PINE LIBRARY
Aggiornato MathComplexExtension
Library "MathComplexExtension"
A set of utility functions to handle complex numbers.
get_phase(complex_number, in_radians) The phase value of complex number complex_number.
Parameters:
Returns: float value with phase.
natural_logarithm(complex_number) Natural logarithm of complex number (base E).
Parameters:
Returns: float array, complex number.
common_logarithm(complex_number) Common logarithm of complex number (base 10).
Parameters:
Returns: float array, complex number.
logarithm(complex_number, base) Common logarithm of complex number (custom base).
Parameters:
Returns: float array, complex number.
power(complex_number, complex_exponent) Raise complex_number with complex_exponent.
Parameters:
Returns: float array, pseudo complex number in the form of a array [real, imaginary]
root(complex_number, complex_exponent) Raise complex_number with inverse of complex_exponent.
Parameters:
Returns: float array, pseudo complex number in the form of a array [real, imaginary]
square(complex_number) Square of complex_number (power 2).
Parameters:
Returns: float array, pseudo complex number in the form of a array [real, imaginary]
square_root(complex_number) Square root of complex_number (power 1/2).
Parameters:
Returns: float array, pseudo complex number in the form of a array [real, imaginary]
square_roots(complex_number) Square root of complex_number (power 1/2).
Parameters:
Returns: tuple with 2 complex numbers.
cubic_roots(complex_number) Square root of complex_number (power 1/2).
Parameters:
Returns: tuple with 2 complex numbers.
to_polar_form(complex_number, in_radians) The polar form value of complex_number.
Parameters:
Returns: float array, pseudo complex number in the form of a array [real, imaginary]
** returns a array [radius, phase]
A set of utility functions to handle complex numbers.
get_phase(complex_number, in_radians) The phase value of complex number complex_number.
Parameters:
- complex_number: float array, pseudo complex number in the form of a array [real, imaginary].
- in_radians: boolean, value for the type of angle value, default=true, options=(true: radians, false: degrees)
Returns: float value with phase.
natural_logarithm(complex_number) Natural logarithm of complex number (base E).
Parameters:
- complex_number: float array, pseudo complex number in the form of a array [real, imaginary].
Returns: float array, complex number.
common_logarithm(complex_number) Common logarithm of complex number (base 10).
Parameters:
- complex_number: float array, pseudo complex number in the form of a array [real, imaginary].
Returns: float array, complex number.
logarithm(complex_number, base) Common logarithm of complex number (custom base).
Parameters:
- complex_number: float array, pseudo complex number in the form of a array [real, imaginary].
- base: float, base value.
Returns: float array, complex number.
power(complex_number, complex_exponent) Raise complex_number with complex_exponent.
Parameters:
- complex_number: float array, pseudo complex number in the form of a array [real, imaginary].
- complex_exponent: float array, pseudo complex number in the form of a array [real, imaginary].
Returns: float array, pseudo complex number in the form of a array [real, imaginary]
root(complex_number, complex_exponent) Raise complex_number with inverse of complex_exponent.
Parameters:
- complex_number: float array, pseudo complex number in the form of a array [real, imaginary].
- complex_exponent: float array, pseudo complex number in the form of a array [real, imaginary].
Returns: float array, pseudo complex number in the form of a array [real, imaginary]
square(complex_number) Square of complex_number (power 2).
Parameters:
- complex_number: float array, pseudo complex number in the form of a array [real, imaginary].
Returns: float array, pseudo complex number in the form of a array [real, imaginary]
square_root(complex_number) Square root of complex_number (power 1/2).
Parameters:
- complex_number: float array, pseudo complex number in the form of a array [real, imaginary].
Returns: float array, pseudo complex number in the form of a array [real, imaginary]
square_roots(complex_number) Square root of complex_number (power 1/2).
Parameters:
- complex_number: float array, pseudo complex number in the form of a array [real, imaginary].
Returns: tuple with 2 complex numbers.
cubic_roots(complex_number) Square root of complex_number (power 1/2).
Parameters:
- complex_number: float array, pseudo complex number in the form of a array [real, imaginary].
