FrizBugLibrary "FrizBug"
Debug Tools | Pinescript Debugging Tool Kit
All in one Debugger - the benefit of wrapper functions to simply wrap variables or outputs and have the code still execute the same. Perfect for Debugging on Pine
str(inp)
Overloaded tostring like Function for all type+including Object Variables will also do arrays and matricies of all Types
Parameters:
inp : All types
Returns: string
print_label(str, x_offset, y, barstate, style, color, textcolor, text_align, size)
Label Helper Function - only needs the Str input to work
Parameters:
str :
x_offset : offset from last bar + or -
y : price of label
barstate : barstate built in variable
style : label style settin7
color : color setting
textcolor : textcolor
text_align : text align setting
size : text_sise
Returns: label
init()
initializes the database arrays
Returns: tuple | 2 matrix (1 matrix is varip(live) the other is reagular var (Bar))
update(log, live, live_console, log_console, live_lbl, log_lbl)
Put at the very end of your code / This updates all of the consoles
Parameters:
log : This matrix is the one used for Bar updates
live : This matrix is the one used for Real Time updates
live_console : on_offs for the consoles and lbls - call in the update function
log_console : on_offs for the consoles and lbls - call in the update function
live_lbl : on_offs for the consoles and lbls - call in the update function
log_lbl : on_offs for the consoles and lbls - call in the update function
Returns: void
log(log, inp, str_label, off, rows, index_cols, bars_back)
Function Will push to the Console offset to the right of Current bar, This is the main Console - it has 2 Feeds left and right (changeable)"
Parameters:
log : Matrix - Log or Live
inp : All types
str_label : (optional) This input will label it on the feed
off : Useful for when you don't want to remove the function"
rows : when printing or logging a matrix this will shorten the output will show last # of rows"
index_cols : When printing or logging a array or matrix this will shorten the array or the columns of a matrix by the #"
bars_back : Adjustment for Bars Back - Default is 1 (0 for barstate.islast)"
Returns: inp - all types (The log and print functions can be used as wrapper functions see usage below for examples)
Print(log, str_label, off, bars_back)
Function can be used to send information to a label style Console, Can be used as a wrapper function, Similar to str.format use with str()
Parameters:
log :
str_label : (optional) Can be used to label Data sent to the Console
off : Useful for when you don't want to remove the function
bars_back : Adjustment for Bars Back - Default is 1 (0 for barstate.islast)
Returns: string
print(inp, str_label, off, bars_back)
This Function can be used to send information to a label style Console, Can be used as a wrapper function, Overload print function
Parameters:
inp : All types
str_label : string (optional) Can be used to label Data sent to the Console
off : Useful for when you don't want to remove the function
bars_back : Adjustment for Bars Back - Default is 1 (0 for barstate.islast)
Returns: inp - all types (The log and print functions can be used as wrapper functions see usage below for examples)
Credits:
@kaigouthro - for the font library
@RicardoSantos - for the concept I used to make this
Thanks!
Use cases at the bottom
Indikator dan strategi
BinaryInsertionSortLibrary "BinaryInsertionSort"
Library containing functions which can help create sorted array based on binary insertion sort.
This sorting will be quicker than array.sort function if the sorting needs to be done on every bar and the size of the array is comparatively big.
This is created with the intention of using this to solve a bigger problem posted by @lejmer. Wish me luck!!
binary_insertion_sort(sortedArray, item, order)
binary insertion sort - inserts item into sorted array while maintaining sort order
Parameters:
sortedArray : array which is assumed to be sorted in the requested order
item : float|int item which needs to be inserted into sorted array
order : Sort order - positive number means ascending order whereas negative number represents descending order
Returns: int index at which the item is inserted into sorted array
update_sort_indices(sortIndices, newItemIndex)
adds the sort index of new item added to sorted array and also updates existing sort indices.
Parameters:
sortIndices : array containing sort indices of an array.
newItemIndex : sort index of new item added to sorted array
Returns: void
get_array_of_series(item, order)
Converts series into array and sorted array.
Parameters:
item : float|int series
order : Sort order - positive number means ascending order whereas negative number represents descending order
Returns:
get_sorted_arrays(item, order)
Converts series into array and sorted array. Also calculates the sort order of the value array
Parameters:
item : float|int series
order : Sort order - positive number means ascending order whereas negative number represents descending order
Returns:
POALibrary "POA"
This library is a client script for making a webhook signal formatted string to POABOT server.
entry_message(password, percent, leverage, kis_number)
Create a entry message for POABOT
Parameters:
password : (string) The password of your bot.
percent : (float) The percent for entry based on your wallet balance.
leverage : (int) The leverage of entry. If not set, your levereage doesn't change.
kis_number : (int) The number of koreainvestment account.
Returns: (string) A json formatted string for webhook message.
close_message(password, percent, kis_number)
Create a close message for POABOT
Parameters:
password : (string) The password of your bot.
percent : (float) The percent for close based on your wallet balance.
kis_number : (int) The number of koreainvestment account.
