
, time
, high
, "BOS"
, upcss
, line.style_dashed
)
)
ms.xloc := bar_index
close >= ms.bos and not na(ms.bos) =>
ms.txt := "bos"
ms.zz := ms.bos
ms.zn := bar_index
lc.start := true
lc.count := 0
blob.fnOB(true, topP, idbull)
id = ms.find(false, false, false)
ms.xloc := bar_index
ms.bos := na
ms.choch := low
ms.loc := bar_index
if draw
dw = bldw.get(0)
dw.x2 := time
dw.style := internal ? line.style_dashed : line.style_solid
choch = brdw.get(0)
choch.x1 := time
choch.x2 := time
choch.y := low
switch
low <= ms.choch and close >= ms.choch and buildsweep =>
ms.dnsweep := true
ms.choch := low
ms.xloc := bar_index
if draw
dw = brdw.get(0)
dw.x2 := time
dw.style := line.style_dotted
dw.txt := "x"
brdw.unshift(
drawms.new(
time
, time
, low
, "CHoCH"
, dncss
, line.style_dashed
)
)
close <= ms.choch =>
ms.txt := "choch"
ms.zz := ms.choch
ms.zn := bar_index
lc.start := true
lc.count := 0
brob.fnOB(false, btmP, idbear)
id = ms.find(true, false, false)
switch
na(ms.bos) =>
ms.choch := high
if draw
bldw.unshift(
drawms.new(
time
, time
, high
, "BOS"
, upcss
, line.style_dashed
)
)
choch = bldw.get(0)
choch.x1 := time
=> ms.choch := ms.bos//high > high ? high : high
ms.bos := na
ms.main := low
ms.trend := -1
ms.loc := bar_index
ms.temp := ms.loc
if draw
dw = brdw.get(0)
dw.x2 := time
dw.txt := "CHoCH"
dw.style := internal ? line.style_dashed : line.style_solid
choch = bldw.get(0)
choch.y := ms.choch
choch.x2 := time
choch.txt := "CHoCH"
ms.xloc := bar_index
if blob.size() > 0
ob = blob.get(0)
if not ob.isbb
if low < ob.top
if blobenter.normal == false
blobenter.normal := true
else
if high > ob.btm
if blobenter.breaker == false
blobenter.breaker := true
if brob.size() > 0
ob = brob.get(0)
if not ob.isbb
if high > ob.btm
if brobenter.normal == false
brobenter.normal := true
else
if low < ob.top
if brobenter.breaker == false
brobenter.breaker := true
if obshow and oblast > 0
if barstate.isconfirmed
blob.mitigated()
brob.mitigated()
if overlap
overlap(blob, brob)
if blob.size() > 0
for in blob
metric.umt()
if brob.size() > 0
for in brob
metric.umt()
if barstate.islast
if blob.size() > 0
for i = 0 to math.min(oblast - 1, blob.size() - 1)
obs = blob.get(i)
display(obs, blob, i)
if brob.size() > 0
for i = 0 to math.min(oblast - 1, brob.size() - 1)
obs = brob.get(i)
display(obs, brob, i)
if barstate.islast and draw and bldw.size() > 0 and brdw.size() > 0
for i = 0 to bldw.size() - 1
obj = bldw.get(i)
if i <= limit
bin.ln.unshift(
line.new(
x1 = obj.x1
, x2 = obj.x2
, y1 = obj.y
, y2 = obj.y
, color = obj.css
, style = obj.style
, xloc = xloc.bar_time
)
)
bin.lb.unshift(
label.new(
x = int(math.avg(bin.ln.get(0).get_x1(), bin.ln.get(0).get_x2()))
, y = obj.y
, xloc = xloc.bar_time
, color = #ffffff00
, style = label.style_label_down
, textcolor = obj.css
, size = mstext.txSz()
, text = obj.txt
)
)
if msbubble
bin.lb.unshift(
label.new(
x = obj.x1
, y = obj.y
, xloc = xloc.bar_time
, color = color.new(obj.css, 80)
, style = label.style_circle
, size = size.tiny
)
)
for i = 0 to brdw.size() - 1
obj = brdw.get(i)
if i <= limit
bin.ln.unshift(
line.new(
x1 = obj.x1
, x2 = obj.x2
, y1 = obj.y
, y2 = obj.y
, color = obj.css
, style = obj.style
, xloc = xloc.bar_time
)
)
bin.lb.unshift(