Returns: tuple with 2 complex numbers.
to_polar_form(complex_number, in_radians) The polar form value of complex_number.
Parameters:
- complex_number: float array, pseudo complex number in the form of a array [real, imaginary].
- in_radians: boolean, value for the type of angle value, default=true, options=(true: radians, false: degrees)
Returns: float array, pseudo complex number in the form of a array [real, imaginary]
** returns a array [radius, phase]
Note di rilascio
v2 update for type and method.Updated:
get_phase(this, in_radians)
The phase value of complex number complex number.
Parameters:
this: complex . Complex number in the form `(real, imaginary)`.
in_radians: bool . Value for the type of angle value, default=true, options=(true: radians, false: degrees)
Returns: float. Value with phase.
natural_logarithm(this)
Natural logarithm of complex number (base E).
Parameters:
this: complex . Complex number in the form `(real, imaginary)`.
Returns: complex. Complex number.
common_logarithm(this)
Common logarithm of complex number (base 10).
Parameters:
this: complex . Complex number in the form `(real, imaginary)`.
Returns: complex. Complex number.
logarithm(this, base)
Common logarithm of complex number (custom base).
Parameters:
this: complex . Complex number in the form `(real, imaginary)`.
base: float . Base value.
Returns: complex. Complex number.
power(this, exponent)
Raise complex number with complex_exponent.
Parameters:
this: complex . Complex number in the form `(real, imaginary)`.
exponent: complex . Complex number in the form `(real, imaginary)`.
Returns: complex. Complex number.
root(this, exponent)
Raise complex number with inverse of complex_exponent.
Parameters:
this: complex . Complex number in the form `(real, imaginary)`.
exponent: complex . Complex number in the form `(real, imaginary)`.
Returns: complex. Complex number.
square(this)
Square of complex number (power 2).
Parameters:
this: complex . Complex number in the form `(real, imaginary)`.
Returns: complex. Complex number.
square_root(this)
Square root of complex number (power 1/2).
Parameters:
this: complex . Complex number in the form `(real, imaginary)`.
Returns: complex. Complex number.
square_roots(this)
Square root of complex number (power 1/2).
Parameters:
this: complex . Complex number in the form `(real, imaginary)`.
Returns: `array<complex>`. Array with 2 complex numbers, (positive, negative).
cubic_roots(this)
Square root of complex number (power 1/2).
Parameters:
this: complex . Complex number in the form `(real, imaginary)`.
Returns: `array<complex>`. Array with 3 complex numbers, (neutral, positive, negative).
to_polar_form(this, in_radians)
The polar form value of complex number.
Parameters:
this: complex . Complex number in the form `(real, imaginary)`.
in_radians: boolean, value for the type of angle value, default=true, options=(true: radians, false: degrees)
Returns: complex. Complex number, (radius, phase).
Note di rilascio
v3 minor update.Libreria Pine
Nello spirito di TradingView, l'autore ha pubblicato questo codice Pine come libreria open source affinché altri programmatori della nostra comunità possano riutilizzarlo. Complimenti all'autore! È possibile utilizzare questa libreria privatamente o in altre pubblicazioni open source, ma il riutilizzo di questo codice nelle pubblicazioni è soggetto al Regolamento.
Declinazione di responsabilità
Le informazioni e le pubblicazioni non sono intese come, e non costituiscono, consulenza o raccomandazioni finanziarie, di investimento, di trading o di altro tipo fornite o approvate da TradingView. Per ulteriori informazioni, consultare i Termini di utilizzo.
Libreria Pine
Nello spirito di TradingView, l'autore ha pubblicato questo codice Pine come libreria open source affinché altri programmatori della nostra comunità possano riutilizzarlo. Complimenti all'autore! È possibile utilizzare questa libreria privatamente o in altre pubblicazioni open source, ma il riutilizzo di questo codice nelle pubblicazioni è soggetto al Regolamento.
Declinazione di responsabilità
Le informazioni e le pubblicazioni non sono intese come, e non costituiscono, consulenza o raccomandazioni finanziarie, di investimento, di trading o di altro tipo fornite o approvate da TradingView. Per ulteriori informazioni, consultare i Termini di utilizzo.