Returns: (string) A json formatted string for webhook message.
exit_message(password, percent)
Create a exit message for POABOT
Parameters:
password : (string) The password of your bot.
percent : (float) The percent for exit based on your wallet balance.
Returns: (string) A json formatted string for webhook message.
in_trade(start_time, end_time)
Create a trade start line
Parameters:
start_time : (int) The start of time.
end_time : (int) The end of time.
Returns: (bool) Get bool for trade based on time range.
PlurexSignalStrategyLibrary "PlurexSignalStrategy"
Provides functions that wrap the built in TradingView strategy functions so you can seemlessly integrate with Plurex Signal automation.
NOTE: Be sure to:
- set your strategy default_qty_value to the default entry percentage of your signal
- set your strategy default_qty_type to strategy.percent_of_equity
- set your strategy pyramiding to some value greater than 1 or something appropriate to your strategy in order to have multiple entries.
long(secret, budgetPercentage, priceLimit, marketOverride)
Open a new long entry. Wraps strategy function and sends plurex message as an alert.
Parameters:
secret : The secret for your Signal on plurex
budgetPercentage : Optional, The percentage of budget to use in the entry.
priceLimit : Optional, The worst price to accept for the entry.
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
longAndFixedStopLoss(secret, stop, budgetPercentage, priceLimit, marketOverride)
Open a new long entry. Wraps strategy function and sends plurex message as an alert. Also sets a gobal stop loss for full open position
Parameters:
secret : The secret for your Signal on plurex
stop : The trigger price for the stop loss. See strategy.exit documentation
budgetPercentage : Optional, The percentage of budget to use in the entry.
priceLimit : Optional, The worst price to accept for the entry.
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
longAndTrailingStopLoss(secret, trail_offset, trail_price, trail_points, budgetPercentage, priceLimit, marketOverride)
Open a new long entry. Wraps strategy function and sends plurex message as an alert. Also sets a gobal trailing stop loss for full open position. You must set one of trail_price or trail_points.
Parameters:
secret : The secret for your Signal on plurex
trail_offset : See strategy.exit documentation
trail_price : See strategy.exit documentation
trail_points : See strategy.exit documentation
budgetPercentage : Optional, The percentage of budget to use in the entry.
priceLimit : Optional, The worst price to accept for the entry.
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
short(secret, budgetPercentage, priceLimit, marketOverride)
Open a new short entry. Wraps strategy function and sends plurex message as an alert.
Parameters:
secret : The secret for your Signal on plurex
budgetPercentage : Optional, The percentage of budget to use in the entry.
priceLimit : Optional, The worst price to accept for the entry.
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
shortAndFixedStopLoss(secret, stop, budgetPercentage, priceLimit, marketOverride)
Open a new short entry. Wraps strategy function and sends plurex message as an alert. Also sets a gobal stop loss for full open position
Parameters:
secret : The secret for your Signal on plurex
stop : The trigger price for the stop loss. See strategy.exit documentation
budgetPercentage : Optional, The percentage of budget to use in the entry.
priceLimit : Optional, The worst price to accept for the entry.
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
shortAndTrailingStopLoss(secret, trail_offset, trail_price, trail_points, budgetPercentage, priceLimit, marketOverride)
Open a new short entry. Wraps strategy function and sends plurex message as an alert. Also sets a gobal trailing stop loss for full open position. You must set one of trail_price or trail_points.
Parameters:
secret : The secret for your Signal on plurex
trail_offset : See strategy.exit documentation
trail_price : See strategy.exit documentation
trail_points : See strategy.exit documentation
budgetPercentage : Optional, The percentage of budget to use in the entry.
priceLimit : Optional, The worst price to accept for the entry.
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
closeAll(secret, marketOverride)
Close all positions. Wraps strategy function and sends plurex message as an alert.
Parameters:
secret : The secret for your Signal on plurex
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
closeLongs(secret, marketOverride)
close all longs. Wraps strategy function and sends plurex message as an alert.
Parameters:
secret : The secret for your Signal on plurex
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
closeShorts(secret, marketOverride)
close all shorts. Wraps strategy function and sends plurex message as an alert.
Parameters:
secret : The secret for your Signal on plurex
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
closeLastLong(secret, marketOverride)
Close last long entry. Wraps strategy function and sends plurex message as an alert.
Parameters:
secret : The secret for your Signal on plurex
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
closeLastShort(secret, marketOverride)
Close last short entry. Wraps strategy function and sends plurex message as an alert.
Parameters:
secret : The secret for your Signal on plurex
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
closeFirstLong(secret, marketOverride)
Close first long entry. Wraps strategy function and sends plurex message as an alert.
Parameters:
secret : The secret for your Signal on plurex
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
closeFirstShort(secret, marketOverride)
Close first short entry. Wraps strategy function and sends plurex message as an alert.
