/** * @return the number of evalutations. */ public int getEvaluations() { return evaluations.getCount(); }
/** {@inheritDoc} */ public int getEvaluations() { return evaluations.getCount(); }
/** * Gets the number of iterations performed by the algorithm. * The number iterations corresponds to the last call to the * {@code optimize} method. It is 0 if the method has not been * called yet. * * @return the number of evaluations of the objective function. */ public int getIterations() { return iterations.getCount(); }
/** * Gets the number of evaluations of the objective function. * The number of evaluations corresponds to the last call to the * {@code optimize} method. It is 0 if the method has not been * called yet. * * @return the number of evaluations of the objective function. */ public int getEvaluations() { return evaluations.getCount(); }
/** {@inheritDoc} */ public int getEvaluations() { return evaluations.getCount(); }
/** {@inheritDoc} */ public int getEvaluations() { return evaluations.getCount(); }
evaluationCounter.getCount(), iterationCounter.getCount()); if (checker != null && checker.converged(iterationCounter.getCount(), previous, current)) { return new OptimumImpl(current, evaluationCounter.getCount(), iterationCounter.getCount()); ratio <= 2.0) || delta <= parRelativeTolerance * xNorm) { return new OptimumImpl(current, evaluationCounter.getCount(), iterationCounter.getCount());
/** * @return the number of evalutations. */ public int getEvaluations() { return evaluations.getCount(); }
/** * Gets the number of iterations performed by the algorithm. * The number iterations corresponds to the last call to the * {@code optimize} method. It is 0 if the method has not been * called yet. * * @return the number of evaluations of the objective function. */ public int getIterations() { return iterations.getCount(); }
/** * Gets the number of evaluations of the objective function. * The number of evaluations corresponds to the last call to the * {@code optimize} method. It is 0 if the method has not been * called yet. * * @return the number of evaluations of the objective function. */ public int getEvaluations() { return evaluations.getCount(); }
/** * Gets the number of evaluations of the objective function. * The number of evaluations corresponds to the last call to the * {@code optimize} method. It is 0 if the method has not been * called yet. * * @return the number of evaluations of the objective function. */ public int getEvaluations() { return evaluations.getCount(); }
/** * Gets the number of iterations performed by the algorithm. * The number iterations corresponds to the last call to the * {@code optimize} method. It is 0 if the method has not been * called yet. * * @return the number of evaluations of the objective function. */ public int getIterations() { return iterations.getCount(); }
/** {@inheritDoc} */ public int getEvaluations() { return evaluations.getCount(); }
/** {@inheritDoc} */ public int getEvaluations() { return evaluations.getCount(); }
/** {@inheritDoc} */ public int getEvaluations() { return evaluations.getCount(); }
evaluationCounter.getCount(), iterationCounter.getCount()); if (checker != null && checker.converged(iterationCounter.getCount(), previous, current)) { return new OptimumImpl(current, evaluationCounter.getCount(), iterationCounter.getCount()); ratio <= 2.0) || delta <= parRelativeTolerance * xNorm) { return new OptimumImpl(current, evaluationCounter.getCount(), iterationCounter.getCount());
evaluationCounter.getCount(), iterationCounter.getCount()); if (checker != null && checker.converged(iterationCounter.getCount(), previous, current)) { return new OptimumImpl(current, evaluationCounter.getCount(), iterationCounter.getCount()); ratio <= 2.0) || delta <= parRelativeTolerance * xNorm) { return new OptimumImpl(current, evaluationCounter.getCount(), iterationCounter.getCount());