Class SimpleValueChecker

All Implemented Interfaces:
ConvergenceChecker<PointValuePair>

public class SimpleValueChecker extends AbstractConvergenceChecker<PointValuePair>
Simple implementation of the ConvergenceChecker interface using only objective function values. Convergence is considered to have been reached if either the relative difference between the objective function values is smaller than a threshold or if either the absolute difference between the objective function values is smaller than another threshold.
The converged method will also return true if the number of iterations has been set (see this constructor).
  • Constructor Details

    • SimpleValueChecker

      public SimpleValueChecker(double relativeThreshold, double absoluteThreshold)
      Build an instance with specified thresholds. In order to perform only relative checks, the absolute tolerance must be set to a negative value. In order to perform only absolute checks, the relative tolerance must be set to a negative value.
      Parameters:
      relativeThreshold - relative tolerance threshold
      absoluteThreshold - absolute tolerance threshold
    • SimpleValueChecker

      public SimpleValueChecker(double relativeThreshold, double absoluteThreshold, int maxIter)
      Builds an instance with specified thresholds. In order to perform only relative checks, the absolute tolerance must be set to a negative value. In order to perform only absolute checks, the relative tolerance must be set to a negative value.
      Parameters:
      relativeThreshold - relative tolerance threshold
      absoluteThreshold - absolute tolerance threshold
      maxIter - Maximum iteration count.
      Throws:
      MathIllegalArgumentException - if maxIter <= 0.
  • Method Details

    • converged

      public boolean converged(int iteration, PointValuePair previous, PointValuePair current)
      Check if the optimization algorithm has converged considering the last two points. This method may be called several time from the same algorithm iteration with different points. This can be detected by checking the iteration number at each call if needed. Each time this method is called, the previous and current point correspond to points with the same role at each iteration, so they can be compared. As an example, simplex-based algorithms call this method for all points of the simplex, not only for the best or worst ones.
      Specified by:
      converged in interface ConvergenceChecker<PointValuePair>
      Specified by:
      converged in class AbstractConvergenceChecker<PointValuePair>
      Parameters:
      iteration - Index of current iteration
      previous - Best point in the previous iteration.
      current - Best point in the current iteration.
      Returns:
      true if the algorithm has converged.