Parameters:
secret : The secret for your Signal on plurex
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
Dynamic Array Table (versatile display methods)Library "datTable"
Dynamic Array Table.... Configurable Shape/Size Table from Arrays
Allows for any data in any size combination of arrays to join together
with:
all possible orientations!
filling all cells contiguously and/or flipping at boundaries
vertical or horizontal rotation
x/y axis direction swapping
all types array inputs for data.
please notify of any bugs. thanks
init(_posit)
Get Table (otional gapping cells)
Parameters:
_posit : String or Int (1-9 3x3 grid L to R)
Returns: Table
coords()
Req'd coords Seperate for VARIP table, non-varip coords
add
Add arrays to display table. coords reset each calc
uses displaytable object, string titles, and color optional array, and second line optional data array.
PlurexSignalCoreLibrary "PlurexSignalCore"
General purpose functions and helpers for use in more specific Plurex Signal alerting scripts and libraries
plurexMarket()
Build a Plurex market string from a base and quote asset symbol.
Returns: A market string that can be used in Plurex Signal messages.
tickerToPlurexMarket()
Builds Plurex market string from the syminfo
Returns: A market string that can be used in Plurex Signal messages.
simpleMessage(secret, action, marketOverride)
Builds Plurex Signal Message json to be sent to a Signal webhook
Parameters:
secret : The secret for your Signal on plurex
action : The action of the message. One of .
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
Returns: A json string message that can be used in alerts to send messages to Plurex.
entryMessage(secret, isLong, budgetPercentage, priceLimit, marketOverride)
Builds Plurex Signal Entry Message json to be sent to a Signal webhook with optional parameters for budget and price limits.
Parameters:
secret : The secret for your Signal on plurex
isLong : The action of the message. true for LONG, false for SHORT.
budgetPercentage : Optional, The percentage of budget to use in the entry.
priceLimit : Optional, The worst price to accept for the entry.
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
Returns: A json string message that can be used in alerts to send messages to Plurex.
long(secret, budgetPercentage, priceLimit, marketOverride)
Builds Plurex Signal LONG Message json to be sent to a Signal webhook with optional parameters for budget and price limits.
Parameters:
secret : The secret for your Signal on plurex
budgetPercentage : Optional, The percentage of budget to use in the entry.
priceLimit : Optional, The worst price to accept for the entry.
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
Returns: A json string message that can be used in alerts to send messages to Plurex.
short(secret, budgetPercentage, priceLimit, marketOverride)
Builds Plurex Signal SHORT Message json to be sent to a Signal webhook with optional parameters for budget and price limits.
Parameters:
secret : The secret for your Signal on plurex
budgetPercentage : Optional, The percentage of budget to use in the entry.
priceLimit : Optional, The worst price to accept for the entry.
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
Returns: A json string message that can be used in alerts to send messages to Plurex.
closeAll(secret, marketOverride)
Builds Plurex Signal CLOSE_ALL Message json to be sent to a Signal webhook.
Parameters:
secret : The secret for your Signal on plurex
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
Returns: A json string message that can be used in alerts to send messages to Plurex.
closeShorts(secret, marketOverride)
Builds Plurex Signal CLOSE_SHORTS Message json to be sent to a Signal webhook.
Parameters:
secret : The secret for your Signal on plurex
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
Returns: A json string message that can be used in alerts to send messages to Plurex.
closeLongs(secret, marketOverride)
Builds Plurex Signal CLOSE_LONGS Message json to be sent to a Signal webhook.
Parameters:
secret : The secret for your Signal on plurex
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
Returns: A json string message that can be used in alerts to send messages to Plurex.
closeFirstLong(secret, marketOverride)
Builds Plurex Signal CLOSE_FIRST_LONG Message json to be sent to a Signal webhook.
Parameters:
secret : The secret for your Signal on plurex
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
Returns: A json string message that can be used in alerts to send messages to Plurex.
closeLastLong(secret, marketOverride)
Builds Plurex Signal CLOSE_LAST_LONG Message json to be sent to a Signal webhook.
Parameters:
secret : The secret for your Signal on plurex
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
Returns: A json string message that can be used in alerts to send messages to Plurex.
closeFirstShort(secret, marketOverride)
Builds Plurex Signal CLOSE_FIRST_SHORT Message json to be sent to a Signal webhook.
Parameters:
secret : The secret for your Signal on plurex
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
Returns: A json string message that can be used in alerts to send messages to Plurex.
closeLastShort(secret, marketOverride)
Builds Plurex Signal CLOSE_LAST_SHORT Message json to be sent to a Signal webhook.
Parameters:
secret : The secret for your Signal on plurex
marketOverride : Optional, defaults to the syminfo for the ticker. Use the `plurexMarket` function to build your own.
Returns: A json string message that can be used in alerts to send messages to Plurex.
Expansion Contraction LibraryLibrary "ExpansionContraction"
Library for Expansion Contraction Indicator, a zero-lag dual perspective indicator created by Brian Latta based on Jake Bernstein’s principles of Moving Average Channel system.
calc(shortLookback, longLookback)
Calculates Expansion Contraction values.
Parameters:
shortLookback : Integer for the short lookback calculation, defaults to 8
longLookback : Integer for the long lookback calculation, defaults to 32
@return Returns array of Expansion Contraction values
stdevCalc(positiveShort, negativeShort, positiveLong, negativeLong, stdevLookback)
Calculates standard deviation lines based on Expansion Contraction Long and Short values.
