Package | Description |
---|---|
fr.cnes.sirius.patrius.math.analysis.solver | |
fr.cnes.sirius.patrius.math.complex | |
fr.cnes.sirius.patrius.math.transform | |
fr.cnes.sirius.patrius.stela.forces.radiation |
Modifier and Type | Method and Description |
---|---|
Complex[] |
LaguerreSolver.solveAllComplex(double[] coefficients,
double initial)
Find all complex roots for the polynomial with the given
coefficients, starting from the given initial value.
|
Complex |
LaguerreSolver.solveComplex(double[] coefficients,
double initial)
Find a complex root for the polynomial with the given coefficients,
starting from the given initial value.
|
Modifier and Type | Field and Description |
---|---|
static Complex |
Complex.I
The square root of -1.
|
static Complex |
Complex.INF
A complex number representing "+INF + INFi"
|
static Complex |
Complex.NaN
A complex number representing "NaN + NaNi"
|
static Complex |
Complex.ONE
A complex number representing "1.0 + 0.0i"
|
static Complex |
Complex.ZERO
A complex number representing "0.0 + 0.0i"
|
Modifier and Type | Method and Description |
---|---|
Complex |
Complex.acos()
Compute the
inverse cosine of this complex number.
|
Complex |
Complex.add(Complex addend)
Returns a
Complex whose value is (this + addend) . |
Complex |
Complex.add(double addend)
Returns a
Complex whose value is (this + addend) ,
with addend interpreted as a real number. |
Complex |
Complex.asin()
Compute the
inverse sine of this complex number.
|
Complex |
Complex.atan()
Compute the
inverse tangent of this complex number.
|
Complex |
Complex.conjugate()
Return the conjugate of this complex number.
|
static Complex[] |
ComplexUtils.convertToComplex(double[] real)
Convert an array of primitive doubles to an array of
Complex objects. |
Complex |
Complex.cos()
Compute the
cosine
of this complex number.
|
Complex |
Complex.cosh()
Compute the
hyperbolic cosine of this complex number.
|
protected Complex |
Complex.createComplex(double realPart,
double imaginaryPart)
Create a complex number given the real and imaginary parts.
|
Complex |
Complex.divide(Complex divisor)
Returns a
Complex whose value is (this / divisor) . |
Complex |
Complex.divide(double divisor)
Returns a
Complex whose value is (this / divisor) ,
with divisor interpreted as a real number. |
Complex |
Complex.exp()
Compute the
exponential function of this complex number.
|
Complex |
ComplexField.getOne()
Get the multiplicative identity of the field.
|
Complex |
ComplexField.getZero()
Get the additive identity of the field.
|
Complex |
Complex.log()
Compute the
natural logarithm of this complex number.
|
Complex |
Complex.multiply(Complex factor)
Returns a
Complex whose value is this * factor . |
Complex |
Complex.multiply(double factor)
Returns a
Complex whose value is this * factor , with factor interpreted as a real number. |
Complex |
Complex.multiply(int factor)
Returns a
Complex whose value is this * factor , with factor interpreted as a integer
number. |
Complex |
Complex.negate()
Returns a
Complex whose value is (-this) . |
Complex |
ComplexFormat.parse(String source)
Parses a string to produce a
Complex object. |
Complex |
ComplexFormat.parse(String source,
ParsePosition pos)
Parses a string to produce a
Complex object. |
static Complex |
ComplexUtils.polar2Complex(double r,
double theta)
Creates a complex number from the given polar representation.
|
Complex |
Complex.pow(Complex x)
Returns of value of this complex number raised to the power of
x . |
Complex |
Complex.pow(double x)
Returns of value of this complex number raised to the power of
x . |
Complex |
Complex.reciprocal()
Returns the multiplicative inverse of
this element. |
Complex |
Complex.sin()
Compute the
sine
of this complex number.
|
Complex |
Complex.sinh()
Compute the
hyperbolic sine of this complex number.
|
Complex |
Complex.sqrt()
Compute the
square root of this complex number.
|
Complex |
Complex.sqrt1z()
Compute the
square root of
1 - this2 for this complex
number. |
Complex |
Complex.subtract(Complex subtrahend)
Returns a
Complex whose value is (this - subtrahend) . |
Complex |
Complex.subtract(double subtrahend)
Returns a
Complex whose value is (this - subtrahend) . |
Complex |
Complex.tan()
Compute the
tangent of this complex number.
|
Complex |
Complex.tanh()
Compute the
hyperbolic tangent of this complex number.
|
static Complex |
Complex.valueOf(double realPart)
Create a complex number given only the real part.