label.new(
x = int(math.avg(bin.ln.get(0).get_x1(), bin.ln.get(0).get_x2()))
, y = obj.y
, xloc = xloc.bar_time
, color = #ffffff00
, style = label.style_label_up
, textcolor = obj.css
, size = mstext.txSz()
, text = obj.txt
)
)
if msbubble
bin.lb.unshift(
label.new(
x = obj.x1
, y = obj.y
, xloc = xloc.bar_time
, color = color.new(obj.css, 80)
, style = label.style_circle
, size = size.tiny
)
)
ms
//}
_ ='
------------
–––––––––––––––––––––––––– EXECUTION –––––––––––––––––––––––––––
------------ '//{
structure ms = na
if windowsis
if (bar_index > last_bar_index - mswindow)
ms := structure(swingcssup , swingcssdn , showSwing , false, swingLimit)
if windowsis == false
ms := structure(swingcssup , swingcssdn , showSwing , false, swingLimit)
// if showInternal and inZone
// structure ims = structure(interncssup, interncssdn, showInternal, true , swingLimit)
color css = na
method darkcss(color css, float factor) =>
blue = color.b(css) * (1 - factor)
red = color.r(css) * (1 - factor)
green = color.g(css) * (1 - factor)
color.rgb(red, green, blue, 0)
if windowsis ? (bar_index > last_bar_index - mswindow) : true
css := ms.trend == 1 ? swingcssup : swingcssdn
css := (ms.txt == "bos" ? css : css.darkcss(0.3))
barcolor(candlecss ? css : na)
if fvg_enable
dFVG()
if showMapping
mapping()
var phl = Zphl.new(
na
, na
, label.new(na , na , color = invcol , textcolor = swingcssdn , style = label.style_label_down , size = size.tiny , text = "")
, label.new(na , na , color = invcol , textcolor = swingcssup , style = label.style_label_up , size = size.tiny , text = "")
, true
, true
, true
, true
, ""
, ""
, 0
, 0
, 0
, 0
, high
, low
, 0
, 0
, 0
, 0
, 0
, 0
, na
, na
)
EMA + Volume + RSI Buy/Sell Signals//@version=5
indicator("EMA + Volume + RSI Buy/Sell Signals", overlay=true)
// === Inputs ===
ema20 = ta.ema(close, 20)
ema50 = ta.ema(close, 50)
ema200 = ta.ema(close, 200)
rsi = ta.rsi(close, 14)
// === Conditions ===
// Price % change from yesterday
priceChange = (close - close ) / close * 100
// Volume condition
volCondition = volume > 1.5 * volume
// RSI
rsiOverbought = rsi > 70
rsiOversold = rsi < 30
// Price move conditions
priceUp5 = priceChange > 5
priceDown5 = priceChange < -5
// === Buy & Sell Conditions ===
buySignal = close > ema20 and close > ema50 and close > ema200 and priceUp5 and volCondition and rsiOversold
sellSignal = close < ema20 and close < ema50 and close < ema200 and priceDown5 and volCondition and rsiOverbought
// === Plot EMAs ===
plot(ema20, color=color.yellow, title="EMA 20")
plot(ema50, color=color.blue, title="EMA 50")
plot(ema200, color=color.red, title="EMA 200")
// === Plot Signals on Chart ===
plotshape(buySignal, title="BUY Signal", style=shape.labelup, color=color.green, text="BUY", location=location.belowbar, size=size.normal)
plotshape(sellSignal, title="SELL Signal", style=shape.labeldown, color=color.red, text="SELL", location=location.abovebar, size=size.normal)
// === Background Highlight for Visuals ===
bgcolor(buySignal ? color.new(color.green, 85) : na)
bgcolor(sellSignal ? color.new(color.red, 85) : na)
Signal Core Basic [NevoxCore]⯁ OVERVIEW
Signal Core Basic is a clean and functional ATR-based trailing stop with BUY/SELL signals.