Parameters:
positiveShort : Float for the positive short XC value from calculation
negativeShort : Float for the negative short XC value from calculation
positiveLong : Float for the positive long XC value from calculation
negativeLong : Float for the negative long XC value from calculation
stdevLookback : Integer for the standard deviation lookback, defaults to 500
@return Returns array of standard deviation values
trend(positiveShort, negativeShort, positiveLong, negativeLong)
Determines if trend is strong or weak based on Expansion Contraction values.
Parameters:
positiveShort : Float for the positive short XC value from calculation
negativeShort : Float for the negative short XC value from calculation
positiveLong : Float for the positive long XC value from calculation
negativeLong : Float for the negative long XC value from calculation
@return Returns array of boolean values indicating strength or weakness of trend
Stringify - Timeframe Enumeration --> StringLibrary "Stringify"
Cast variable types and enumerations to human-readable Strings
timeframe(string)
Cast a timeframe enumeration to readable string.
Parameters:
string : `T` is a timeframe enumeration ('3D', '120', '15', '5s' ...)
Returns: A string representation of the timeframe or 'NA' if `x` is `na`
EMAFlowLibrary "EMAFlow"
Functions that manipulate a set of 5 MAs created within user-supplied maximum and minimum lengths. The MAs are spaced out (within the range) in a way that approximates how Fibonnaci numbers are spaced.
Using MA flow, as opposed to simple crosses of the minimum and maximum lengths, gives more detail, and can result in faster changes and more resistance to chop, depending how you use it.
f_emaFlowBias()
@function f_emaFlowBias: Gives a bullish or bearish bias reading based on the EMA flow from the user-supplied range.
@param int _min: The minimum length of the EMA set.
@param int _max: The maximum length of the EMA set.
@param: string _source: The source for the EMA set. Must be in standard format (open, close, ohlc4, etc.)
@returns: An integer, representing the bias: 1 is bearish, 2 is slightly bearish, 3 is neutral, 4 is slightly bullish, 5 is bullish.
taLibrary "ta"
Collection of all custom and enhanced TA indicators. Same as enhanced_ta. But, removed all the displays to make it faster.
ma(source, maType, length)
returns custom moving averages
Parameters:
source : Moving Average Source
maType : Moving Average Type : Can be sma, ema, hma, rma, wma, vwma, swma, highlow, linreg, median
length : Moving Average Length
Returns: moving average for the given type and length
atr(maType, length)
returns ATR with custom moving average
Parameters:
maType : Moving Average Type : Can be sma, ema, hma, rma, wma, vwma, swma, highlow, linreg, median
length : Moving Average Length
Returns: ATR for the given moving average type and length
atrpercent(maType, length)
returns ATR as percentage of close price
Parameters:
maType : Moving Average Type : Can be sma, ema, hma, rma, wma, vwma, swma, highlow, linreg, median
length : Moving Average Length
Returns: ATR as percentage of close price for the given moving average type and length
bb(source, maType, length, multiplier, sticky)
returns Bollinger band for custom moving average
Parameters:
source : Moving Average Source
maType : Moving Average Type : Can be sma, ema, hma, rma, wma, vwma, swma, highlow, linreg, median
length : Moving Average Length
multiplier : Standard Deviation multiplier
sticky : - sticky boundaries which will only change when value is outside boundary.
Returns: Bollinger band with custom moving average for given source, length and multiplier
bbw(source, maType, length, multiplier, sticky)
returns Bollinger bandwidth for custom moving average
Parameters:
source : Moving Average Source
maType : Moving Average Type : Can be sma, ema, hma, rma, wma, vwma, swma, highlow, linreg, median
length : Moving Average Length
multiplier : Standard Deviation multiplier
sticky : - sticky boundaries which will only change when value is outside boundary.
Returns: Bollinger Bandwidth for custom moving average for given source, length and multiplier
bpercentb(source, maType, length, multiplier, sticky)
returns Bollinger Percent B for custom moving average
Parameters:
source : Moving Average Source
maType : Moving Average Type : Can be sma, ema, hma, rma, wma, vwma, swma, highlow, linreg, median
length : Moving Average Length
multiplier : Standard Deviation multiplier
sticky : - sticky boundaries which will only change when value is outside boundary.
Returns: Bollinger Percent B for custom moving average for given source, length and multiplier
kc(source, maType, length, multiplier, useTrueRange, sticky)
returns Keltner Channel for custom moving average
Parameters:
source : Moving Average Source
maType : Moving Average Type : Can be sma, ema, hma, rma, wma, vwma, swma, highlow, linreg, median
length : Moving Average Length
multiplier : Standard Deviation multiplier
useTrueRange : - if set to false, uses high-low.
sticky : - sticky boundaries which will only change when value is outside boundary.