|
static Complex |
Complex.valueOf(double realPart,
double imaginaryPart)
Create a complex number given the real and imaginary parts.
|
Modifier and Type | Method and Description |
---|---|
Class<? extends FieldElement<Complex>> |
ComplexField.getRuntimeClass()
Returns the runtime class of the FieldElement.
|
List<Complex> |
Complex.nthRoot(int n)
Computes the n-th roots of this complex number.
|
Modifier and Type | Method and Description |
---|---|
Complex |
Complex.add(Complex addend)
Returns a
Complex whose value is (this + addend) . |
Complex |
Complex.divide(Complex divisor)
Returns a
Complex whose value is (this / divisor) . |
String |
ComplexFormat.format(Complex c)
This method calls
ComplexFormat.format(Object,StringBuffer,FieldPosition) . |
StringBuffer |
ComplexFormat.format(Complex complex,
StringBuffer toAppendTo,
FieldPosition pos)
Formats a
Complex object to produce a string. |
Complex |
Complex.multiply(Complex factor)
Returns a
Complex whose value is this * factor . |
Complex |
Complex.pow(Complex x)
Returns of value of this complex number raised to the power of
x . |
Complex |
Complex.subtract(Complex subtrahend)
Returns a
Complex whose value is (this - subtrahend) . |
Modifier and Type | Method and Description |
---|---|
static Complex[] |
TransformUtils.createComplexArray(double[][] dataRI)
Builds a new array of
Complex from the specified two dimensional
array of real and imaginary parts. |
static Complex[] |
TransformUtils.scaleArray(Complex[] f,
double d)
Multiply every component in the given complex array by the
given real number.
|
Complex[] |
FastFourierTransformer.transform(Complex[] f,
TransformType type)
Returns the (forward, inverse) transform of the specified complex data set.
|
Complex[] |
IFastFourierTransformer.transform(Complex[] f,
TransformType type)
Returns the (forward, inverse) transform of the specified complex data set.
|
Complex[] |
FastFourierTransformer.transform(double[] f,
TransformType type)
Returns the (forward, inverse) transform of the specified real data set.
|
Complex[] |
IFastFourierTransformer.transform(double[] f,
TransformType type)
Returns the (forward, inverse) transform of the specified real data set.
|
Complex[] |
IFastFourierTransformer.transform(UnivariateFunction f,
double min,
double max,
int n,
TransformType type)
Returns the (forward, inverse) transform of the specified real function,
sampled on the specified interval.
|
Complex[] |
AbstractFastFourierTransformer.transform(UnivariateFunction f,
double min,
double max,
int n,
TransformType type)
Returns the (forward, inverse) transform of the specified real function,
sampled on the specified interval.
|
Modifier and Type | Method and Description |
---|---|
static double[][] |
TransformUtils.createRealImaginaryArray(Complex[] dataC)
Builds a new two dimensional array of
double filled with the real
and imaginary parts of the specified Complex numbers. |
static Complex[] |
TransformUtils.scaleArray(Complex[] f,
double d)
Multiply every component in the given complex array by the
given real number.
|
Complex[] |
FastFourierTransformer.transform(Complex[] f,
TransformType type)
Returns the (forward, inverse) transform of the specified complex data set.
|
Complex[] |
IFastFourierTransformer.transform(Complex[] f,
TransformType type)
Returns the (forward, inverse) transform of the specified complex data set.
|
Modifier and Type | Method and Description |
---|---|
protected Complex[] |
SRPSquaring.solveBiquadratic(double c4,
double c2,
double c0)
Solves the equation c4x4 + c2x2 + c0 = 0.
|
protected Complex[] |
SRPSquaring.solvePolyDeg2(Complex c2,
Complex c1,
Complex c0)
Solves the complex equation c2x2 + c1x + c0 = 0.
|
protected Complex[] |
SRPSquaring.solvePolyDeg3(double c3,
double c2,
double c1,
double c0)
Solves the equation c3x3 + c2x2 + c1x + c0 = 0.
|
protected Complex[] |
SRPSquaring.solvePolyDeg4(double c4,
double c3,
double c2,
double c1,
double c0)
Solves the equation c4x4 + c3x3 + c2x2 +
c1x + c0 = 0.
|
Modifier and Type | Method and Description |
---|---|
protected double[] |
SRPSquaring.rootsFiltering(Complex[] roots)
Filtering of computed roots.
|
protected Complex[] |
SRPSquaring.solvePolyDeg2(Complex c2,
Complex c1,
Complex c0)
Solves the complex equation c2x2 + c1x + c0 = 0.
|
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