Segment2Library "Segment2"
Structure representation of a directed straight line in two dimensions from origin to target vectors.
.
reference:
graphics.stanford.edu
.
new(origin, target)
Generate a new segment.
Parameters:
origin : Vector2 . Origin of the segment.
target : Vector2 . Target of the segment.
Returns: Segment2.
new(origin_x, origin_y, target_x, target_y)
Generate a new segment.
Parameters:
origin_x : float . Origin of the segment x coordinate.
origin_y : float . Origin of the segment y coordinate.
target_x : float . Target of the segment x coordinate.
target_y : float . Target of the segment y coordinate.
Returns: Segment2.
copy(this)
Copy a segment.
Parameters:
this : Vector2 . Segment to copy.
Returns: Segment2.
length_squared(this)
Squared length of the normalized segment vector. For comparing vectors this is computationaly lighter.
Parameters:
this : Segment2 . Sorce segment.
Returns: float.
length(this)
Length of the normalized segment vector.
Parameters:
this : Segment2 . Sorce segment.
Returns: float.
opposite(this)
Reverse the direction of the segment.
Parameters:
this : Segment2 . Source segment.
Returns: Segment2.
is_degenerate(this)
Segment is degenerate when origin and target are equal.
Parameters:
this : Segment2 . Source segment.
Returns: bool.
is_horizontal(this)
Segment is horizontal?.
Parameters:
this : Segment2 . Source segment.
Returns: bool.
is_horizontal(this, precision)
Segment is horizontal?.
Parameters:
this : Segment2 . Source segment.
precision : float . Limit of precision.
Returns: bool.
is_vertical(this)
Segment is vertical?.
Parameters:
this : Segment2 . Source segment.
Returns: bool.
is_vertical(this, precision)
Segment is vertical?.
Parameters:
this : Segment2 . Source segment.
precision : float . Limit of precision.
Returns: bool.
equals(this, other)
Tests two segments for equality (share same origin and target).
Parameters:
this : Segment2 . Source segment.
other : Segment2 . Target segment.
Returns: bool.
nearest_to_point(this, point)
Find the nearest point in a segment to another point.
Parameters:
this : Segment2 . Source segment.
point : Vector2 . Point to aproximate.
Returns: Vector2.
intersection(this, other)
Find the intersection vector of 2 lines.
Parameters:
this : Segment2 . Segment A.
other : Segment2 . Segment B.
Returns: Vector2.Vector2 Object.
extend(this, at_origin, at_target)
Extend a segment by the percent ratio provided.
Parameters:
this : Segment2 . Source segment.
at_origin : float . Percent ratio to extend at origin vector.
at_target : float . Percent ratio to extend at target vector.
Returns: Segment2.
to_string(this)
Translate segment to string format `( (x,y), (x,y) )`.
Parameters:
this : Segment2 . Source segment.
Returns: string.
to_string(this, format)
Translate segment to string format `((x,y), (x,y))`.
Parameters:
this : Segment2 . Source segment.
format : string . Format string to apply.
Returns: string.
to_array(this)
Translate segment to array format.
Parameters:
this : Segment2 . Source segment.
Returns: array.
Индикаторы и стратегии
PineTradingbotWebhookLibrary "PineTradingbotWebhook"
makeWebhookJson(webhookKey, direction, qty, entryLimit, entryStop, exitLimit, exitStop, orderRef, contract)
Creates a Webhook message for Tbot on Tradingboat
Parameters:
webhookKey : the unique key to the Flask (TVWB) server
direction : the same as the strategy's direction
qty
entryLimit
entryStop
exitLimit
exitStop
orderRef
contract
Returns: JSON as a string
Vector2DrawQuadLibrary "Vector2DrawQuad"
functions to handle vector2 Quad drawing operations.
new(a, b, c, d, xloc, bg_color, line_color, line_style, line_width)
Draws a quadrilateral with background fill.
Parameters:
a : v2 . Vector2 object, in the form `(x, y)`.
b : v2 . Vector2 object, in the form `(x, y)`.
c : v2 . Vector2 object, in the form `(x, y)`.
d : v2 . Vector2 object, in the form `(x, y)`.
xloc : string . Type of axis unit, bar_index or time.
bg_color : color . Color of the background.
line_color : color . Color of the line.
line_style : string . Style of the line.
line_width : int . Width of the line.
Returns: Quad object.
copy(this)
Copy a existing quad object.
Parameters:
this : Quad . Source quad.
Returns: Quad.
set_position_a(this, x, y)
Set the position of corner `a` (modifies source quad).
Parameters:
this : Quad . Source quad.
x : int . Value at the x axis.
y : float . Value at the y axis.
Returns: Source Quad.
set_position_a(this, position)
Set the position of corner `a` (modifies source quad).
Parameters:
this : Quad . Source quad.
position : Vector2 . New position.
Returns: Source Quad.
set_position_b(this, x, y)
Set the position of corner `b` (modifies source quad).
Parameters:
this : Quad . Source quad.
x : int . Value at the x axis.
y : float . Value at the y axis.
Returns: Source Quad.
set_position_b(this, position)
Set the position of corner `b` (modifies source quad).
Parameters:
this : Quad . Source quad.
position : Vector2 . New position.
Returns: Source Quad.
set_position_c(this, x, y)
Set the position of corner `c` (modifies source quad).
Parameters:
this : Quad . Source quad.
x : int . Value at the x axis.
y : float . Value at the y axis.
Returns: Source Quad.
set_position_c(this, position)
Set the position of corner `c` (modifies source quad).
Parameters:
this : Quad . Source quad.
position : Vector2 . New position.
Returns: Source Quad.
set_position_d(this, x, y)
Set the position of corner `d` (modifies source quad).
Parameters:
this : Quad . Source quad.
x : int . Value at the x axis.
y : float . Value at the y axis.
Returns: Source Quad.
set_position_d(this, position)
Set the position of corner `d` (modifies source quad).
Parameters:
this : Quad . Source quad.
position : Vector2 . New position.
Returns: Source Quad.
set_style(this, bg_color, line_color, line_style, line_width)
Update quad style options (modifies Source quad).
Parameters:
this : Quad . Source quad.
bg_color : color . Color of the background.
line_color : color . Color of the line.
line_style : string . Style of the line.
line_width : int . Width of the line.
Returns: Source Quad.
set_bg_color(this, bg_color)
Update quad style options (modifies Source quad).
Parameters:
this : Quad . Source quad.
bg_color : color . Color of the background.
Returns: Source Quad.
set_line_color(this, line_color)
Update quad style options (modifies Source quad).
Parameters:
this : Quad . Source quad.
line_color : color . Color of the line.
Returns: Source Quad.
set_line_style(this, line_style)
Update quad style options (modifies Source quad).
Parameters:
this : Quad . Source quad.
line_style : string . Style of the line.
Returns: Source Quad.
set_line_width(this, line_width)
Update quad style options (modifies Source quad).
Parameters:
this : Quad . Source quad.
line_width : int . Width of the line.
Returns: Source Quad.
move(this, x, y)
Move quad by provided amount (modifies source quad).
Parameters:
this : Quad . Source quad.
x : float . Amount to move the vertices of the quad in the x axis.
y : float . Amount to move the vertices of the quad in the y axis.
Returns: Source Quad.
move(this, amount)
Move quad by provided amount (modifies source quad).
Parameters:
this : Quad . Source quad.
amount : Vector2 . Amount to move the vertices of the quad in the x and y axis.
Returns: Source Quad.
rotate_around(this, center, angle)
Rotate source quad around a center (modifies source quad).
Parameters:
this : Quad . Source quad.
center : Vector2 . Center coordinates of the rotation.
angle : float . Value of angle in degrees.
Returns: Source Quad.
rotate_around(this, center_x, center_y, angle)
Rotate source quad around a center (modifies source quad).
Parameters:
this : Quad . Source quad.
center_x : int . Center coordinates of the rotation.
center_y : float . Center coordinates of the rotation.
angle : float . Value of angle in degrees.
Returns: Source Quad.
MathComplexNumbersThis is a Pine Script library for handling complex numbers without arrays. It contains several utility functions for performing various operations on complex numbers, including converting complex numbers into tuples, getting the real and imaginary parts of a complex number, adding and subtracting complex numbers, computing the conjugate, multiplying and dividing complex numbers, computing the reciprocal, the inverse, the negative, the exponential, the ceil and the radius of a complex number.
The library exports a complex data type which consists of two float values: re, the real part of the complex number, and im, the imaginary part of the complex number.
The complex_tuple function and ct function convert a complex number into a tuple, and the get_real, get_imaginary, re, and im functions return the real and imaginary parts of a complex number.
The add and subtract functions add and subtract two complex numbers, respectively, by performing the appropriate arithmetic operations on their real and imaginary parts. The conjugate function returns the complex conjugate of a given complex number, which is the same as the original number but with the sign of its imaginary part reversed. The multiply and divide functions multiply and divide two complex numbers, respectively, according to the rules of complex arithmetic. The reciprocal function computes the reciprocal or inverse of a given complex number, while the inverse function computes the inverse of a given complex number. The negative function returns the negative of a given complex number, and the exponential function computes the exponential of a given complex number. The ceil function rounds a given complex number up to a specified number of digits. The radius function computes the radius (magnitude) of a given complex number, which is defined as its distance from the origin (0,0) of the complex plane.
Vector2DrawTriangleLibrary "Vector2DrawTriangle"
Functions to draw a triangle and manipulate its properties.
new(a, b, c, xloc, bg_color, line_color, line_style, line_width)
Draws a triangle with background fill using line prototype.
Parameters:
a : v2 . Vector2 object, in the form `(x, y)`.
b : v2 . Vector2 object, in the form `(x, y)`.
c : v2 . Vector2 object, in the form `(x, y)`.
xloc : string . Type of axis unit, bar_index or time.
bg_color : color . Color of the background.
line_color : color . Color of the line.
line_style : string . Style of the line.
line_width : int . Width of the line.