Returns: Keltner Channel for custom moving average for given souce, length and multiplier
kcw(source, maType, length, multiplier, useTrueRange, sticky)
returns Keltner Channel Width with custom moving average
Parameters:
source : Moving Average Source
maType : Moving Average Type : Can be sma, ema, hma, rma, wma, vwma, swma, highlow, linreg, median
length : Moving Average Length
multiplier : Standard Deviation multiplier
useTrueRange : - if set to false, uses high-low.
sticky : - sticky boundaries which will only change when value is outside boundary.
Returns: Keltner Channel Width for custom moving average
kpercentk(source, maType, length, multiplier, useTrueRange, sticky)
returns Keltner Channel Percent K Width with custom moving average
Parameters:
source : Moving Average Source
maType : Moving Average Type : Can be sma, ema, hma, rma, wma, vwma, swma, highlow, linreg, median
length : Moving Average Length
multiplier : Standard Deviation multiplier
useTrueRange : - if set to false, uses high-low.
sticky : - sticky boundaries which will only change when value is outside boundary.
Returns: Keltner Percent K for given moving average, source, length and multiplier
dc(length, useAlternateSource, alternateSource, sticky)
returns Custom Donchian Channel
Parameters:
length : - donchian channel length
useAlternateSource : - Custom source is used only if useAlternateSource is set to true
alternateSource : - Custom source
sticky : - sticky boundaries which will only change when value is outside boundary.
Returns: Donchian channel
dcw(length, useAlternateSource, alternateSource, sticky)
returns Donchian Channel Width
Parameters:
length : - donchian channel length
useAlternateSource : - Custom source is used only if useAlternateSource is set to true
alternateSource : - Custom source
sticky : - sticky boundaries which will only change when value is outside boundary.
Returns: Donchian channel width
dpercentd(useAlternateSource, alternateSource, length, sticky)
returns Donchian Channel Percent of price
Parameters:
useAlternateSource : - Custom source is used only if useAlternateSource is set to true
alternateSource : - Custom source
length : - donchian channel length
sticky : - sticky boundaries which will only change when value is outside boundary.
Returns: Donchian channel Percent D
oscillatorRange(source, method, highlowLength, rangeLength, sticky)
oscillatorRange - returns Custom overbought/oversold areas for an oscillator input
Parameters:
source : - Osillator source such as RSI, COG etc.
method : - Valid values for method are : sma, ema, hma, rma, wma, vwma, swma, highlow, linreg, median
highlowLength : - length on which highlow of the oscillator is calculated
rangeLength : - length used for calculating oversold/overbought range - usually same as oscillator length
sticky : - overbought, oversold levels won't change unless crossed
Returns: Dynamic overbought and oversold range for oscillator input
oscillator(type, length, shortLength, longLength, source, highSource, lowSource, method, highlowLength, sticky)
oscillator - returns Choice of oscillator with custom overbought/oversold range
Parameters:
type : - oscillator type. Valid values : cci, cmo, cog, mfi, roc, rsi, stoch, tsi, wpr
length : - Oscillator length - not used for TSI
shortLength : - shortLength only used for TSI
longLength : - longLength only used for TSI
source : - custom source if required
highSource : - custom high source for stochastic oscillator
lowSource : - custom low source for stochastic oscillator
method : - Valid values for method are : sma, ema, hma, rma, wma, vwma, swma, highlow, linreg, median
highlowLength : - length on which highlow of the oscillator is calculated
sticky : - overbought, oversold levels won't change unless crossed
Returns: Oscillator value along with dynamic overbought and oversold range for oscillator input
multibands(bandType, source, maType, length, useTrueRange, sticky, numberOfBands, multiplierStart, multiplierStep)
multibands - returns Choice of oscillator with custom overbought/oversold range
Parameters:
bandType : - Band type - can be either bb or kc
source : - custom source if required
maType : Moving Average Type : Can be sma, ema, hma, rma, wma, vwma, swma, highlow, linreg, median
length : - Oscillator length - not used for TSI
useTrueRange : - if set to false, uses high-low.
sticky : - for sticky borders which only change upon source crossover/crossunder
numberOfBands : - Number of bands to generate
multiplierStart : - Starting ATR or Standard deviation multiplier for first band
multiplierStep : - Incremental value for multiplier for each band
Returns: array of band values sorted in ascending order
mbandoscillator(bandType, source, maType, length, useTrueRange, stickyBands, numberOfBands, multiplierStart, multiplierStep)
mbandoscillator - Multiband oscillator created on the basis of bands
Parameters:
bandType : - Band type - can be either bb or kc
source : - custom source if required
maType : Moving Average Type : Can be sma, ema, hma, rma, wma, vwma, swma, highlow, linreg, median
length : - Oscillator length - not used for TSI
useTrueRange : - if set to false, uses high-low.
stickyBands : - for sticky borders which only change upon source crossover/crossunder for band detection
numberOfBands : - Number of bands to generate
multiplierStart : - Starting ATR or Standard deviation multiplier for first band
multiplierStep : - Incremental value for multiplier for each band
Returns: oscillator currentStates - Array containing states for last n bars
CSMlibraryLibrary "CSMlibrary"
TODO: Contains functions to simplify my scripts. Using code snippets in reference manual and elsewhere .....
