FieldGradient<T> |
FieldGradient.abs() |
absolute value.
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FieldGradient<T> |
FieldGradient.add(double a) |
'+' operator.
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FieldGradient<T> |
FieldGradient.add(FieldGradient<T> a) |
Compute this + a.
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FieldGradient<T> |
FieldGradient.atan2(FieldGradient<T> x) |
Two arguments arc tangent operation.
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FieldGradient<T> |
FieldGradient.compose(T g0,
T g1) |
Compute composition of the instance by a function.
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static <T extends CalculusFieldElement<T>>
FieldGradient<T> |
FieldGradient.constant(int freeParameters,
T value) |
Build an instance corresponding to a constant value.
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FieldGradient<T> |
FieldGradient.copySign(double sign) |
Returns the instance with the sign of the argument.
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FieldGradient<T> |
FieldGradient.copySign(FieldGradient<T> sign) |
Returns the instance with the sign of the argument.
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FieldGradient<T> |
FieldGradient.copySign(T sign) |
Returns the instance with the sign of the argument.
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FieldGradient<T> |
FieldGradient.divide(double a) |
'÷' operator.
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FieldGradient<T> |
FieldGradient.divide(FieldGradient<T> a) |
Compute this ÷ a.
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FieldGradient<T> |
FieldGradient.divide(T a) |
'÷' operator.
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FieldGradient<T> |
FieldGradient.getAddendum() |
Get the addendum to the real value of the number.
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FieldGradient<T> |
FieldGradientField.getOne() |
Get the multiplicative identity of the field.
|
FieldGradient<T> |
FieldGradient.getPi() |
Get the Archimedes constant π.
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FieldGradient<T> |
FieldGradientField.getZero() |
Get the additive identity of the field.
|
FieldGradient<T> |
FieldGradient.hypot(FieldGradient<T> y) |
Returns the hypotenuse of a triangle with sides this and y
- sqrt(this2 +y2)
avoiding intermediate overflow or underflow.
|
FieldGradient<T> |
FieldGradient.linearCombination(double[] a,
FieldGradient<T>[] b) |
Compute a linear combination.
|
FieldGradient<T> |
FieldGradient.linearCombination(double a1,
FieldGradient<T> b1,
double a2,
FieldGradient<T> b2) |
Compute a linear combination.
|
FieldGradient<T> |
FieldGradient.linearCombination(double a1,
FieldGradient<T> b1,
double a2,
FieldGradient<T> b2,
double a3,
FieldGradient<T> b3) |
Compute a linear combination.
|
FieldGradient<T> |
FieldGradient.linearCombination(double a1,
FieldGradient<T> b1,
double a2,
FieldGradient<T> b2,
double a3,
FieldGradient<T> b3,
double a4,
FieldGradient<T> b4) |
Compute a linear combination.
|
FieldGradient<T> |
FieldGradient.linearCombination(FieldGradient<T>[] a,
FieldGradient<T>[] b) |
Compute a linear combination.
|
FieldGradient<T> |
FieldGradient.linearCombination(FieldGradient<T> a1,
FieldGradient<T> b1,
FieldGradient<T> a2,
FieldGradient<T> b2) |
Compute a linear combination.
|
FieldGradient<T> |
FieldGradient.linearCombination(FieldGradient<T> a1,
FieldGradient<T> b1,
FieldGradient<T> a2,
FieldGradient<T> b2,
FieldGradient<T> a3,
FieldGradient<T> b3) |
Compute a linear combination.
|
FieldGradient<T> |
FieldGradient.linearCombination(FieldGradient<T> a1,
FieldGradient<T> b1,
FieldGradient<T> a2,
FieldGradient<T> b2,
FieldGradient<T> a3,
FieldGradient<T> b3,
FieldGradient<T> a4,
FieldGradient<T> b4) |
Compute a linear combination.
|
FieldGradient<T> |
FieldGradient.linearCombination(T[] a,
FieldGradient<T>[] b) |
Compute a linear combination.
|
FieldGradient<T> |
FieldGradient.linearCombination(T a1,
FieldGradient<T> b1,
T a2,
FieldGradient<T> b2,
T a3,
FieldGradient<T> b3) |
Compute a linear combination.
|
FieldGradient<T> |
FieldGradient.multiply(double a) |
'×' operator.
|
FieldGradient<T> |
FieldGradient.multiply(int n) |
Compute n × this.
|
FieldGradient<T> |
FieldGradient.multiply(FieldGradient<T> a) |
Compute this × a.
|
FieldGradient<T> |
FieldGradient.multiply(T n) |
'×' operator.
|
FieldGradient<T> |
FieldGradient.negate() |
Returns the additive inverse of this element.
|
FieldGradient<T> |
FieldGradient.newInstance(double c) |
Create an instance corresponding to a constant real value.
|
FieldGradient<T> |
FieldGradient.newInstance(T c) |
Create an instance corresponding to a constant Field value.
|
FieldGradient<T> |
FieldGradient.pow(double p) |
Power operation.
|
static <T extends CalculusFieldElement<T>>
FieldGradient<T> |
FieldGradient.pow(double a,
FieldGradient<T> x) |
|
FieldGradient<T> |
FieldGradient.pow(int n) |
Integer power operation.
|
FieldGradient<T> |
FieldGradient.remainder(double a) |
IEEE remainder operator.
|
FieldGradient<T> |
FieldGradient.remainder(FieldGradient<T> a) |
IEEE remainder operator.
|
FieldGradient<T> |
FieldGradient.remainder(T a) |
IEEE remainder operator.
|
FieldGradient<T> |
FieldGradient.rootN(int n) |
Nth root.
|
FieldGradient<T> |
FieldGradient.scalb(int n) |
Multiply the instance by a power of 2.
|
FieldGradient<T> |
FieldGradient.stackVariable() |
Add an independent variable to the Taylor expansion.
|
FieldGradient<T> |
FieldGradient.subtract(double a) |
'-' operator.
|
FieldGradient<T> |
FieldGradient.subtract(FieldGradient<T> a) |
Compute this - a.
|
FieldGradient<T> |
FieldGradient.toDegrees() |
Convert radians to degrees, with error of less than 0.5 ULP
|
FieldGradient<T> |
FieldGradient.toRadians() |
Convert degrees to radians, with error of less than 0.5 ULP
|
static <T extends CalculusFieldElement<T>>
FieldGradient<T> |
FieldGradient.variable(int freeParameters,
int index,
T value) |
Build a Gradient representing a variable.
|
FieldGradient<T> |
FieldGradient.withValue(T v) |
Create a new object with new value (zeroth-order derivative, as passed as input)
and same derivatives of order one and above.
|