Returns: Triangle object.
copy(this)
Copy a existing triangle object.
Parameters:
this : Triangle . Source triangle.
Returns: Triangle.
set_position_a(this, x, y)
Set the position of corner `a` (modifies source triangle).
Parameters:
this : Triangle . Source triangle.
x : int . Value at the x axis.
y : float . Value at the y axis.
Returns: Source Triangle.
set_position_a(this, position)
Set the position of corner `a` (modifies source triangle).
Parameters:
this : Triangle . Source triangle.
position : Vector2 . New position.
Returns: Source Triangle.
set_position_b(this, x, y)
Set the position of corner `b` (modifies source triangle).
Parameters:
this : Triangle . Source triangle.
x : int . Value at the x axis.
y : float . Value at the y axis.
Returns: Source Triangle.
set_position_b(this, position)
Set the position of corner `b` (modifies source triangle).
Parameters:
this : Triangle . Source triangle.
position : Vector2 . New position.
Returns: Source Triangle.
set_position_c(this, x, y)
Set the position of corner `c` (modifies source triangle).
Parameters:
this : Triangle . Source triangle.
x : int . Value at the x axis.
y : float . Value at the y axis.
Returns: Source Triangle.
set_position_c(this, position)
Set the position of corner `c` (modifies source triangle).
Parameters:
this : Triangle . Source triangle.
position : Vector2 . New position.
Returns: Source Triangle.
set_style(this, bg_color, line_color, line_style, line_width)
Update triangle style options (modifies Source triangle).
Parameters:
this : Triangle . Source triangle.
bg_color : color . Color of the background.
line_color : color . Color of the line.
line_style : string . Style of the line.
line_width : int . Width of the line.
Returns: Source Triangle.
set_bg_color(this, bg_color)
Update triangle style options (modifies Source triangle).
Parameters:
this : Triangle . Source triangle.
bg_color : color . Color of the background.
Returns: Source Triangle.
set_line_color(this, line_color)
Update triangle style options (modifies Source triangle).
Parameters:
this : Triangle . Source triangle.
line_color : color . Color of the line.
Returns: Source Triangle.
set_line_style(this, line_style)
Update triangle style options (modifies Source triangle).
Parameters:
this : Triangle . Source triangle.
line_style : string . Style of the line.
Returns: Source Triangle.
set_line_width(this, line_width)
Update triangle style options (modifies Source triangle).
Parameters:
this : Triangle . Source triangle.
line_width : int . Width of the line.
Returns: Source Triangle.
move(this, x, y)
Move triangle by provided amount (modifies source triangle).
Parameters:
this : Triangle . Source triangle.
x : float . Amount to move the vertices of the triangle in the x axis.
y : float . Amount to move the vertices of the triangle in the y axis.
Returns: Source Triangle.
move(this, amount)
Move triangle by provided amount (modifies source triangle).
Parameters:
this : Triangle . Source triangle.
amount : Vector2 . Amount to move the vertices of the triangle in the x and y axis.
Returns: Source Triangle.
rotate_around(this, center, angle)
Rotate source triangle around a center (modifies source triangle).
Parameters:
this : Triangle . Source triangle.
center : Vector2 . Center coordinates of the rotation.
angle : float . Value of angle in degrees.
Returns: Source Triangle.
rotate_around(this, center_x, center_y, angle)
Rotate source triangle around a center (modifies source triangle).
Parameters:
this : Triangle . Source triangle.
center_x : int . Center coordinates of the rotation.
center_y : float . Center coordinates of the rotation.
angle : float . Value of angle in degrees.
Returns: Source Triangle.
time_filtersLibrary "time_filters"
Collection of filters that related with time like sessions and datetime ranges.
All existing session functions I found in the documentation e.g. not na(time(timeframe.period, sessionTimes))
are not suitable for strategies, since the execution of the entries and the exits are delayed by one bar.
Thus I created this library to overcome this small but very important limitation.
is_in_date_range(fromDate, toDate, srcTimezone, dstTimezone, t)
is_in_date_range - Check if the given time is between the start and end dates
Parameters:
fromDate : - The start date in UNIX time of the valid range
toDate : - The end date in UNIX time of the valid range
srcTimezone : - The timezone of reference for the 'from' and 'to' dates
dstTimezone : - The target timezone to convert the 'from' and 'to' dates
t : - The time to compare in UNIX format
Returns: series of bool whether or not the time is inside the valid range
is_in_session(startTime, endTime, days, srcTimezone, dstTimezone, t)
is_in_session - Check if the given time is inside the session as defined by the input params
Parameters:
startTime : - The sessionTime object with the use flag and the start time
endTime : - The sessionTime object with the use flag and the end time
days : - The sessionDays object with the use flag and marks for each day of the session
srcTimezone : - The timezone of reference for the time ranges
dstTimezone : - The target timezone to convert the time ranges
t : - The current time to compare in UNIX format.
Returns: series of bool whether or not the time is inside the session
sessionTime
Fields:
hourInDay
minuteInHour
sessionDays
Fields:
mon
tue
wed
thu
fri
sat
sun
CommonTypesDrawingLibrary "CommonTypesDrawing"
Provides a common library source for common types of used graphical drawing structures.
Includes: `Triangle, Quad, Polygon`
Triangle
Representation of a triangle using lines and linefill.
Fields:
ab : Edge of point a to b.
bc : Edge of point b to c.
ca : Edge of point c to a.
fill : Fill of the object.
solid : Check if polygon should have a fill.
Quad
Representation of a quadrilateral using lines and linefill.
Fields:
ab : Edge of point a to b.
bc : Edge of point b to c.
cd : Edge of point c to d.
da : Edge of point d to a.
fill : Fill of the object.
solid : Check if polygon should have a fill.
Polygon
Representation of a polygon using lines and linefill.
Fields:
edges : List of edges in the polygon.
fills : Fills of the object.
closed : Check if polygon line should connect last vertice to first.
solid : Check if polygon should have a fill.
Vector2DrawLineLibrary "Vector2DrawLine"
Extends line type with methods for Vector2 and Segment2.
new(origin, target, xloc, extend, color, style, width)
Draws a line using Segment type to hold its coordinate properties..
Parameters:
origin : Vector2 . Origin vector of the line.
target : Vector2 . Target vector of the line.
xloc : string
extend : string
color : color
style : string
width : int
Returns: line object
new(segment, xloc, extend, color, style, width)
Draws a line using Segment type to hold its coordinate properties..
Parameters:
segment : Segment2 . Segment with positional coordinates.
xloc : string
extend : string
color : color
style : string
width : int
Returns: line object
rotate_around(this, center, angle)
Instance method to rotate line around center vector (modifies input line).
Parameters:
this : line . Line object.
center : Vector2 . Center of rotation.
angle : float . Rotation angle in degrees.
Returns: line. Rotated line object.
Vector2Library "Vector2"
Representation of two dimensional vectors or points.
This structure is used to represent positions in two dimensional space or vectors,
for example in spacial coordinates in 2D space.
~~~
references:
docs.unity3d.com
gist.github.com
github.com
gist.github.com
gist.github.com
gist.github.com
~~~
new(x, y)
Create a new Vector2 object.
Parameters:
x : float . The x value of the vector, default=0.
y : float . The y value of the vector, default=0.
Returns: Vector2. Vector2 object.
-> usage:
`unitx = Vector2.new(1.0) , plot(unitx.x)`
from(value)
Assigns value to a new vector `x,y` elements.
Parameters:
value : float, x and y value of the vector.
Returns: Vector2. Vector2 object.
-> usage:
`one = Vector2.from(1.0), plot(one.x)`
from(value, element_sep, open_par, close_par)
Assigns value to a new vector `x,y` elements.
Parameters:
value : string . The `x` and `y` value of the vector in a `x,y` or `(x,y)` format, spaces and parentesis will be removed automatically.
element_sep : string . Element separator character, default=`,`.
open_par : string . Open parentesis character, default=`(`.
close_par : string . Close parentesis character, default=`)`.
Returns: Vector2. Vector2 object.
-> usage:
`one = Vector2.from("1.0,2"), plot(one.x)`
copy(this)
Creates a deep copy of a vector.
Parameters:
this : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = Vector2.new(1.0) , b = a.copy() , plot(b.x)`
down()
Vector in the form `(0, -1)`.
Returns: Vector2. Vector2 object.
left()
Vector in the form `(-1, 0)`.
Returns: Vector2. Vector2 object.
right()
Vector in the form `(1, 0)`.
Returns: Vector2. Vector2 object.
up()
Vector in the form `(0, 1)`.
Returns: Vector2. Vector2 object.
one()
Vector in the form `(1, 1)`.
Returns: Vector2. Vector2 object.
zero()
Vector in the form `(0, 0)`.
Returns: Vector2. Vector2 object.
minus_one()
Vector in the form `(-1, -1)`.
Returns: Vector2. Vector2 object.
unit_x()
Vector in the form `(1, 0)`.
Returns: Vector2. Vector2 object.
unit_y()
Vector in the form `(0, 1)`.
Returns: Vector2. Vector2 object.
nan()
Vector in the form `(float(na), float(na))`.
Returns: Vector2. Vector2 object.
xy(this)
Return the values of `x` and `y` as a tuple.
Parameters:
this : Vector2 . Vector2 object.
Returns: .
-> usage:
`a = Vector2.new(1.0, 1.0) , = a.xy() , plot(ax)`
length_squared(this)
Length of vector `a` in the form. `a.x^2 + a.y^2`, for comparing vectors this is computationaly lighter.
Parameters:
this : Vector2 . Vector2 object.
Returns: float. Squared length of vector.