CSMplot()
Slope_TKLibrary "Slope_TK"
This library calculate the slope of a serie between two points
The serie can be ta.ema(close,200) for example
The size is the number of bars between the two points for the slope calculation, for example it can be 10
slope_of_ema200 = slope(t a.eam(close, 200) , 10 )
slope( float serie, int size )
libcompressLibrary "libcompress"
numbers compressor for large output data compression
compress_fp24()
converts float to base64 (4 chars) | 24 bits: 1 sign + 5 exponent + 18 mantissa
Returns: 4-character base64_1/5/18 representation of x
compress_ufp18()
converts unsigned float to base64 (3 chars) | 18 bits: 5 exponent + 13 mantissa
Returns: 3-character base64_0/5/13 representation of x
compress_int()
converts int to base64
racille_arrayutilsLibrary "racille_arrayutils"
The most used array utility functions
func_sin()
returns sin function as a parameter to calculate the function_array()
func_cos()
returns cos function as a parameter to calculate the function_array()
func_tan()
returns tan function as a parameter to calculate the function_array()
func_cot()
returns cot function as a parameter to calculate the function_array()
func_asin()
returns asin function as a parameter to calculate the function_array()
func_acos()
returns acos function as a parameter to calculate the function_array()
func_atan()
returns atan function as a parameter to calculate the function_array()
func_acot()
returns acot function as a parameter to calculate the function_array()
func_sqrt()
returns sqrt function as a parameter to calculate the function_array()
func_pow(x)
returns pow function as a parameter to calculate the function_array()
Parameters:
x : - power
func_exp(x)
returns exp function as a parameter to calculate the function_array()
Parameters:
x : - base
func_log(x)
returns log function as a parameter to calculate the function_array()
Parameters:
x : - base
func_replace_array(arr, func)
replace each element of array with func(element) and returns a new array
Parameters:
arr : - array
func : - function to replace. Must be one of func_*()
Returns: new array, where each element is func(element)
multiply_array(arr, x)
multiplies each element of array by multiplier and returns a new array
Parameters:
arr : - array
x : - multiplier
Returns: new array, where each element is multiplied on x
multiply_array(arr, n)
multiplies each element of array by multiplier and returns a new array
Parameters:
arr : - array
n : - multiplier
Returns: new array, where each element is multiplied on n
multiply_array(arr, n)
multiplies each element of array by multiplier and returns a new array
Parameters:
arr : - array
n : - multiplier
Returns: new array, where each element is multiplied on n
divide_array(arr, x)
divides each element of array by divider and returns a new array
Parameters:
arr : - array
x : - divider
Returns: new array, where each element is multiplied on x
divide_array(arr, n)
divides each element of array by divider and returns a new array
Parameters:
arr : - array
n : - divider
Returns: new array, where each element is multiplied on n
increase_array(arr, x)
adds increment to each element of array and returns a new array
Parameters:
arr : - array
x : - increment
Returns: new array, where each element is multiplied on x
increase_array(arr, n)
adds increment to each element of array and returns a new array
Parameters:
arr : - array
n : - increment
Returns: new array, where each element is multiplied on n
increase_array(arr, n)
adds increment to each element of array and returns a new array
Parameters:
arr : - array
n : - increment
Returns: new array, where each element is multiplied on x
decrease_array(arr, x)
substracts decrement to each element of array and returns a new array
Parameters:
arr : - array
x : - decrement
Returns: new array, where each element is multiplied on x
decrease_array(arr, n)
substracts decrement to each element of array and returns a new array
Parameters:
arr : - array
n : - decrement
Returns: new array, where each element is multiplied on n
decrease_array(arr, n)
substracts decrement to each element of array and returns a new array
Parameters:
arr : - array
n : - decrement
Returns: new array, where each element is multiplied on x
negate_array(arr)
changes each elements sign of array and returns a new array
Parameters:
arr : - array
Returns: new array, where each element is of different sign
array_sum()
calculates elementwise sum of two arrays
array_diff()
calculates elementwise difference of two arrays
array_product()
calculates elementwise product of two arrays
array_division()
calculates elementwise division of two arrays
StringStringHashmapLibrary "StringStringHashmap"
A simple implementation of a key string-to-string value dictionary in pine script
create_ss_dict()
Create an empty string-string dictionary
Returns: the indices and elements of the dict
add_key_value(key, value, i, e)
Add new key-value pair in the dictionary
Parameters:
key : string
value : string
i : string the indices of the dictionary
e : string the element of the dictionary
get_value(key, i, e)
Get the value of the given key
Parameters:
key : string
i : string the indices of the dictionary
e : string the element of the dictionary
Returns: return the value of the given key
change_value(key, value, i, e)
Change the value of the given key
Parameters:
key : string
value : string
i : string the indices of the dictionary
e : string the element of the dictionary
Hurst Exponent (Dubuc's variation method)Library "Hurst"
hurst(length, samples, hi, lo)
Estimate the Hurst Exponent using Dubuc's variation method
Parameters:
length : The length of the history window to use. Large values do not cause lag.
samples : The number of scale samples to take within the window. These samples are then used for regression. The minimum value is 2 but 3+ is recommended. Large values give more accurate results but suffer from a performance penalty.
hi : The high value of the series to analyze.
lo : The low value of the series to analyze.