It modernizes the classic "UT-style" concept with adaptive sensitivity, multi-source inputs (Close, Heikin-Ashi, ZLEMA, KAMA), and compact visuals.
The tool is designed for traders who want a clear, minimal, and reliable base indicator without repainting issues.
⯁ HOW IT WORKS
Calculates an ATR-based trailing stop (nLoss = Key × ATR).
Adaptive mode scales sensitivity depending on trend strength (trend/range detection).
Trailing stop flips when price crosses from one regime to the other.
BUY/SELL signals trigger only when confirmed and not blocked by cooldown.
Label ring-buffer ensures chart stays clean (max 50 labels).
Bar coloring optional (solid), auto-disabled when classic red/green colors are enabled.
⯁ KEY FEATURES
ATR-based trailing stop with adjustable sensitivity.
Adaptive key (trend/range aware).
Multiple compute sources: Close, Heikin-Ashi, ZLEMA, KAMA.
Global confirm-on-close switch (no repaint).
Early-flip protection (cooldown).
Compact BUY/SELL labels with auto-cleanup (max 50).
Optional solid bar coloring.
Alerts with ticker, timeframe, and price included.
⯁ SETTINGS (quick overview)
Visual: Classic Colors, Show Labels, Plot Trailing Stop, Barcolor ON/OFF.
Source & Sensitivity: Key Value, ATR Length, Compute Source.
Advanced: Adaptive Key toggle with min/max bounds.
Global: Confirm on bar close.
Extras: Cooldown protection (bars).
⯁ ALERTS (built-in)
Basic Long: BUY signal.
Basic Short: SELL signal.
Each alert includes {{ticker}} {{interval}} @ {{close}}.
⯁ HOW TO USE
Use as a trailing stop and regime filter.
Combine BUY/SELL signals with your strategy rules.
Enable cooldown for cleaner signals in choppy markets.
Try ZLEMA or Heikin-Ashi as compute source for smoother performance.
⯁ WHY IT’S DIFFERENT
Unlike generic UT-style scripts, Signal Core Basic adds adaptive sensitivity, multiple input sources, and strict non-repaint safety.
The visuals follow NevoxCore’s design standards: compact, minimal, and clean — ready for live trading with alerts.
⯁ DISCLAIMER
Backtest and paper-trade before using live. Not financial advice.
Performance depends on market, timeframe, and parameters.
MGG_FX//@version=5
indicator('MGG_FX', overlay=true, max_bars_back=1000, max_labels_count=500, max_lines_count=500, max_boxes_count=500)
var GRP1 = "ASIAN RANGE"
showLines = input(title='Show Lines', defval=true, group=GRP1)
showBackground = input(title='Show Background', defval=true, group=GRP1)
showMiddleLine = input(title='Show Middle Line', defval=true, group=GRP1)
extendLines = input(title='Extend Line', defval=true, group=GRP1)
rangeTime = input.session(title='Session Time', defval='1700-0100', group=GRP1)
extendTime = input.session(title='Extend Until', defval='0100-0500', group=GRP1)
linesWidth = input.int(1, 'Box And Lines Width', minval=1, maxval=4, group=GRP1)
boxLineColor = input(color.new(#434651,50), 'Box Line Color', group=GRP1)
middleLineColor = input(color.new(#434651,50), 'Middle Line Color', group=GRP1)
backgroundColor = input(color.new(#9598a1,90), 'Box Background Color', group=GRP1)
var GRP5 = "LONDON"
showLines4 = input(title='Show Lines', defval=true, group=GRP5)
showBackground4 = input(title='Show Background', defval=true, group=GRP5)
rangeTime4 = input.session(title='Session Time', defval='0300-0400', group=GRP5)
linesWidth4 = input.int(1, 'Box And Lines Width', minval=1, maxval=4, group=GRP5)
boxLineColor4 = input(color.new(#b2b5be, 95), 'Box Line Color', group=GRP5)