-> usage:
`a = Vector2.new(1.0, 1.0) , plot(a.length_squared())`
length(this)
Magnitude of vector `a` in the form. `sqrt(a.x^2 + a.y^2)`
Parameters:
this : Vector2 . Vector2 object.
Returns: float. Length of vector.
-> usage:
`a = Vector2.new(1.0, 1.0) , plot(a.length())`
normalize(a)
Vector normalized with a magnitude of 1, in the form. `a / length(a)`.
Parameters:
a : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = normalize(Vector2.new(3.0, 2.0)) , plot(a.y)`
isNA(this)
Checks if any of the components is `na`.
Parameters:
this : Vector2 . Vector2 object.
Returns: bool.
usage:
p = Vector2.new(1.0, na) , plot(isNA(p)?1:0)
add(a, b)
Adds vector `b` to `a`, in the form `(a.x + b.x, a.y + b.y)`.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = one() , b = one() , c = add(a, b) , plot(c.x)`
add(a, b)
Adds vector `b` to `a`, in the form `(a.x + b, a.y + b)`.
Parameters:
a : Vector2 . Vector2 object.
b : float . Value.
Returns: Vector2. Vector2 object.
-> usage:
`a = one() , b = 1.0 , c = add(a, b) , plot(c.x)`
add(a, b)
Adds vector `b` to `a`, in the form `(a + b.x, a + b.y)`.
Parameters:
a : float . Value.
b : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = 1.0 , b = one() , c = add(a, b) , plot(c.x)`
subtract(a, b)
Subtract vector `b` from `a`, in the form `(a.x - b.x, a.y - b.y)`.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = one() , b = one() , c = subtract(a, b) , plot(c.x)`
subtract(a, b)
Subtract vector `b` from `a`, in the form `(a.x - b, a.y - b)`.
Parameters:
a : Vector2 . vector2 object.
b : float . Value.
Returns: Vector2. Vector2 object.
-> usage:
`a = one() , b = 1.0 , c = subtract(a, b) , plot(c.x)`
subtract(a, b)
Subtract vector `b` from `a`, in the form `(a - b.x, a - b.y)`.
Parameters:
a : float . value.
b : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = 1.0 , b = one() , c = subtract(a, b) , plot(c.x)`
multiply(a, b)
Multiply vector `a` with `b`, in the form `(a.x * b.x, a.y * b.y)`.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = one() , b = one() , c = multiply(a, b) , plot(c.x)`
multiply(a, b)
Multiply vector `a` with `b`, in the form `(a.x * b, a.y * b)`.
Parameters:
a : Vector2 . Vector2 object.
b : float . Value.
Returns: Vector2. Vector2 object.
-> usage:
`a = one() , b = 1.0 , c = multiply(a, b) , plot(c.x)`
multiply(a, b)
Multiply vector `a` with `b`, in the form `(a * b.x, a * b.y)`.
Parameters:
a : float . Value.
b : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = 1.0 , b = one() , c = multiply(a, b) , plot(c.x)`
divide(a, b)
Divide vector `a` with `b`, in the form `(a.x / b.x, a.y / b.y)`.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = from(3.0) , b = from(2.0) , c = divide(a, b) , plot(c.x)`
divide(a, b)
Divide vector `a` with value `b`, in the form `(a.x / b, a.y / b)`.
Parameters:
a : Vector2 . Vector2 object.
b : float . Value.
Returns: Vector2. Vector2 object.
-> usage:
`a = from(3.0) , b = 2.0 , c = divide(a, b) , plot(c.x)`
divide(a, b)
Divide value `a` with vector `b`, in the form `(a / b.x, a / b.y)`.
Parameters:
a : float . Value.
b : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = 3.0 , b = from(2.0) , c = divide(a, b) , plot(c.x)`
negate(a)
Negative of vector `a`, in the form `(-a.x, -a.y)`.
Parameters:
a : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = from(3.0) , b = a.negate , plot(b.x)`
pow(a, b)
Raise vector `a` with exponent vector `b`, in the form `(a.x ^ b.x, a.y ^ b.y)`.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = from(3.0) , b = from(2.0) , c = pow(a, b) , plot(c.x)`
pow(a, b)
Raise vector `a` with value `b`, in the form `(a.x ^ b, a.y ^ b)`.
Parameters:
a : Vector2 . Vector2 object.
b : float . Value.
Returns: Vector2. Vector2 object.
-> usage:
`a = from(3.0) , b = 2.0 , c = pow(a, b) , plot(c.x)`
pow(a, b)
Raise value `a` with vector `b`, in the form `(a ^ b.x, a ^ b.y)`.
Parameters:
a : float . Value.
b : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = 3.0 , b = from(2.0) , c = pow(a, b) , plot(c.x)`
sqrt(a)
Square root of the elements in a vector.
Parameters:
a : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = from(3.0) , b = sqrt(a) , plot(b.x)`
abs(a)
Absolute properties of the vector.
Parameters:
a : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = from(-3.0) , b = abs(a) , plot(b.x)`
min(a)
Lowest element of a vector.
Parameters:
a : Vector2 . Vector2 object.
Returns: float.
-> usage:
`a = new(3.0, 1.5) , b = min(a) , plot(b)`
max(a)
Highest element of a vector.
Parameters:
a : Vector2 . Vector2 object.
Returns: float.
-> usage:
`a = new(3.0, 1.5) , b = max(a) , plot(b)`
vmax(a, b)
Highest elements of two vectors.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 2.0) , b = new(2.0, 3.0) , c = vmax(a, b) , plot(c.x)`
vmax(a, b, c)
Highest elements of three vectors.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
c : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 2.0) , b = new(2.0, 3.0) , c = new(1.5, 4.5) , d = vmax(a, b, c) , plot(d.x)`
vmin(a, b)
Lowest elements of two vectors.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 2.0) , b = new(2.0, 3.0) , c = vmin(a, b) , plot(c.x)`
vmin(a, b, c)
Lowest elements of three vectors.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
c : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 2.0) , b = new(2.0, 3.0) , c = new(1.5, 4.5) , d = vmin(a, b, c) , plot(d.x)`
perp(a)
Perpendicular Vector of `a`, in the form `(a.y, -a.x)`.
Parameters:
a : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = perp(a) , plot(b.x)`
floor(a)
Compute the floor of vector `a`.
Parameters:
a : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = floor(a) , plot(b.x)`
ceil(a)
Ceils vector `a`.
Parameters:
a : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = ceil(a) , plot(b.x)`
ceil(a, digits)
Ceils vector `a`.
Parameters:
a : Vector2 . Vector2 object.
digits : int . Digits to use as ceiling.
Returns: Vector2. Vector2 object.
round(a)
Round of vector elements.
Parameters:
a : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = round(a) , plot(b.x)`
round(a, precision)
Round of vector elements.
Parameters:
a : Vector2 . Vector2 object.
precision : int . Number of digits to round vector "a" elements.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(0.123456, 1.234567) , b = round(a, 2) , plot(b.x)`
fractional(a)
Compute the fractional part of the elements from vector `a`.
Parameters:
a : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.123456, 1.23456) , b = fractional(a) , plot(b.x)`
dot_product(a, b)
dot_product product of 2 vectors, in the form `a.x * b.x + a.y * b.y.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
Returns: float.
-> usage:
`a = new(3.0, 1.5) , b = from(2.0) , c = dot_product(a, b) , plot(c)`
cross_product(a, b)
cross product of 2 vectors, in the form `a.x * b.y - a.y * b.x`.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
Returns: float.
-> usage:
`a = new(3.0, 1.5) , b = from(2.0) , c = cross_product(a, b) , plot(c)`
equals(a, b)
Compares two vectors
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
Returns: bool. Representing the equality.
-> usage:
`a = new(3.0, 1.5) , b = from(2.0) , c = equals(a, b) ? 1 : 0 , plot(c)`
sin(a)
Compute the sine of argument vector `a`.
Parameters:
a : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = sin(a) , plot(b.x)`
cos(a)
Compute the cosine of argument vector `a`.
Parameters:
a : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = cos(a) , plot(b.x)`
tan(a)
Compute the tangent of argument vector `a`.
Parameters:
a : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = tan(a) , plot(b.x)`
atan2(x, y)
Approximation to atan2 calculation, arc tangent of `y/x` in the range (-pi,pi) radians.
Parameters:
x : float . The x value of the vector.
y : float . The y value of the vector.
Returns: float. Value with angle in radians. (negative if quadrante 3 or 4)
-> usage:
`a = new(3.0, 1.5) , b = atan2(a.x, a.y) , plot(b)`
atan2(a)
Approximation to atan2 calculation, arc tangent of `y/x` in the range (-pi,pi) radians.
Parameters:
a : Vector2 . Vector2 object.
Returns: float, value with angle in radians. (negative if quadrante 3 or 4)
-> usage:
`a = new(3.0, 1.5) , b = atan2(a) , plot(b)`
distance(a, b)
Distance between vector `a` and `b`.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
Returns: float.
-> usage:
`a = new(3.0, 1.5) , b = from(2.0) , c = distance(a, b) , plot(c)`
rescale(a, length)
Rescale a vector to a new magnitude.
Parameters:
a : Vector2 . Vector2 object.
length : float . Magnitude.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = 2.0 , c = rescale(a, b) , plot(c.x)`
rotate(a, radians)
Rotates vector by a angle.
Parameters:
a : Vector2 . Vector2 object.
radians : float . Angle value in radians.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = 2.0 , c = rotate(a, b) , plot(c.x)`
rotate_degree(a, degree)
Rotates vector by a angle.
Parameters:
a : Vector2 . Vector2 object.
degree : float . Angle value in degrees.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = 45.0 , c = rotate_degree(a, b) , plot(c.x)`
rotate_around(this, center, angle)
Rotates vector `target` around `origin` by angle value.