The Hurst Exponent is a measure of fractal dimension, and in the context of time series it may be interpreted as indicating a mean-reverting market if the value is below 0.5 or a trending market if the value is above 0.5. A value of exactly 0.5 corresponds to a random walk.
There are many definitions of fractal dimension and many methods for its estimation. Approaches relying on calculation of an area, such as the Box Counting Method, are inappropriate for time series data, because the units of the x-axis (time) do match the units of the y-axis (price). Other approaches such as Detrended Fluctuation Analysis are useful for nonstationary time series but are not exactly equivalent to the Hurst Exponent.
This library implements Dubuc's variation method for estimating the Hurst Exponent. The technique is insensitive to x-axis units and is therefore useful for time series. It will give slightly different results to DFA, and the two methods should be compared to see which estimator fits your trading objectives best.
Original Paper:
Dubuc B, Quiniou JF, Roques-Carmes C, Tricot C. Evaluating the fractal dimension of profiles. Physical Review A. 1989;39(3):1500-1512. DOI: 10.1103/PhysRevA.39.1500
Review of various Hurst Exponent estimators for time-series data, including Dubuc's method:
www.intechopen.com
NetLiquidityLibraryLibrary "NetLiquidityLibrary"
The Net Liquidity Library provides daily values for net liquidity. Net liquidity is measured as Fed Balance Sheet - Treasury General Account - Reverse Repo. Time series for each individual component included too.
get_net_liquidity_for_date(t)
Function takes date in timestamp form and returns the Net Liquidity value for that date. If date is not present, 0 is returned.
Parameters:
t : The timestamp of the date you are requesting the Net Liquidity value for.
Returns: The Net Liquidity value for the specified date.
get_net_liquidity()
Gets the Net Liquidity time series from Dec. 2021 to current. Dates that are not present are represented as 0.
Returns: The Net Liquidity time series.
text_utilsLibrary "text_utils"
a set of functions to handle placeholder in texts
add_placeholder(list, key, value)
add a placehodler key and value to a local list
Parameters:
list : - reference to a local string array containing all placeholders, add string list = array.new_string(0) to your code
key : - a string representing the placeholder in a text, e.g. '{ticker}'
value : - a string representing the value of the placeholder e.g. 'EURUSD'
Returns: void
add_placeholder(list, key, value, format)
add a placehodler key and value to a local list
Parameters:
list : - reference to a local string array containing all placeholders, add string list = array.new_string(0) to your code
key : - a string representing the placeholder in a text, e.g. '{ticker}'
value : - an integer value representing the value of the placeholder e.g. 10
format : - optional format string to be used when converting integer value to string, see str.format() for details, must contain '{0}'
Returns: void
add_placeholder(list, key, value, format)
add a placehodler key and value to a local list
Parameters:
list : - reference to a local string array containing all placeholders, add string list = array.new_string(0) to your code
key : - a string representing the placeholder in a text, e.g. '{ticker}'
value : - a float value representing the value of the placeholder e.g. 1.5
format : - optional format string to be used when converting float value to string, see str.format() for details, must contain '{0}'
Returns: void
replace_all_placeholder(list, text_to_covert)
replace all placeholder keys with their value in a given text
Parameters:
list : - reference to a local string array containing all placeholders
text_to_covert : - a text with placeholder keys before their are replaced by their values
Returns: text with all replaced placeholder keys
ReduceSecurityCallsLibrary "ReduceSecurityCalls"
This library allows you to reduce the number of request.security calls to 1 per symbol per timeframe. Script provides example how to use it with request.security and possible optimisation applied to htf data call.
This data can be used to calculate everything you need and more than that (for example you can calculate 4 emas with one function call on mat_out).
ParseSource(mat_outs, o)
Should be used inside request.security call. Optimise your calls using timeframe.change when htf data parsing! Supports up to 5 expressions (results of expressions must be float or int)
Parameters:
mat_outs : Matrix to be used as outputs, first value is newest
o : Please use parametres in the order they specified (o should be 1st, h should be 2nd etc..)
Returns: outs array, due to weird limitations do not try this :matrix_out = matrix.copy(ParseSource)
String_Encoder_DecoderLibrary "String_Encoder_Decoder"
String encoder and decoder to use in internal data tranfer in script calculations.
