PAIR
- Type of the (point, value) pair.
The type of the "value" part of the pair (not used by this class).ConvergenceChecker<PAIR>
public class SimplePointChecker<PAIR extends Pair<double[],? extends Object>> extends AbstractConvergenceChecker<PAIR>
ConvergenceChecker
interface using
only point coordinates.
Convergence is considered to have been reached if either the relative
difference between each point coordinate are smaller than a threshold
or if either the absolute difference between the point coordinates are
smaller than another threshold.
converged
method will also return
true
if the number of iterations has been set (see
this constructor
).Constructor | Description |
---|---|
SimplePointChecker(double relativeThreshold,
double absoluteThreshold) |
Build an instance with specified thresholds.
|
SimplePointChecker(double relativeThreshold,
double absoluteThreshold,
int maxIter) |
Builds an instance with specified thresholds.
|
Modifier and Type | Method | Description |
---|---|---|
boolean |
converged(int iteration,
PAIR previous,
PAIR current) |
Check if the optimization algorithm has converged considering the
last two points.
|
getAbsoluteThreshold, getRelativeThreshold
public SimplePointChecker(double relativeThreshold, double absoluteThreshold)
relativeThreshold
- relative tolerance thresholdabsoluteThreshold
- absolute tolerance thresholdpublic SimplePointChecker(double relativeThreshold, double absoluteThreshold, int maxIter)
relativeThreshold
- Relative tolerance threshold.absoluteThreshold
- Absolute tolerance threshold.maxIter
- Maximum iteration count.MathIllegalArgumentException
- if maxIter <= 0
.public boolean converged(int iteration, PAIR previous, PAIR current)
converged
in interface ConvergenceChecker<PAIR extends Pair<double[],? extends Object>>
converged
in class AbstractConvergenceChecker<PAIR extends Pair<double[],? extends Object>>
iteration
- Index of current iterationprevious
- Best point in the previous iteration.current
- Best point in the current iteration.true
if the arguments satify the convergence criterion.Copyright © 2016–2018 Hipparchus.org. All rights reserved.