Parameters:
this
center : Vector2 . Vector2 object.
angle : float . Angle value in degrees.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = from(2.0) , c = rotate_around(a, b, 45.0) , plot(c.x)`
perpendicular_distance(a, b, c)
Distance from point `a` to line between `b` and `c`.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
c : Vector2 . Vector2 object.
Returns: float.
-> usage:
`a = new(1.5, 2.6) , b = from(1.0) , c = from(3.0) , d = perpendicular_distance(a, b, c) , plot(d.x)`
project(a, axis)
Project a vector onto another.
Parameters:
a : Vector2 . Vector2 object.
axis : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = from(2.0) , c = project(a, b) , plot(c.x)`
projectN(a, axis)
Project a vector onto a vector of unit length.
Parameters:
a : Vector2 . Vector2 object.
axis : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = from(2.0) , c = projectN(a, b) , plot(c.x)`
reflect(a, axis)
Reflect a vector on another.
Parameters:
a : Vector2 . Vector2 object.
axis
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = from(2.0) , c = reflect(a, b) , plot(c.x)`
reflectN(a, axis)
Reflect a vector to a arbitrary axis.
Parameters:
a : Vector2 . Vector2 object.
axis
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = from(2.0) , c = reflectN(a, b) , plot(c.x)`
angle(a)
Angle in radians of a vector.
Parameters:
a : Vector2 . Vector2 object.
Returns: float.
-> usage:
`a = new(3.0, 1.5) , b = angle(a) , plot(b)`
angle_unsigned(a, b)
unsigned degree angle between 0 and +180 by given two vectors.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
Returns: float.
-> usage:
`a = new(3.0, 1.5) , b = from(2.0) , c = angle_unsigned(a, b) , plot(c)`
angle_signed(a, b)
Signed degree angle between -180 and +180 by given two vectors.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
Returns: float.
-> usage:
`a = new(3.0, 1.5) , b = from(2.0) , c = angle_signed(a, b) , plot(c)`
angle_360(a, b)
Degree angle between 0 and 360 by given two vectors
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
Returns: float.
-> usage:
`a = new(3.0, 1.5) , b = from(2.0) , c = angle_360(a, b) , plot(c)`
clamp(a, min, max)
Restricts a vector between a min and max value.
Parameters:
a : Vector2 . Vector2 object.
min
max
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = from(2.0) , c = from(2.5) , d = clamp(a, b, c) , plot(d.x)`
clamp(a, min, max)
Restricts a vector between a min and max value.
Parameters:
a : Vector2 . Vector2 object.
min : float . Lower boundary value.
max : float . Higher boundary value.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = clamp(a, 2.0, 2.5) , plot(b.x)`
lerp(a, b, rate)
Linearly interpolates between vectors a and b by rate.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
rate : float . Value between (a:-infinity -> b:1.0), negative values will move away from b.
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = from(2.0) , c = lerp(a, b, 0.5) , plot(c.x)`
herp(a, b, rate)
Hermite curve interpolation between vectors a and b by rate.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
rate : Vector2 . Vector2 object. Value between (a:0 > 1:b).
Returns: Vector2. Vector2 object.
-> usage:
`a = new(3.0, 1.5) , b = from(2.0) , c = from(2.5) , d = herp(a, b, c) , plot(d.x)`
transform(position, mat)
Transform a vector by the given matrix.
Parameters:
position : Vector2 . Source vector.
mat : M32 . Transformation matrix
Returns: Vector2. Transformed vector.
transform(position, mat)
Transform a vector by the given matrix.
Parameters:
position : Vector2 . Source vector.
mat : M44 . Transformation matrix
Returns: Vector2. Transformed vector.
transform(position, mat)
Transform a vector by the given matrix.
Parameters:
position : Vector2 . Source vector.
mat : matrix . Transformation matrix, requires a 3x2 or a 4x4 matrix.
Returns: Vector2. Transformed vector.
transform(this, rotation)
Transform a vector by the given quaternion rotation value.
Parameters:
this : Vector2 . Source vector.
rotation : Quaternion . Rotation to apply.
Returns: Vector2. Transformed vector.
area_triangle(a, b, c)
Find the area in a triangle of vectors.
Parameters:
a : Vector2 . Vector2 object.
b : Vector2 . Vector2 object.
c : Vector2 . Vector2 object.
Returns: float.
-> usage:
`a = new(1.0, 2.0) , b = from(2.0) , c = from(1.0) , d = area_triangle(a, b, c) , plot(d.x)`
random(max)
2D random value.
Parameters:
max : Vector2 . Vector2 object. Vector upper boundary.
Returns: Vector2. Vector2 object.
-> usage:
`a = from(2.0) , b = random(a) , plot(b.x)`
random(max)
2D random value.
Parameters:
max : float, Vector upper boundary.
Returns: Vector2. Vector2 object.
-> usage:
`a = random(2.0) , plot(a.x)`
random(min, max)
2D random value.
Parameters:
min : Vector2 . Vector2 object. Vector lower boundary.
max : Vector2 . Vector2 object. Vector upper boundary.
Returns: Vector2. Vector2 object.
-> usage:
`a = from(1.0) , b = from(2.0) , c = random(a, b) , plot(c.x)`
random(min, max)
2D random value.
Parameters:
min : Vector2 . Vector2 object. Vector lower boundary.
max : Vector2 . Vector2 object. Vector upper boundary.
Returns: Vector2. Vector2 object.
-> usage:
`a = random(1.0, 2.0) , plot(a.x)`
noise(a)
2D Noise based on Morgan McGuire @morgan3d.
Parameters:
a : Vector2 . Vector2 object.
Returns: Vector2. Vector2 object.
-> usage:
`a = from(2.0) , b = noise(a) , plot(b.x)`
to_string(a)
Converts vector `a` to a string format, in the form `"(x, y)"`.
Parameters:
a : Vector2 . Vector2 object.
Returns: string. In `"(x, y)"` format.
-> usage:
`a = from(2.0) , l = barstate.islast ? label.new(bar_index, 0.0, to_string(a)) : label(na)`
to_string(a, format)
Converts vector `a` to a string format, in the form `"(x, y)"`.
Parameters:
a : Vector2 . Vector2 object.
format : string . Format to apply transformation.
Returns: string. In `"(x, y)"` format.
-> usage:
`a = from(2.123456) , l = barstate.islast ? label.new(bar_index, 0.0, to_string(a, "#.##")) : label(na)`
to_array(a)
Converts vector to a array format.
Parameters:
a : Vector2 . Vector2 object.
Returns: array.
-> usage:
`a = from(2.0) , b = to_array(a) , plot(array.get(b, 0))`
to_barycentric(this, a, b, c)
Captures the barycentric coordinate of a cartesian position in the triangle plane.
Parameters:
this : Vector2 . Source cartesian coordinate position.
a : Vector2 . Triangle corner `a` vertice.
b : Vector2 . Triangle corner `b` vertice.
c : Vector2 . Triangle corner `c` vertice.
Returns: bool.
from_barycentric(this, a, b, c)
Captures the cartesian coordinate of a barycentric position in the triangle plane.
Parameters:
this : Vector2 . Source barycentric coordinate position.
a : Vector2 . Triangle corner `a` vertice.
b : Vector2 . Triangle corner `b` vertice.
c : Vector2 . Triangle corner `c` vertice.
Returns: bool.
to_complex(this)
Translate a Vector2 structure to complex.
Parameters:
this : Vector2 . Source vector.
Returns: Complex.
to_polar(this)
Translate a Vector2 cartesian coordinate into polar coordinates.
Parameters:
this : Vector2 . Source vector.
Returns: Pole. The returned angle is in radians.
keyed value types with pseudo-dict - Methods Library "key_vals"
a set of primitive single-type key/value items, and pseudo-dictionaries
The dictionaries are single arrays of items, each item has a key and value.
The library is 100% methods. add, remove, get and set items by key.
It provides methods to get all the keys, values or items in the dict as arrays.
For those familiar with python, it's similar, but typified.. and the brackets are round.