backgroundColor4 = input(color.new(#b2b5be, 90), 'Box Background Color', group=GRP5)
var GRP6 = "NEWYORK"
showLines5 = input(title='Show Lines', defval=true, group=GRP6)
showBackground5 = input(title='Show Background', defval=true, group=GRP6)
rangeTime5 = input.session(title='Session Time', defval='0900-1000', group=GRP6)
linesWidth5 = input.int(1, 'Box And Lines Width', minval=1, maxval=4, group=GRP6)
boxLineColor5 = input(color.new(#b2b5be, 95), 'Box Line Color', group=GRP6)
backgroundColor5 = input(color.new(#b2b5be, 90), 'Box Background Color', group=GRP6)
////////////////////////////////////////////
inSession = not na(time(timeframe.period, rangeTime))
inExtend = not na(time(timeframe.period, extendTime))
startTime = 0
startTime := inSession and not inSession ? time : startTime
//Box lines
var line lowHLine = na
var line topHLine = na
var line leftVLine = na
var line rightVLine = na
var line middleHLine = na
var box bgBox = na
var low_val = 0.0
var high_val = 0.0
if inSession and not inSession
low_val := low
high_val := high
high_val
// Plot lines
if inSession and timeframe.isintraday
if inSession
line.delete(lowHLine)
line.delete(topHLine)
line.delete(leftVLine)
line.delete(rightVLine)
line.delete(middleHLine)
box.delete(bgBox)
if low < low_val
low_val := low
low_val
if high > high_val
high_val := high
high_val
//Create Box
//x1, y1, x2, y2
if showBackground
bgBox := box.new(startTime, high_val, time, low_val, xloc=xloc.bar_time, bgcolor=backgroundColor, border_width=0)
if showLines
lowHLine := line.new(startTime, low_val, time, low_val, xloc=xloc.bar_time, color=boxLineColor, style=line.style_solid, width=linesWidth)
topHLine := line.new(startTime, high_val, time, high_val, xloc=xloc.bar_time, color=boxLineColor, style=line.style_solid, width=linesWidth)
leftVLine := line.new(startTime, high_val, startTime, low_val, xloc=xloc.bar_time, color=boxLineColor, style=line.style_solid, width=linesWidth)
rightVLine := line.new(time, high_val, time, low_val, xloc=xloc.bar_time, color=boxLineColor, style=line.style_solid, width=linesWidth)
//Create Middle line
if showMiddleLine
middleHLine := line.new(startTime, (high_val + low_val) / 2, time, (high_val + low_val) / 2, xloc=xloc.bar_time, color=middleLineColor, style=line.style_solid, width=linesWidth)
else
if inExtend and extendLines and not inSession and timeframe.isintraday
time1 = line.get_x1(lowHLine)
time2 = line.get_x2(lowHLine)
price = line.get_y1(lowHLine)
line.delete(lowHLine)
lowHLine := line.new(time1, price, time, price, xloc=xloc.bar_time, color=boxLineColor, style=line.style_solid, width=linesWidth)
time1 := line.get_x1(topHLine)
time2 := line.get_x2(topHLine)
price := line.get_y1(topHLine)
line.delete(topHLine)
topHLine := line.new(time1, price, time, price, xloc=xloc.bar_time, color=boxLineColor, style=line.style_solid, width=linesWidth)
time1 := line.get_x1(middleHLine)
time2 := line.get_x2(middleHLine)
price := line.get_y1(middleHLine)
line.delete(middleHLine)
middleHLine := line.new(time1, price, time, price, xloc=xloc.bar_time, color=middleLineColor, style=line.style_solid, width=linesWidth)
middleHLine
////////////////////////////////////////////
inSession4 = not na(time(timeframe.period, rangeTime4))
startTime4 = 0
startTime4 := inSession4 and not inSession4 ? time : startTime4
//Box lines
var line lowHLine4 = na
var line topHLine4 = na
var line leftVLine4 = na
var line rightVLine4 = na
