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
In pieno spirito TradingView, l'autore ha pubblicato questo codice Pine come libreria open-source in modo che altri programmatori Pine 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 in una pubblicazione è regolato dal nostro Regolamento.
Declinazione di responsabilità
Le informazioni ed i contenuti pubblicati non costituiscono in alcun modo una sollecitazione ad investire o ad operare nei mercati finanziari. Non sono inoltre fornite o supportate da TradingView. Maggiori dettagli nelle Condizioni d'uso.
Libreria Pine
In pieno spirito TradingView, l'autore ha pubblicato questo codice Pine come libreria open-source in modo che altri programmatori Pine 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 in una pubblicazione è regolato dal nostro Regolamento.
Declinazione di responsabilità
Le informazioni ed i contenuti pubblicati non costituiscono in alcun modo una sollecitazione ad investire o ad operare nei mercati finanziari. Non sono inoltre fornite o supportate da TradingView. Maggiori dettagli nelle Condizioni d'uso.