example syntax.. using floats, the same functions exist for Int, Bool and String
new float_item
new (‘demo’, 1.0 )
set the key of a float_item
float_item.key (‘demo’)
get the key of a float_item
float_item.key ()
set the value of a float_item
float_item.val (1.5)
get the value of a float_item
float_item.val ()
get the number of items in a dict
float_dict.count ()
set an item to a dict by key ( add / update)
float_dict.set ( ‘demo’, 2.0 )
remove an item from a dict by key (changes index, but this is about keys, not ids)
float_dict.remove ( ‘demo’ )
get an item from a dict array
array.get (1 )
get an item from a dict by key
float_dict.get ( ‘demo’ )
get an item from a dict by id (remember, ids change if removed by key) mainlyy an internal function
float_dict.get ( 1)
return all keys as string
float_dict.get_keys()
return all values as float
float_dict.get_values()
return all items as float
float_dict.get_items()
create a new float dict in the multi dict and return the index of it
multi_dict.add_float_dict()
get the float dict at index 0 from the multi dict
multi_dict.get_float_dict( 0)
set an item in a float dict in a multi dict
multi_dict.set_float( ‘demo’, 2.0 )
get an item from a float dict in a multi dict
multi_dict.get_float( ‘demo’ )
float_item
float_item
Fields:
key : (string)
val : (float)
next : (float_item)
float_dict
float_dict
Fields:
content
int_item
int_item
Fields:
key : (string)
val : (int)
next : (int_item)
int_dict
int_dict
Fields:
content
string_item
string_item
Fields:
key : (string)
val : (string)
next : (string_item)
string_dict
string_dict
Fields:
content
bool_item
bool_item
Fields:
key : (string)
val : (bool)
next : (bool_item)
bool_dict
bool_dict
Fields:
content
multi_dict
multi_dict
Fields:
f_dicts
f_registry
i_dicts
i_registry
s_dicts
s_registry
b_dicts
b_registry
new(key, val)
new
Parameters:
key : string
val : float
new(key, val)
Parameters:
key
val
new(key, val)
Parameters:
key
val
new(key, val)
Parameters:
key
val
key(this, key)
key
Parameters:
this : float_item
key : string
key(this)
key
Parameters:
this : float_item
key(this, key)
Parameters:
this
key
key(this)
Parameters:
this
key(this, key)
Parameters:
this
key
key(this)
Parameters:
this
key(this, key)
Parameters:
this
key
key(this)
Parameters:
this
val(this)
val
Parameters:
this : float_item
val(this, val)
val
Parameters:
this : float_item
val : float
val(this)
Parameters:
this
val(this, val)
Parameters:
this
val
val(this)
Parameters:
this
val(this, val)
Parameters:
this
val
val(this)
Parameters:
this
val(this, val)
Parameters:
this
val
count(dict)
count
Parameters:
dict : float_dict
count(dict)
Parameters:
dict
count(dict)
Parameters:
dict
count(dict)
Parameters:
dict
get(dict, index)
get
Parameters:
dict : float_dict
index : int
get(dict, index)
get
Parameters:
dict : float_dict
index : int
get(d, key)
Parameters:
d
key
get(dict, index)
Parameters:
dict
index
get(dict, index)
Parameters:
dict
index
get(d, key)
Parameters:
d
key
get(dict, index)
Parameters:
dict
index
get(dict, index)
Parameters:
dict
index
get(d, key)
Parameters:
d
key
get(dict, index)
Parameters:
dict
index
get(dict, index)
Parameters:
dict
index
get(d, key)
Parameters:
d
key
set(d, key, val)
set
Parameters:
d : float_dict
key : string
val : float
set(d, key, val)
Parameters:
d
key
val
set(d, key, val)
Parameters:
d
key
val
set(d, key, val)
Parameters:
d
key
val
get_keys(d)
Parameters:
d
get_keys(d)
Parameters:
d
get_keys(d)
Parameters:
d
get_keys(d)
Parameters:
d
get_values(d)
Parameters:
d
get_values(d)
Parameters:
d
get_values(d)
Parameters:
d
get_values(d)
Parameters:
d
get_items(d)
Parameters:
d
get_items(d)
Parameters:
d
get_items(d)
Parameters:
d
get_items(d)
Parameters:
d
remove(dict, key)
Parameters:
dict
key
remove(dict, key)
Parameters:
dict
key
remove(dict, key)
Parameters:
dict
key
remove(dict, key)
Parameters:
dict
key
create_multi_dict()
add_float_dict(this)
Parameters:
this
add_int_dict(this)
Parameters:
this
add_string_dict(this)
Parameters:
this
add_bool_dict(this)
Parameters:
this
get_float_dict(this, index)
Parameters:
this
index
get_float_dict(this, key)
Parameters:
this
key
get_int_dict(this, index)
Parameters:
this
index
get_int_dict(this, key)
Parameters:
this
key
get_string_dict(this, index)
Parameters:
this
index
get_string_dict(this, key)
Parameters:
this
key
get_bool_dict(this, index)
Parameters:
this
index
get_bool_dict(this, key)
Parameters:
this
key
set_float(this, key, val)
Parameters:
this
key
val
set_int(this, key, val)
Parameters:
this
key
val
set_string(this, key, val)
Parameters:
this
key
val
set_bool(this, key, val)
Parameters:
this
key
val
PitchforkMethodsLibrary "PitchforkMethods"
Methods associated with Pitchfork and Pitchfork Drawing. Depends on the library PitchforkTypes for Pitchfork/PitchforkDrawing objects which in turn use DrawingTypes for basic objects Point/Line/LineProperties. Also depends on DrawingMethods for related methods
tostring(this)
Converts PitchforkTypes/Fork object to string representation
Parameters:
this : PitchforkTypes/Fork object
Returns: string representation of PitchforkTypes/Fork
tostring(this)
Converts Array of PitchforkTypes/Fork object to string representation
Parameters:
this : Array of PitchforkTypes/Fork object
Returns: string representation of PitchforkTypes/Fork array
tostring(this, sortKeys, sortOrder)
Converts PitchforkTypes/PitchforkProperties object to string representation
Parameters:
this : PitchforkTypes/PitchforkProperties object
sortKeys : If set to true, string output is sorted by keys.
sortOrder : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys
Returns: string representation of PitchforkTypes/PitchforkProperties
tostring(this, sortKeys, sortOrder)
Converts PitchforkTypes/PitchforkDrawingProperties object to string representation
Parameters:
this : PitchforkTypes/PitchforkDrawingProperties object
sortKeys : If set to true, string output is sorted by keys.
sortOrder : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys
Returns: string representation of PitchforkTypes/PitchforkDrawingProperties
tostring(this, sortKeys, sortOrder)
Converts PitchforkTypes/Pitchfork object to string representation
Parameters:
this : PitchforkTypes/Pitchfork object
sortKeys : If set to true, string output is sorted by keys.
sortOrder : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys
Returns: string representation of PitchforkTypes/Pitchfork
createDrawing(this)
Creates PitchforkTypes/PitchforkDrawing from PitchforkTypes/Pitchfork object
Parameters:
this : PitchforkTypes/Pitchfork object
Returns: PitchforkTypes/PitchforkDrawing object created
createDrawing(this)
Creates PitchforkTypes/PitchforkDrawing array from PitchforkTypes/Pitchfork array of objects
Parameters:
this : array of PitchforkTypes/Pitchfork object
Returns: array of PitchforkTypes/PitchforkDrawing object created
draw(this)
draws from PitchforkTypes/PitchforkDrawing object
Parameters:
this : PitchforkTypes/PitchforkDrawing object
Returns: PitchforkTypes/PitchforkDrawing object drawn
delete(this)
deletes PitchforkTypes/PitchforkDrawing object
Parameters:
this : PitchforkTypes/PitchforkDrawing object
Returns: PitchforkTypes/PitchforkDrawing object deleted
delete(this)
deletes underlying drawing of PitchforkTypes/Pitchfork object
Parameters:
this : PitchforkTypes/Pitchfork object
Returns: PitchforkTypes/Pitchfork object deleted
delete(this)
deletes array of PitchforkTypes/PitchforkDrawing objects
Parameters:
this : Array of PitchforkTypes/PitchforkDrawing object
Returns: Array of PitchforkTypes/PitchforkDrawing object deleted
delete(this)
deletes underlying drawing in array of PitchforkTypes/Pitchfork objects
Parameters:
this : Array of PitchforkTypes/Pitchfork object
Returns: Array of PitchforkTypes/Pitchfork object deleted
clear(this)
deletes array of PitchforkTypes/PitchforkDrawing objects and clears the array
Parameters:
this : Array of PitchforkTypes/PitchforkDrawing object
Returns: void
clear(this)
deletes array of PitchforkTypes/Pitchfork objects and clears the array
Parameters:
this : Array of Pitchfork/Pitchfork object
Returns: void
PitchforkTypesLibrary "PitchforkTypes"
User Defined Types to be used for Pitchfork and Drawing elements of Pitchfork. Depends on DrawingTypes for Point, Line, and LineProperties objects
PitchforkDrawingProperties
Pitchfork Drawing Properties object
Fields:
extend : If set to true, forks are extended towards right. Default is true
fill : Fill forklines with transparent color. Default is true
fillTransparency : Transparency at which fills are made. Only considered when fill is set. Default is 80
forceCommonColor : Force use of common color for forks and fills. Default is false
commonColor : common fill color. Used only if ratio specific fill colors are not available or if forceCommonColor is set to true.
PitchforkDrawing
Pitchfork drawing components
Fields:
medianLine : Median line of the pitchfork
baseLine : Base line of the pitchfork
forkLines : fork lines of the pitchfork
linefills : Linefills between forks
Fork
Fork object property
Fields:
ratio : Fork ratio
forkColor : color of fork. Default is blue
include : flag to include the fork in drawing. Default is true
PitchforkProperties
Pitchfork Properties
Fields:
forks : Array of Fork objects
type : Pitchfork type. Supported values are "regular", "schiff", "mschiff", Default is regular
inside : Flag to identify if to draw inside fork. If set to true, inside fork will be drawn
Pitchfork
Pitchfork object
Fields:
a : Pivot Point A of pitchfork
b : Pivot Point B of pitchfork
c : Pivot Point C of pitchfork
properties : PitchforkProperties object which determines type and composition of pitchfork
dProperties : Drawing properties for pitchfork
lProperties : Common line properties for Pitchfork lines
drawing : PitchforkDrawing object
ZigzagMethodsLibrary "ZigzagMethods"
Object oriented implementation of Zigzag methods. Please refer to ZigzagTypes library for User defined types used in this library
tostring(this, sortKeys, sortOrder, includeKeys)
Converts ZigzagTypes/Pivot object to string representation
Parameters:
this : ZigzagTypes/Pivot
sortKeys : If set to true, string output is sorted by keys.
sortOrder : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys
includeKeys : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered
Returns: string representation of ZigzagTypes/Pivot
tostring(this, sortKeys, sortOrder, includeKeys)
Converts Array of Pivot objects to string representation
Parameters:
this : Pivot object array
sortKeys : If set to true, string output is sorted by keys.
sortOrder : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys
includeKeys : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered
Returns: string representation of Pivot object array
tostring(this)
Converts ZigzagFlags object to string representation
Parameters:
this : ZigzagFlags object
Returns: string representation of ZigzagFlags
tostring(this, sortKeys, sortOrder, includeKeys)
Converts ZigzagTypes/Zigzag object to string representation
Parameters:
this : ZigzagTypes/Zigzagobject
sortKeys : If set to true, string output is sorted by keys.