var line middleHLine4 = na
var box bgBox4 = na
var low_val4 = 0.0
var high_val4 = 0.0
if inSession4 and not inSession4
low_val4 := low
high_val4 := high
high_val4
// Plot lines
if inSession4 and timeframe.isintraday
if inSession4
line.delete(lowHLine4)
line.delete(topHLine4)
line.delete(leftVLine4)
line.delete(rightVLine4)
line.delete(middleHLine4)
box.delete(bgBox4)
if low < low_val4
low_val4 := low
low_val4
if high > high_val4
high_val4 := high
high_val4
//Create Box
//x1, y1, x2, y2
if showBackground4
bgBox4 := box.new(startTime4, high_val4, time, low_val4, xloc=xloc.bar_time, bgcolor=backgroundColor4, border_width=0)
if showLines4
lowHLine4 := line.new(startTime4, low_val4, time, low_val4, xloc=xloc.bar_time, color=boxLineColor4, style=line.style_solid, width=linesWidth4)
topHLine4 := line.new(startTime4, high_val4, time, high_val4, xloc=xloc.bar_time, color=boxLineColor4, style=line.style_solid, width=linesWidth4)
leftVLine4 := line.new(startTime4, high_val4, startTime4, low_val4, xloc=xloc.bar_time, color=boxLineColor4, style=line.style_solid, width=linesWidth4)
rightVLine4 := line.new(time, high_val4, time, low_val4, xloc=xloc.bar_time, color=boxLineColor4, style=line.style_solid, width=linesWidth4)
////////////////////////////////////////////
inSession5 = not na(time(timeframe.period, rangeTime5))
startTime5 = 0
startTime5 := inSession5 and not inSession5 ? time : startTime5
//Box lines
var line lowHLine5 = na
var line topHLine5 = na
var line leftVLine5 = na
var line rightVLine5 = na
var line middleHLine5 = na
var box bgBox5 = na
var low_val5 = 0.0
var high_val5 = 0.0
if inSession5 and not inSession5
low_val5 := low
high_val5 := high
high_val5
// Plot lines
if inSession5 and timeframe.isintraday
if inSession5
line.delete(lowHLine5)
line.delete(topHLine5)
line.delete(leftVLine5)
line.delete(rightVLine5)
line.delete(middleHLine5)
box.delete(bgBox5)
if low < low_val5
low_val5 := low
low_val5
if high > high_val5
high_val5 := high
high_val5
//Create Box
//x1, y1, x2, y2
if showBackground5
bgBox5 := box.new(startTime5, high_val5, time, low_val5, xloc=xloc.bar_time, bgcolor=backgroundColor5, border_width=0)
if showLines5
lowHLine5 := line.new(startTime5, low_val5, time, low_val5, xloc=xloc.bar_time, color=boxLineColor5, style=line.style_solid, width=linesWidth5)
topHLine5 := line.new(startTime5, high_val5, time, high_val5, xloc=xloc.bar_time, color=boxLineColor5, style=line.style_solid, width=linesWidth5)
leftVLine5 := line.new(startTime5, high_val5, startTime5, low_val5, xloc=xloc.bar_time, color=boxLineColor5, style=line.style_solid, width=linesWidth5)
rightVLine5 := line.new(time, high_val5, time, low_val5, xloc=xloc.bar_time, color=boxLineColor5, style=line.style_solid, width=linesWidth5)
///////////////////////////////////////////////
//INPUTS
ffRange = input.session(title='Time: ', defval='0200-0201', inline='a', group='FF')
ffcolor = input.color(color.new(#b2b5be,20),title="Color:",inline="s_1",group="FF")
ffStyle = input.string(title="-", defval=line.style_solid, options= ,inline="s_1",group="FF")
mmm1Range = input.session(title='Time: ', defval='0430-0431', inline='a', group='MMM1')
mmm1color = input.color(color.new(#b2b5be,20),title="Color:",inline="s_1",group="MMM1")
mmm1Style = input.string(title="-", defval=line.style_solid, options= ,inline="s_1",group="MMM1")
mmm2Range = input.session(title='Time: ', defval='0630-0631', inline='a', group='MMM2')
