Package | Description |
---|---|
org.hipparchus.analysis.differentiation |
This package holds the main interfaces and basic building block classes
dealing with differentiation.
|
org.hipparchus.analysis.function |
The
function package contains function objects that wrap the
methods contained in Math , as well as common
mathematical functions such as the gaussian and sinc functions. |
org.hipparchus.analysis.interpolation |
Univariate real functions interpolation algorithms.
|
org.hipparchus.analysis.polynomials |
Univariate real polynomials implementations, seen as differentiable
univariate real functions.
|
Modifier and Type | Class and Description |
---|---|
class |
DerivativeStructure
Class representing both the value and the differentials of a function.
|
class |
Gradient
Class representing both the value and the differentials of a function.
|
class |
UnivariateDerivative<T extends UnivariateDerivative<T>>
Abstract class representing both the value and the differentials of a function.
|
class |
UnivariateDerivative1
Class representing both the value and the differentials of a function.
|
class |
UnivariateDerivative2
Class representing both the value and the differentials of a function.
|
Modifier and Type | Method and Description |
---|---|
<T extends Derivative<T>> |
UnivariateDifferentiableFunction.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
UnivariateDifferentiableVectorFunction.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
UnivariateDifferentiableMatrixFunction.value(T x)
Compute the value for the function.
|
Modifier and Type | Method and Description |
---|---|
<T extends Derivative<T>> |
UnivariateDifferentiableVectorFunction.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
UnivariateDifferentiableMatrixFunction.value(T x)
Compute the value for the function.
|
Modifier and Type | Method and Description |
---|---|
<T extends Derivative<T>> |
HarmonicOscillator.value(T t)
Compute the value for the function.
|
<T extends Derivative<T>> |
Sinh.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Log.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Log1p.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Acosh.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Logit.value(T t)
Compute the value for the function.
|
<T extends Derivative<T>> |
Log10.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Abs.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Tan.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Sinc.value(T t)
Compute the value for the function.
|
<T extends Derivative<T>> |
Atanh.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Asinh.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Logistic.value(T t)
Compute the value for the function.
|
<T extends Derivative<T>> |
Inverse.value(T t)
Compute the value for the function.
|
<T extends Derivative<T>> |
Expm1.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Power.value(T t)
Compute the value for the function.
|
<T extends Derivative<T>> |
Exp.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Cos.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Asin.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Tanh.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Identity.value(T t)
Compute the value for the function.
|
<T extends Derivative<T>> |
Gaussian.value(T t)
Compute the value for the function.
|
<T extends Derivative<T>> |
Minus.value(T t)
Compute the value for the function.
|
<T extends Derivative<T>> |
Sin.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Floor.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Cosh.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Sigmoid.value(T t)
Compute the value for the function.
|
<T extends Derivative<T>> |
Ceil.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Acos.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Rint.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Sqrt.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Cbrt.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Atan.value(T x)
Compute the value for the function.
|
<T extends Derivative<T>> |
Constant.value(T t)
Compute the value for the function.
|
Modifier and Type | Method and Description |
---|---|
<T extends Derivative<T>> |
HermiteInterpolator.value(T x)
Compute the value for the function.
|
Modifier and Type | Method and Description |
---|---|
<T extends Derivative<T>> |
HermiteInterpolator.value(T x)
Compute the value for the function.
|
Modifier and Type | Method and Description |
---|---|
<T extends Derivative<T>> |
PolynomialSplineFunction.value(T t)
Compute the value for the function.
|
<T extends Derivative<T>> |
PolynomialFunctionNewtonForm.value(T t)
Compute the value for the function.
|
<T extends Derivative<T>> |
PolynomialFunction.value(T t)
Compute the value for the function.
|
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