sortOrder : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys
includeKeys : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered
Returns: string representation of ZigzagTypes/Zigzag
calculate(this, ohlc, indicators, indicatorNames)
Calculate zigzag based on input values and indicator values
Parameters:
this : Zigzag object
ohlc : Array containing OHLC values. Can also have custom values for which zigzag to be calculated
indicators : Array of indicator values
indicatorNames : Array of indicator names for which values are present. Size of indicators array should be equal to that of indicatorNames
Returns: current Zigzag object
calculate(this)
Calculate zigzag based on properties embedded within Zigzag object
Parameters:
this : Zigzag object
Returns: current Zigzag object
nextlevel(this)
Calculate Next Level Zigzag based on the current calculated zigzag object
Parameters:
this : Zigzag object
Returns: Next Level Zigzag object
clear(this)
Clears zigzag drawings array
Parameters:
this : array
Returns: void
drawfresh(this)
draws fresh zigzag based on properties embedded in ZigzagDrawing object
Parameters:
this : ZigzagDrawing object
Returns: ZigzagDrawing object
drawcontinuous(this)
draws zigzag based on the zigzagmatrix input
Parameters:
this : ZigzagDrawing object
Returns:
ZigzagTypesLibrary "ZigzagTypes"
Zigzag related user defined types. Depends on DrawingTypes library for basic types
Indicator
Indicator is collection of indicator values applied on high, low and close
Fields:
indicatorHigh : Indicator Value applied on High
indicatorLow : Indicator Value applied on Low
PivotCandle
PivotCandle represents data of the candle which forms either pivot High or pivot low or both
Fields:
_high : High price of candle forming the pivot
_low : Low price of candle forming the pivot
length : Pivot length
pHighBar : represents number of bar back the pivot High occurred.
pLowBar : represents number of bar back the pivot Low occurred.
pHigh : Pivot High Price
pLow : Pivot Low Price
indicators : Array of Indicators - allows to add multiple
Pivot
Pivot refers to zigzag pivot. Each pivot can contain various data
Fields:
point : pivot point coordinates
dir : direction of the pivot. Valid values are 1, -1, 2, -2
level : is used for multi level zigzags. For single level, it will always be 0
ratio : Price Ratio based on previous two pivots
indicatorNames : Names of the indicators applied on zigzag
indicatorValues : Values of the indicators applied on zigzag
indicatorRatios : Ratios of the indicators applied on zigzag based on previous 2 pivots
ZigzagFlags
Flags required for drawing zigzag. Only used internally in zigzag calculation. Should not set the values explicitly
Fields:
newPivot : true if the calculation resulted in new pivot
doublePivot : true if the calculation resulted in two pivots on same bar
updateLastPivot : true if new pivot calculated replaces the old one.
Zigzag
Zigzag object which contains whole zigzag calculation parameters and pivots
Fields:
length : Zigzag length. Default value is 5
numberOfPivots : max number of pivots to hold in the calculation. Default value is 20
offset : Bar offset to be considered for calculation of zigzag. Default is 0 - which means calculation is done based on the latest bar.
level : Zigzag calculation level - used in multi level recursive zigzags
zigzagPivots : array which holds the last n pivots calculated.
flags : ZigzagFlags object which is required for continuous drawing of zigzag lines.
ZigzagObject
Zigzag Drawing Object
Fields:
zigzagLine : Line joining two pivots
zigzagLabel : Label which can be used for drawing the values, ratios, directions etc.
ZigzagProperties
Object which holds properties of zigzag drawing. To be used along with ZigzagDrawing
Fields:
lineColor : Zigzag line color. Default is color.blue
lineWidth : Zigzag line width. Default is 1
lineStyle : Zigzag line style. Default is line.style_solid.
showLabel : If set, the drawing will show labels on each pivot. Default is false
textColor : Text color of the labels. Only applicable if showLabel is set to true.
maxObjects : Max number of zigzag lines to display. Default is 300
xloc : Time/Bar reference to be used for zigzag drawing. Default is Time - xloc.bar_time.
ZigzagDrawing
Object which holds complete zigzag drawing objects and properties.
Fields:
properties : ZigzagProperties object which is used for setting the display styles of zigzag
drawings : array which contains lines and labels of zigzag drawing.
zigzag : Zigzag object which holds the calculations.
DrawingMethodsLibrary "DrawingMethods"
tostring(this, sortKeys, sortOrder, includeKeys)
Converts DrawingTypes/Point object to string representation
Parameters:
this : DrawingTypes/Point object
sortKeys : If set to true, string output is sorted by keys.
sortOrder : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys
includeKeys : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered
Returns: string representation of DrawingTypes/Point
tostring(this, sortKeys, sortOrder, includeKeys)
Converts DrawingTypes/LineProperties object to string representation
Parameters:
this : DrawingTypes/LineProperties object
sortKeys : If set to true, string output is sorted by keys.
sortOrder : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys
includeKeys : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered
Returns: string representation of DrawingTypes/LineProperties
tostring(this, sortKeys, sortOrder, includeKeys)
Converts DrawingTypes/Line object to string representation
Parameters:
this : DrawingTypes/Line object
sortKeys : If set to true, string output is sorted by keys.
sortOrder : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys
includeKeys : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered
Returns: string representation of DrawingTypes/Line
tostring(this, sortKeys, sortOrder, includeKeys)
Converts DrawingTypes/LabelProperties object to string representation
Parameters:
this : DrawingTypes/LabelProperties object
sortKeys : If set to true, string output is sorted by keys.
sortOrder : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys
includeKeys : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered
Returns: string representation of DrawingTypes/LabelProperties
tostring(this, sortKeys, sortOrder, includeKeys)
Converts DrawingTypes/Label object to string representation
Parameters:
this : DrawingTypes/Label object
sortKeys : If set to true, string output is sorted by keys.
sortOrder : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys
includeKeys : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered
Returns: string representation of DrawingTypes/Label
tostring(this, sortKeys, sortOrder, includeKeys)
Converts DrawingTypes/Linefill object to string representation
Parameters:
this : DrawingTypes/Linefill object
sortKeys : If set to true, string output is sorted by keys.
sortOrder : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys
includeKeys : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered
Returns: string representation of DrawingTypes/Linefill
tostring(this, sortKeys, sortOrder, includeKeys)
Converts DrawingTypes/BoxProperties object to string representation
Parameters:
this : DrawingTypes/BoxProperties object
sortKeys : If set to true, string output is sorted by keys.
sortOrder : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys
includeKeys : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered
Returns: string representation of DrawingTypes/BoxProperties
tostring(this, sortKeys, sortOrder, includeKeys)
Converts DrawingTypes/BoxText object to string representation
Parameters:
this : DrawingTypes/BoxText object
sortKeys : If set to true, string output is sorted by keys.
sortOrder : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys
includeKeys : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered
Returns: string representation of DrawingTypes/BoxText
tostring(this, sortKeys, sortOrder, includeKeys)
Converts DrawingTypes/Box object to string representation
Parameters:
this : DrawingTypes/Box object
sortKeys : If set to true, string output is sorted by keys.
sortOrder : Applicable only if sortKeys is set to true. Positive number will sort them in ascending order whreas negative numer will sort them in descending order. Passing 0 will not sort the keys
includeKeys : Array of string containing selective keys. Optional parmaeter. If not provided, all the keys are considered
Returns: string representation of DrawingTypes/Box
delete(this)
Deletes line from DrawingTypes/Line object
Parameters:
this : DrawingTypes/Line object
Returns: Line object deleted
delete(this)
Deletes label from DrawingTypes/Label object
Parameters:
this : DrawingTypes/Label object
Returns: Label object deleted
delete(this)
Deletes Linefill from DrawingTypes/Linefill object
Parameters:
this : DrawingTypes/Linefill object
Returns: Linefill object deleted
delete(this)
Deletes box from DrawingTypes/Box object
Parameters:
this : DrawingTypes/Box object
Returns: DrawingTypes/Box object deleted
delete(this)
Deletes lines from array of DrawingTypes/Line objects
Parameters:
this : Array of DrawingTypes/Line objects
Returns: Array of DrawingTypes/Line objects
delete(this)
Deletes labels from array of DrawingTypes/Label objects
Parameters:
this : Array of DrawingTypes/Label objects
Returns: Array of DrawingTypes/Label objects
delete(this)
Deletes linefill from array of DrawingTypes/Linefill objects
Parameters:
this : Array of DrawingTypes/Linefill objects
Returns: Array of DrawingTypes/Linefill objects
delete(this)
Deletes boxes from array of DrawingTypes/Box objects
Parameters:
this : Array of DrawingTypes/Box objects
Returns: Array of DrawingTypes/Box objects
clear(this)
clear items from array of DrawingTypes/Line while deleting underlying objects
Parameters:
this : array
Returns: void
clear(this)
clear items from array of DrawingTypes/Label while deleting underlying objects
Parameters:
this : array
Returns: void
clear(this)
clear items from array of DrawingTypes/Linefill while deleting underlying objects
Parameters:
this : array
Returns: void
clear(this)
clear items from array of DrawingTypes/Box while deleting underlying objects
Parameters:
this : array
Returns: void
draw(this)
Creates line from DrawingTypes/Line object
Parameters:
this : DrawingTypes/Line object
Returns: line created from DrawingTypes/Line object
draw(this)
Creates lines from array of DrawingTypes/Line objects
Parameters:
this : Array of DrawingTypes/Line objects
Returns: Array of DrawingTypes/Line objects
draw(this)
Creates label from DrawingTypes/Label object
Parameters:
this : DrawingTypes/Label object
Returns: label created from DrawingTypes/Label object
draw(this)
Creates labels from array of DrawingTypes/Label objects
Parameters:
this : Array of DrawingTypes/Label objects
Returns: Array of DrawingTypes/Label objects
draw(this)
Creates linefill object from DrawingTypes/Linefill
Parameters:
this : DrawingTypes/Linefill objects
Returns: linefill object created
draw(this)
Creates linefill objects from array of DrawingTypes/Linefill objects
Parameters:
this : Array of DrawingTypes/Linefill objects
Returns: Array of DrawingTypes/Linefill used for creating linefills
draw(this)
Creates box from DrawingTypes/Box object
Parameters:
this : DrawingTypes/Box object
Returns: box created from DrawingTypes/Box object
draw(this)
Creates labels from array of DrawingTypes/Label objects
Parameters:
this : Array of DrawingTypes/Label objects
Returns: Array of DrawingTypes/Label objects
createLabel(this, lblText, tooltip, properties)
Creates DrawingTypes/Label object from DrawingTypes/Point
Parameters:
this : DrawingTypes/Point object
lblText : Label text
tooltip : Tooltip text. Default is na
properties : DrawingTypes/LabelProperties object. Default is na - meaning default values are used.