mmm2color = input.color(color.new(#b2b5be,20),title="Color:",inline="s_1",group="MMM2")
mmm2Style = input.string(title="-", defval=line.style_solid, options= ,inline="s_1",group="MMM2")
mmm3Range = input.session(title='Time: ', defval='0800-0801', inline='a', group='MMM3')
mmm3color = input.color(color.new(#b2b5be,20),title="Color:",inline="s_1",group="mmm3")
mmm3Style = input.string(title="-", defval=line.style_solid, options= ,inline="s_1",group="MMM3")
lcRange = input.session(title='Time: ', defval='1100-1101', inline='a', group='LC')
lccolor = input.color(color.new(#b2b5be,20),title="Color:",inline="s_1",group="LC")
lcStyle = input.string(title="-", defval=line.style_solid, options= ,inline="s_1",group="LC")
//Plot lines
in_session_ff = time(timeframe.period, ffRange)
sessionffActive = in_session_ff and timeframe.multiplier <= 240
var line ff = na
if sessionffActive and sessionffActive == false
ff := line.new(bar_index,high+0.001,bar_index,low-0.001,color=ffcolor, style=ffStyle)
in_session_mmm1 = time(timeframe.period, mmm1Range)
sessionmmm1Active = in_session_mmm1 and timeframe.multiplier <= 240
var line mmm1 = na
if sessionmmm1Active and sessionmmm1Active == false
mmm1 := line.new(bar_index,high+0.001,bar_index,low-0.001,color=mmm1color, style=mmm1Style)
in_session_mmm2 = time(timeframe.period, mmm2Range)
sessionmmm2Active = in_session_mmm2 and timeframe.multiplier <= 240
var line mmm2 = na
if sessionmmm2Active and sessionmmm2Active == false
mmm2 := line.new(bar_index,high+0.001,bar_index,low-0.001,color=mmm2color, style=mmm2Style)
in_session_mmm3 = time(timeframe.period, mmm3Range)
sessionmmm3Active = in_session_mmm3 and timeframe.multiplier <= 240
var line mmm3 = na
if sessionmmm3Active and sessionmmm3Active == false
mmm3 := line.new(bar_index,high+0.001,bar_index,low-0.001,color=mmm3color, style=mmm3Style)
in_session_lc = time(timeframe.period, lcRange)
sessionlcActive = in_session_lc and timeframe.multiplier <= 240
var line lc = na
if sessionlcActive and sessionlcActive == false
lc := line.new(bar_index,high+0.001,bar_index,low-0.001,color=lccolor, style=lcStyle)
//////////////////////////////////////////////////////////////////////
// Inputs
var GRP10 = "Daily Open"
daily = input.string(title='View', defval='Daily Open', group=GRP10)
_offset = input.int(0, title='Offset', minval=0, maxval=2)
o_color = input.color(color.new(#000000, 0), "Open Color", inline="1", group = GRP10)
// FUNCTIONS
t = time
isNewbar = not na(t) and (na(t ) or t > t )
tfInMinutes(simple string tf = "") =>
float chartTf =
timeframe.multiplier * (
timeframe.isseconds ? 1. / 60 :
timeframe.isminutes ? 1. :
timeframe.isdaily ? 60. * 24 :
timeframe.isweekly ? 60. * 24 * 7 :
timeframe.ismonthly ? 60. * 24 * 30.4375 : na)
float result = tf == "" ? chartTf : request.security(syminfo.tickerid, tf, chartTf)
inTimeframe(_t) => tfInMinutes(_t) > tfInMinutes(timeframe.period)
// Range
reso(exp, res) => request.security(syminfo.tickerid, res, exp, lookahead=barmerge.lookahead_on)
getData(_t, _var) =>
o = reso(open , _t)
show = _var != "Off" and inTimeframe(_t)
_time = time(_t)
newbar = na(_time ) or _time > _time
oc = _var == 'Daily Open'
// ---------- Daily ----------
= getData("D", daily)
if d_newbar
if d_oc
line.new(x1=time, y1=d_o, x2=time_close("D"), y2=d_o, xloc=xloc.bar_time, style=line.style_dotted, color=o_color)
//-------------------- WATERMARK--------------------
