| Package | Description |
|---|---|
| com.opengamma.strata.math.impl | |
| com.opengamma.strata.math.impl.rootfinding |
| Modifier and Type | Field and Description |
|---|---|
static ComplexNumber |
ComplexNumber.I
Defining i
|
static ComplexNumber |
ComplexNumber.MINUS_I
Defining -i
|
static ComplexNumber |
ComplexNumber.ZERO
Defining 0 + 0i
|
| Modifier and Type | Method and Description |
|---|---|
static ComplexNumber |
TrigonometricFunctionUtils.acos(ComplexNumber z)
arccos - the inverse of cos.
|
static ComplexNumber |
TrigonometricFunctionUtils.acosh(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.add(ComplexNumber... z) |
static ComplexNumber |
ComplexMathUtils.add(ComplexNumber z1,
ComplexNumber z2) |
static ComplexNumber |
ComplexMathUtils.add(ComplexNumber z,
double x) |
static ComplexNumber |
ComplexMathUtils.add(double x,
ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.asin(ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.asinh(ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.atan(ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.atanh(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.conjugate(ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.cos(ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.cosh(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.divide(ComplexNumber z1,
ComplexNumber z2) |
static ComplexNumber |
ComplexMathUtils.divide(ComplexNumber z,
double x) |
static ComplexNumber |
ComplexMathUtils.divide(double x,
ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.exp(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.inverse(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.log(ComplexNumber z)
Returns the principal value of log, with z the principal argument of z defined to lie in the interval (-pi, pi].
|
static ComplexNumber |
ComplexMathUtils.multiply(ComplexNumber... z) |
static ComplexNumber |
ComplexMathUtils.multiply(ComplexNumber z1,
ComplexNumber z2) |
static ComplexNumber |
ComplexMathUtils.multiply(ComplexNumber z,
double x) |
static ComplexNumber |
ComplexMathUtils.multiply(double x,
ComplexNumber... z) |
static ComplexNumber |
ComplexMathUtils.multiply(double x,
ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.pow(ComplexNumber z1,
ComplexNumber z2) |
static ComplexNumber |
ComplexMathUtils.pow(ComplexNumber z,
double x) |
static ComplexNumber |
ComplexMathUtils.pow(double x,
ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.sin(ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.sinh(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.sqrt(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.square(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.subtract(ComplexNumber z1,
ComplexNumber z2) |
static ComplexNumber |
ComplexMathUtils.subtract(ComplexNumber z,
double x) |
static ComplexNumber |
ComplexMathUtils.subtract(double x,
ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.tan(ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.tanh(ComplexNumber z) |
| Modifier and Type | Method and Description |
|---|---|
static ComplexNumber |
TrigonometricFunctionUtils.acos(ComplexNumber z)
arccos - the inverse of cos.
|
static ComplexNumber |
TrigonometricFunctionUtils.acosh(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.add(ComplexNumber... z) |
static ComplexNumber |
ComplexMathUtils.add(ComplexNumber z1,
ComplexNumber z2) |
static ComplexNumber |
ComplexMathUtils.add(ComplexNumber z,
double x) |
static ComplexNumber |
ComplexMathUtils.add(double x,
ComplexNumber z) |
static double |
ComplexMathUtils.arg(ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.asin(ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.asinh(ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.atan(ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.atanh(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.conjugate(ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.cos(ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.cosh(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.divide(ComplexNumber z1,
ComplexNumber z2) |
static ComplexNumber |
ComplexMathUtils.divide(ComplexNumber z,
double x) |
static ComplexNumber |
ComplexMathUtils.divide(double x,
ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.exp(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.inverse(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.log(ComplexNumber z)
Returns the principal value of log, with z the principal argument of z defined to lie in the interval (-pi, pi].
|
static double |
ComplexMathUtils.mod(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.multiply(ComplexNumber... z) |
static ComplexNumber |
ComplexMathUtils.multiply(ComplexNumber z1,
ComplexNumber z2) |
static ComplexNumber |
ComplexMathUtils.multiply(ComplexNumber z,
double x) |
static ComplexNumber |
ComplexMathUtils.multiply(double x,
ComplexNumber... z) |
static ComplexNumber |
ComplexMathUtils.multiply(double x,
ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.pow(ComplexNumber z1,
ComplexNumber z2) |
static ComplexNumber |
ComplexMathUtils.pow(ComplexNumber z,
double x) |
static ComplexNumber |
ComplexMathUtils.pow(double x,
ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.sin(ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.sinh(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.sqrt(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.square(ComplexNumber z) |
static ComplexNumber |
ComplexMathUtils.subtract(ComplexNumber z1,
ComplexNumber z2) |
static ComplexNumber |
ComplexMathUtils.subtract(ComplexNumber z,
double x) |
static ComplexNumber |
ComplexMathUtils.subtract(double x,
ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.tan(ComplexNumber z) |
static ComplexNumber |
TrigonometricFunctionUtils.tanh(ComplexNumber z) |
| Modifier and Type | Method and Description |
|---|---|
ComplexNumber[] |
CubicRootFinder.getRoots(RealPolynomialFunction1D function) |
Copyright 2009-Present by OpenGamma Inc. and individual contributors
Apache v2 licensed
Additional documentation can be found at strata.opengamma.io.