Returns: DrawingTypes/Label object
createLine(this, other, properties)
Creates DrawingTypes/Line object from one DrawingTypes/Point to other
Parameters:
this : First DrawingTypes/Point object
other : Second DrawingTypes/Point object
properties : DrawingTypes/LineProperties object. Default set to na - meaning default values are used.
Returns: DrawingTypes/Line object
createLinefill(this, other, fillColor, transparency)
Creates DrawingTypes/Linefill object from DrawingTypes/Line object to other DrawingTypes/Line object
Parameters:
this : First DrawingTypes/Line object
other : Other DrawingTypes/Line object
fillColor : fill color of linefill. Default is color.blue
transparency : fill transparency for linefill. Default is 80
Returns: Array of DrawingTypes/Linefill object
createBox(this, other, properties, textProperties)
Creates DrawingTypes/Box object from one DrawingTypes/Point to other
Parameters:
this : First DrawingTypes/Point object
other : Second DrawingTypes/Point object
properties : DrawingTypes/BoxProperties object. Default set to na - meaning default values are used.
textProperties : DrawingTypes/BoxText object. Default is na - meaning no text will be drawn
Returns: DrawingTypes/Box object
createBox(this, properties, textProperties)
Creates DrawingTypes/Box object from DrawingTypes/Line as diagonal line
Parameters:
this : Diagonal DrawingTypes/PoLineint object
properties : DrawingTypes/BoxProperties object. Default set to na - meaning default values are used.
textProperties : DrawingTypes/BoxText object. Default is na - meaning no text will be drawn
Returns: DrawingTypes/Box object
DrawingTypesLibrary "DrawingTypes"
User Defined Types for basic drawing structure. Other types and methods will be built on these.
Point
Point refers to point on chart
Fields:
price : pivot price
bar : pivot bar
bartime : pivot bar time
LineProperties
Properties of line object
Fields:
xloc : X Reference - can be either xloc.bar_index or xloc.bar_time. Default is xloc.bar_index
extend : Property which sets line to extend towards either right or left or both. Valid values are extend.right, extend.left, extend.both, extend.none. Default is extend.none
color : Line color
style : Line style, valid values are line.style_solid, line.style_dashed, line.style_dotted, line.style_arrow_left, line.style_arrow_right, line.style_arrow_both. Default is line.style_solid
width : Line width. Default is 1
Line
Line object created from points
Fields:
start : Starting point of the line
end : Ending point of the line
properties : LineProperties object which defines the style of line
object : Derived line object
LabelProperties
Properties of label object
Fields:
xloc : X Reference - can be either xloc.bar_index or xloc.bar_time. Default is xloc.bar_index
yloc : Y reference - can be yloc.price, yloc.abovebar, yloc.belowbar. Default is yloc.price
color : Label fill color
style : Label style as defined in www.tradingview.com Default is label.style_none
textcolor : text color. Default is color.black
size : Label text size. Default is size.normal. Other values are size.auto, size.tiny, size.small, size.normal, size.large, size.huge
textalign : Label text alignment. Default if text.align_center. Other allowed values - text.align_right, text.align_left, text.align_top, text.align_bottom
text_font_family : The font family of the text. Default value is font.family_default. Other available option is font.family_monospace
Label
Label object
Fields:
point : Point where label is drawn
lblText : label text
tooltip : Tooltip text. Default is na
properties : LabelProperties object
object : Pine label object
Linefill
Linefill object
Fields:
line1 : First line to create linefill
line2 : Second line to create linefill
fillColor : Fill color
transparency : Fill transparency range from 0 to 100
object : linefill object created from wrapper
BoxProperties
BoxProperties object
Fields:
border_color : Box border color. Default is color.blue
bgcolor : box background color
border_width : Box border width. Default is 1
border_style : Box border style. Default is line.style_solid
extend : Extend property of box. default is extend.none
xloc : defines if drawing needs to be done based on bar index or time. default is xloc.bar_index
BoxText
Box Text properties.
Fields:
boxText : Text to be printed on the box
text_size : Text size. Default is size.auto
text_color : Box text color. Default is color.yellow.
text_halign : horizontal align style - default is text.align_center
text_valign : vertical align style - default is text.align_center
text_wrap : text wrap style - default is text.wrap_auto
text_font_family : Text font. Default is
Box
Box object
Fields:
p1 : Diagonal point one
p2 : Diagonal point two
properties : Box properties
textProperties : Box text properties
object : Box object created
Wave Generator Library (WGL)Library "WaveGenerator"
Wave Generator Library
max(source)
max
Parameters:
source : is the input to take the maximum.
Returns: foat
min(source)
min
Parameters:
source : is the input to take the minimum.
Returns: foat
min_max(src, height)
min_max
Parameters:
src : is the input for the min/max
height
Returns: float
sine_wave(_wave_height, _wave_duration, _phase_shift, _phase_shift_2)
sine_wave
Parameters:
_wave_height : Maximum output level
_wave_duration : Wave length
_phase_shift : Number of harmonics
_phase_shift_2
Returns: float
triangle_wave(_wave_height, _wave_duration, _num_harmonics, _phase_shift)
triangle_wave
Parameters:
_wave_height : Maximum output level
_wave_duration : Wave length
_num_harmonics : Number of harmonics
_phase_shift : Phase shift
Returns: float
saw_wave(_wave_height, _wave_duration, _num_harmonics, _phase_shift)
saw_wave
Parameters:
_wave_height : Maximum output level
_wave_duration : Wave length
_num_harmonics : Number of harmonics
_phase_shift : Phase shift
Returns: float
ramp_saw_wave(_wave_height, _wave_duration, _num_harmonics, _phase_shift)
ramp_saw_wave
Parameters:
_wave_height : Maximum output level
_wave_duration : Wave length
_num_harmonics : Number of harmonics
_phase_shift : Phase shift
Returns: float
square_wave(_wave_height, _wave_duration, _num_harmonics, _phase_shift)
square_wave
Parameters:
_wave_height : Maximum output level
_wave_duration : Wave length
_num_harmonics : Number of harmonics
_phase_shift : Phase shift
Returns: float
wave_select(style, _wave_height, _wave_duration, _num_harmonics, _phase_shift)
wave_select
@peram style Select the style of wave. "Sine", "Triangle", "Saw", "Ramp Saw", "Square"
Parameters:
style
_wave_height : Maximum output level
_wave_duration : Wave length
_num_harmonics : Number of harmonics
_phase_shift : Phase shift
Returns: float
CommonTypesMathLibrary "CommonTypesMath"
Provides a common library source for common types of useful mathematical structures.
Includes: `complex, Vector2, Vector3, Vector4, Quaternion, Segment2, Segment3, Pole, Plane, M32, M44`
complex
Representation of a Complex Number, a complex number `z` is a number in the form `z = x + yi`,
Fields:
re : Real part of the complex number.
im : Imaginary part of the complex number.
Vector2
Representation of a two dimentional vector with components `(x:float,y:float)`.
Fields:
x : Coordinate `x` of the vector.
y : Coordinate `y` of the vector.
Vector3
Representation of a three dimentional vector with components `(x:float,y:float,z:float)`.
Fields:
x : Coordinate `x` of the vector.
y : Coordinate `y` of the vector.
z : Coordinate `z` of the vector.
Vector4
Representation of a four dimentional vector with components `(x:float,y:float,z:float,w:float)`.
Fields:
x : Coordinate `x` of the vector.
y : Coordinate `y` of the vector.
z : Coordinate `z` of the vector.
w : Coordinate `w` of the vector.
Quaternion
Representation of a four dimentional vector with components `(x:float,y:float,z:float,w:float)`.
Fields:
x : Coordinate `x` of the vector.
y : Coordinate `y` of the vector.
z : Coordinate `z` of the vector.
w : Coordinate `w` of the vector, specifies the rotation component.
Segment2
Representation of a line in two dimentional space.
Fields:
origin : Origin coordinates.
target : Target coordinates.
Segment3
Representation of a line in three dimentional space.
Fields:
origin : Origin coordinates.
target : Target coordinates.
Pole
Representation of polar coordinates `(radius:float,angle:float)`.
Fields:
radius : Radius of the pole.
angle : Angle in radians of the pole.
Plane
Representation of a 3D plane.
Fields:
normal : Normal vector of the plane.
distance : Distance of the plane along its normal from the origin.
M32
Representation of a 3x2 matrix.
Fields:
m11 : First element of the first row.
m12 : Second element of the first row.
m21 : First element of the second row.
m22 : Second element of the second row.
m31 : First element of the third row.
m32 : Second element of the third row.
M44
Representation of a 4x4 matrix.