////////////////////////////////////////////////////
//text inputs
title = input.string("JDVID_FX", "Tittle", group = "NICK NAME")
subtitle = input.string("𝗖𝗬𝗖𝗟𝗘 | 𝗧𝗜𝗠𝗜𝗡𝗚 | 𝗣𝗥𝗘𝗖𝗜𝗦𝗜𝗢𝗡", "Subtitle", group = "text")
//symbol info
symInfoCheck = input.bool(title="Show Symbol Info", defval=true, group = "watermark position")
symInfo = syminfo.ticker + " | " + timeframe.period + (timeframe.isminutes ? "M" : na)
date = str.format("{0}/{1}/{2}", dayofmonth(time_close), month(time_close), year(time_close))
//text positioning
textVPosition = input.string("top", "Vertical Position", options = , group = "watermark position")
textHPosition = input.string("center", "Horizontal Position", options = , group = "watermark position")
//symbol info positioning
symVPosition = input.string("bottom", "Vertical Position", options = , group = "symbol position")
symHPosition = input.string("center", "Horizontal Position", options = , group = "symbol position")
//cell size
cellWidthPercent = input.float(0, "Cell Width (%)", minval = 0, maxval = 100, tooltip = "The width of the cell as a % of the indicator's visual space. Optional. By default, auto-adjusts the width based on the text inside the cell. Value 0 has the same effect.", group = "cell size")
cellHeightPercent = input.float(0, "Cell Height (%)", minval = 0, maxval = 100, tooltip = "The height of the cell as a % of the indicator's visual space. Optional. By default, auto-adjusts the height based on the text inside of the cell. Value 0 has the same effect.", group = "cell size")
//title settings
c_title = input(color.new(color.black, 0), "Title Color", group = "title settings")
s_title = input.string("large", "Title Size", options = , group = "title settings")
a_title = input.string("center","Title Alignment", options = , group = "title settings")
//subtitle settings
c_subtitle = input(color.new(color.black, 30), "Subtitle Color", group = "subtitle settings")
s_subtitle = input.string("small", "Subtitle Size", options = , group = "subtitle settings")
a_subtitle = input.string("center","Subtitle Alignment", options = , group = "subtitle settings")
//symbol settings
c_symInfo = input(color.new(color.black, 30), "Subtitle Color", group = "symbol settings")
s_symInfo = input.string("normal", "Subtitle Size", options = , group = "symbol settings")
a_symInfo = input.string("center","Subtitle Alignment", options = , group = "symbol settings")
c_bg = input(color.new(color.blue, 100), "Background", group = "background")
//text watermark creation
var table textWatermark = table.new(textVPosition + "_" + textHPosition, 1, 3)
table.cell(textWatermark, 0, 0, title, width = cellWidthPercent, height = cellHeightPercent, text_color = c_title, text_halign = a_title, text_size = s_title, bgcolor = c_bg)
table.cell(textWatermark, 0, 1, subtitle, width = cellWidthPercent, height = cellHeightPercent, text_color = c_subtitle, text_halign = a_subtitle, text_size= s_subtitle, bgcolor = c_bg)
//symbol info watermark creation
var table symWatermark = table.new(symVPosition + "_" + symHPosition, 5, 5)
if symInfoCheck
table.cell(symWatermark, 0, 1, symInfo, width = cellWidthPercent, height = cellHeightPercent, text_color = c_symInfo, text_halign = a_symInfo, text_size = s_symInfo, bgcolor = c_bg)
table.cell(symWatermark, 0, 0, date, width = cellWidthPercent, height = cellHeightPercent, text_color = c_symInfo, text_halign = a_symInfo, text_size = s_symInfo, bgcolor = c_bg)