T
- the type of the field elementspublic interface RealFieldUnivariateFunction<T extends RealFieldElement<T>>
When a user-defined function encounters an error during
evaluation, the value
method should throw a
user-defined unchecked exception.
The following code excerpt shows the recommended way to do that using a root solver as an example, but the same construct is applicable to ODE integrators or optimizers.
private static class LocalException extends RuntimeException { // The x value that caused the problem. private final SomeFieldType x; public LocalException(SomeFieldType x) { this.x = x; } public double getX() { return x; } } private static class MyFunction implements FieldUnivariateFunction<SomeFieldType> { public SomeFieldType value(SomeFieldType x) { SomeFieldType y = hugeFormula(x); if (somethingBadHappens) { throw new LocalException(x); } return y; } } public void compute() { try { solver.solve(maxEval, new MyFunction(a, b, c), min, max); } catch (LocalException le) { // Retrieve the x value. } }
As shown, the exception is local to the user's code and it is guaranteed that Hipparchus will not catch it.
UnivariateFunction
Modifier and Type | Method and Description |
---|---|
T |
value(T x)
Compute the value of the function.
|
T value(T x)
x
- Point at which the function value should be computed.IllegalArgumentException
- when the activated method itself can
ascertain that a precondition, specified in the API expressed at the
level of the activated method, has been violated.
When Hipparchus throws an IllegalArgumentException
, it is
usually the consequence of checking the actual parameters passed to
the method.Copyright © 2016–2017 Hipparchus.org. All rights reserved.