Fields:
m11 : First element of the first row.
m12 : Second element of the first row.
m13 : Third element of the first row.
m14 : fourth element of the first row.
m21 : First element of the second row.
m22 : Second element of the second row.
m23 : Third element of the second row.
m24 : fourth element of the second row.
m31 : First element of the third row.
m32 : Second element of the third row.
m33 : Third element of the third row.
m34 : fourth element of the third row.
m41 : First element of the fourth row.
m42 : Second element of the fourth row.
m43 : Third element of the fourth row.
m44 : fourth element of the fourth row.
Sub-Super Script and Roman numerals LibraryLibrary "Sub_Super_Script_and_RomanNumerals_Library"
Library to transform numbers into Roman numerals / Super-Sub script / check if value is alpha or number
isnumber(input)
check to see if value is a number
Parameters:
input : (string/float/int) value to check
Returns: (na) if value is NOT a number and input (string/float/int) if value is a number
isalpha(input)
check a string if it is alpha(doesnt contain numbers)
Parameters:
input
Returns: (string) if string input does NOT contain numbers, return (na) if input string contains numbers
super(num)
convert a string's numbers from normal print to super-script
Parameters:
num : (string/int/float) input value to transform
Returns: string of input with numbers converted to super-script
sub(num)
convert a string's numbers from normal print to sub-script
Parameters:
num : (string/int/float) input value to transform
Returns: string of input with numbers converted to sub-script
roman(num, trunc)
convert a string of numbers, float, or int
Parameters:
num : (string) input number to transform
trunc : (bool | false) true to truncate float value, false to show roman numerals with decimals (XX.VI)
Returns: string of roman numerals representing the input (num)
FrizLabz_Time_Utility_MethodsLibrary "FrizLabz_Time_Utility_Methods"
Some time to index and index to time helper methods made them for another library thought I would try to make
them as methods
UTC_helper(utc)
UTC helper function this adds the + to the positive utc times, add "UTC" to the string
and can be used in the timezone arg of for format_time()
Parameters:
utc : (int) | +/- utc offset
Returns: string | string to be added to the timezone paramater for utc timezone usage
bar_time(bar_amount)
from a time to index
Parameters:
bar_amount : (int) | default - 1)
Returns: int bar_time
time_to_index(_time)
from time to bar_index
Parameters:
_time : (int)
Returns: int time_to_index | bar_index that corresponds to time provided
time_to_bars_back(_time)
from a time quanity to bar quanity for use with .
Parameters:
_time : (int)
Returns: int bars_back | yeilds the amount of bars from current bar to reach _time provided
bars_back_to_time(bars_back)
from bars_back to time
Parameters:
bars_back
Returns: int | using same logic as this will return the
time of the bar = to the bar that corresponds to bars_back
index_time(index)
bar_index to UNIX time
Parameters:
index : (int)
Returns: int time | time in unix that corrresponds to the bar_index
to_utc(time_or_index, timezone, format)
method to use with a time or bar_index variable that will detect if it is an index or unix time
and convert it to a printable string
Parameters:
time_or_index : (int) required) | time in unix or bar_index
timezone : (int) required) | utc offset to be appled to output
format : (string) | default - "yyyy-MM-dd'T'HH:mm:ssZ") | the format for the time, provided string is
default one from str.format_time()
Returns: string | time formatted string
GET(line)
Gets the location paramaters of a Line
Parameters:
line : (line)
Returns: tuple
GET(box)
Gets the location paramaters of a Box
Parameters:
box : (box)
Returns: tuple
GET(label)
Gets the location paramaters and text of a Label
Parameters:
label : (label)
Returns: tuple
GET(linefill)
Gets line 1 and 2 from a Linefill
Parameters:
linefill : (linefill)
Returns: tuple
Format(line, timezone)
converts Unix time in time or index params to formatted time
and returns a tuple of the params as string with the time/index params formatted
Parameters:
line : (line) | required
timezone : (int) | default - na
Returns: tuple
Line(x1, y1, x2, y2, extend, color, style, width)
similar to line.new() with the exception
of not needing to include y2 for a flat line, y1 defaults to close,
and it doesnt require xloc.bar_time or xloc.bar_index, if no x1
Parameters:
x1 : (int) default - time
y1 : (float) default - close
x2 : (int) default - last_bar_time/last_bar_index | not required for line that ends on current bar
y2 : (float) default - y1 | not required for flat line
extend : (string) default - extend.none | extend.left, extend.right, extend.both
color : (color) default - chart.fg_color
style : (string) default - line.style_solid | line.style_dotted, line.style_dashed,
line.style_arrow_both, line.style_arrow_left, line.style_arrow_right
width
Returns: line
Box(left, top, right, bottom, extend, border_color, bgcolor, text_color, border_width, border_style, txt, text_halign, text_valign, text_size, text_wrap)
similar to box.new() but only requires top and bottom to create box,
auto detects if it is bar_index or time used in the (left) arg. xloc.bar_time and xloc.bar_index are not used
args are ordered by purpose | position -> colors -> styling -> text options
Parameters:
left : (int) default - time
top : (float) required
right : (int) default - last_bar_time/last_bar_index | will default to current bar index or time
depending on (left) arg
bottom : (float) required
extend : (string) default - extend.none | extend.left, extend.right, extend.both
border_color : (color) default - chart.fg_color
bgcolor : (color) default - color.new(chart.fg_color,75)
text_color : (color) default - chart.bg_color
border_width : (int) default - 1
border_style : (string) default - line.style_solid | line.style_dotted, line.style_dashed,
txt : (string) default - ''
text_halign : (string) default - text.align_center | text.align_left, text.align_right
text_valign : (string) default - text.align_center | text.align_top, text.align_bottom
text_size : (string) default - size.normal | size.tiny, size.small, size.large, size.huge
text_wrap : (string) default - text.wrap_auto | text.wrap_none
Returns: box
Label(x, y, txt, yloc, color, textcolor, style, size, textalign, text_font_family, tooltip)
similar to label.new() but only requires no args to create label,
auto detects if it is bar_index or time used in the (x) arg. xloc.bar_time and xloc.bar_index are not used
args are ordered by purpose | position -> colors -> styling -> text options
Parameters:
x : (int) default - time
y : (float) default - high or low | depending on bar direction
txt : (string) default - ''
yloc : (string) default - yloc.price | yloc.price, yloc.abovebar, yloc.belowbar
color : (color) default - chart.fg_color
textcolor : (color) default - chart.bg_color
style : (string) default - label.style_label_down | label.style_none
label.style_xcross,label.style_cross,label.style_triangleup,label.style_triangledown
label.style_flag, label.style_circle, label.style_arrowup, label.style_arrowdown,
label.style_label_up, label.style_label_down, label.style_label_left, label.style_label_right,
label.style_label_lower_left, label.style_label_lower_right, label.style_label_upper_left,
label.style_label_upper_right, label.style_label_center, label.style_square,
label.style_diamond
size : (string) default - size.normal | size.tiny, size.small, size.large, size.huge
textalign : (string) default - text.align_center | text.align_left, text.align_right
text_font_family : (string) default - font.family_default | font.family_monospace
tooltip : (string) default - na
Returns: label
PositionLibrary "Position"
Allows for simulating trades within an indicator.
newTrade(size, price, timestamp)
Creates a new trade object.
Parameters:
size : The size of the trade (number of shares or contracts).
price : The price at which the trade took place.
timestamp : The timestamp of the trade. Defaults to the current time.
Returns: A new trade object.
start(size, price, timestamp)
Starts a new position.
Parameters:
size : The size of the position (number of shares or contracts).
price : The price at which the position was started.
timestamp : The timestamp of the start of the position. Defaults to the current time.
Returns: A new position object.
trade(pos, size, price, timestamp)
Modifies an existing position.
Parameters:
pos : The position to be modified.
size : The size of the trade (number of shares or contracts).
price : The price at which the trade took place.
timestamp : The timestamp of the trade. Defaults to the current time.
Returns: The modified position object.
exit(pos, price, timestamp)
Closes a position by trading the entire position size at a given price and timestamp.
Parameters:
pos : The position being closed.
price : The price at which the position is being closed.
timestamp : The timestamp of the trade, defaults to the current time.
Returns: The updated position after the trade.
unrealized(pos, price)
Calculates the unrealized gain or loss for a given position and price.
Parameters:
pos : The position for which to calculate unrealized gain/loss.
price : The current market price.
Returns: The calculated unrealized gain or loss.
Trade
Represents a single trade.
Fields:
size : Size of the trade in units.
price : Price of the trade in currency.
value : Total value of the trade in currency units.
time : Timestamp of the trade.
Position
Represents a single position.
Fields:
size : Size of the position in units.
price : Average price of the position in currency.
value : Total value of the position in currency units.
start : Timestamp of the first trade that opened the position.
net : Realized gains and losses of the position in currency units.
history : Array of trades that make up the position.
Liquidation_linesLibrary "Liquidationline"
f_calculateLeverage(_leverage, _maintainance, _value, _direction)
Parameters:
_leverage
_maintainance
_value
_direction
f_liqline_update(_Liqui_Line, _killonlowhigh)
Parameters:
_Liqui_Line
_killonlowhigh
f_liqline_draw(_Liqui_Line, _priceorliq)
Parameters:
_Liqui_Line
_priceorliq
f_liqline_add(_Liqui_Line, linetoadd, _limit)
Parameters:
_Liqui_Line
linetoadd
_limit
Liquidationline
Fields:
creationtime
stoptime
price
leverage
maintainance
line_active
line_color
line_thickness
line_style
line_direction
line_finished
text_active
text_size
text_color
this library can draw typical liquidation lines, which can be called e.g. by indicator signals
You can see the default implementation in the lower part of the code, starting with RUNTIME
Don't forget to increase max lines to 500 in your script.
It can look like this screenshot here, with only minor changes to your executing script.
The base is the same