In example, script encode 125 values once and then decode them every candle.
encode(array or values (val1,val2,val3,val4,val5,val6)
encode: encode some values into string
Parameters:
array : of values or values1, value2 (up to 6 values)
(input values must be stringified)
Returns: encoded value
decode(val)
decode: decode into string
Parameters:
val : value to decode, must be stringified
Returns: decoded array of stringified values
fast_utilsLibrary "fast_utils"
This library contains my favourite functions. Will be updated frequently
count_int_digits()
Count int digits in number
Returns: : number of int digits in number
count_float_digits()
Count float digits in number
Returns: : number of float digits in number
stringify()
Convert values in array or matrix into string values
Returns: : array or matrix of string values
arrcompare()
Compare values in arrays
Returns: : bool value
arrdedup()
Remove duplicate values in array
Returns: : array without duplicates
ResInMins()
Converts current resolution in minutes
Returns: : return float number of minuted
MultOfRes(res, mult)
Convert current float TF in minutes to target string TF in "timeframe.period" format.
Parameters:
res : : current resolution in minutes
mult : : Multiple of current TF to be calculated.
Returns: : timeframe format string
fractionLibrary "fraction"
Fraction Creation and Basic Operations.
Cracked a tough problem in making this Polarity Agnostic Decimal without a cheating "abs * sign of input".
it's quite fast, however still test for errors before production use.
>> Big Neon Sign on 1/0 value. <<
Int Array (LOC 0/1)..
To/From Decimal(float)
Comparison ( < / == / >)
Add / Sub / Mult / Div
Invert polarity +/-
String output with 2 formats ..
make(_numerator, _denominator, _val)
Parameters:
_numerator : (int) above the line integer ie: ____ of (___ / bottom )
_denominator : (int) below the line integer ie: ____ of (top / ______ )
_val : (int) OPTIONAL (for no real reason including it) integer to multiply
Returns: array where index 0 is Numerator, 1 is Denominator
add(_fraction, _fraction2)
Perform add operation (left adds right onto )
Parameters:
_fraction : (array) left side Fraction Object
_fraction2 : (array) right side Fraction Object
Returns: array where index 0 is Numerator, 1 is Denominator
subtract(_fraction, _fraction2)
Perform subtract operation (left subtracts right from )
Parameters:
_fraction : (array) left side Fraction Object
_fraction2 : (array) right side Fraction Object
Returns: array where index 0 is Numerator, 1 is Denominator
multiply(_fraction, _fraction2)
Perform multiply operation (left multiplies by right )
Parameters:
_fraction : (array) left side Fraction Object
_fraction2 : (array) right side Fraction Object
Returns: array where index 0 is Numerator, 1 is Denominator
divide(_fraction, _fraction2)
Perform divide operation (left divides by right )
Parameters:
_fraction : (array) left side Fraction Object
_fraction2 : (array) right side Fraction Object
Returns: array where index 0 is Numerator, 1 is Denominator
negative(_fraction)
Perform Negative number inversion ie: (-1/2 => 1/2) or (3/5 => -3/5)
Parameters:
_fraction : (array) Fraction Object to invert to/from negative
Returns: array where index 0 is Numerator, 1 is Denominator
isSmaller(_fraction, _fraction2)
Check if first fraction is smaller
Parameters:
_fraction : (array) left side Fraction Object
_fraction2 : (array) right side Fraction Object
Returns: True if smaller, false if bigger
isLarger(_fraction, _fraction2)
Check if first fraction is larger
Parameters:
_fraction : (array) left side Fraction Object
_fraction2 : (array) right side Fraction Object
Returns: True if smaller, false if bigger
isEqual(_fraction, _fraction2)
Check if first fraction is equal
Parameters:
_fraction : (array) left side Fraction Object
_fraction2 : (array) right side Fraction Object
Returns: True if smaller, false if bigger
fromDec(_input, _epsilon, _iterations)
Convert Decimal to Fraction array
note : this is my own Negative Number Capable (tiny speed loss)
adaptation of the fastest algo out there
Exclusive for Tradingview.
Parameters:
_input : (float) Decimal Input
_epsilon : (int) (OPTIONAL) to precision 0's after dec 0.0000 -> epsilon 0's
_iterations : (int) (OPTIONAL) Maximum iterations Till give up
Returns: array where index 0 is Numerator, 1 is Denominator
toDec()
Convert Fraction to Decimal Output
Returns: Float of fration
toString(_fraction)
Create "A/B" or "A and B/C" String Value of Fraction.
Parameters:
_fraction : (array) Fraction Object to invert to/from negative
Returns: String as (-)? A and B/C format
Encoder DecoderLibrary "EncoderDecoder"
Simple example how to encode some values into float number and then decode it back to original values
f_calctype()
Encode parameter
Returns: encoded value
f_calctype()
Decode parameter
Returns: decoded value
f_srctype()
Encode parameter
Returns: encoded value
f_srctype()
Decode parameter
Returns: decoded value
f_encode(calc_type, src_type, tf, length)
Encodes 4 paramters into float number
Parameters:
calc_type : 1st paramter to encode (its values defined in f_calctype functions) max number of values that can be encoded = 100
src_type : 2nd paramter to encode (its values defined in f_src_type functions) max number of values that can be encoded = 100
tf : 3rd paramter to encode (may be int number with format.price precision length!)
length : 4th paramter to encode (may be any int number)
Returns: float number
f_decode()
Decodes 4 paramters into tuple
Returns: tuple
