@Override public NamedValue<Double> getPerformance() { return new DefaultNamedValue<Double>( PERFORMANCE_NAME, this.assignmentChanged ); }
@Override public NamedValue<Double> getPerformance() { return new DefaultNamedValue<Double>( PERFORMANCE_NAME, this.assignmentChanged ); }
/** * Gets the performance, which is the number changed on the last iteration. * * @return The performance of the algorithm. */ @Override public NamedValue<Integer> getPerformance() { return new DefaultNamedValue<>( "Assignments changed", this.getNumChanged()); }
@Override public NamedValue<Integer> getPerformance() { return new DefaultNamedValue<Integer>("error count", this.getErrorCount()); } }
/** * Gets the performance, which is the error count on the last iteration. * * @return The performance of the algorithm. */ public NamedValue<Integer> getPerformance() { return new DefaultNamedValue<Integer>("error count", this.getErrorCount()); } }
/** * Gets the performance, which is the best score so far. * * @return The performance of the algorithm. */ public NamedValue<Double> getPerformance() { return new DefaultNamedValue<Double>("score", this.getBestSoFarScore()); }
/** * Gets the performance, which is the error count on the last iteration. * * @return The performance of the algorithm. */ public NamedValue<Integer> getPerformance() { return new DefaultNamedValue<Integer>("error count", this.getErrorCount()); } }
/** * Gets the performance, which is the total change on the last iteration. * * @return The performance of the algorithm. */ public NamedValue<Double> getPerformance() { return new DefaultNamedValue<Double>("change", this.getTotalChange()); }
@Override public NamedValue<Integer> getPerformance() { return new DefaultNamedValue<Integer>("error count", this.getErrorCount()); } }
/** * Gets the performance, which is the error count on the last iteration. * * @return The performance of the algorithm. */ @Override public NamedValue<Integer> getPerformance() { return new DefaultNamedValue<Integer>("error count", this.getErrorCount()); }
/** * Gets the performance, which is the error count on the last iteration. * * @return The performance of the algorithm. */ public NamedValue<Integer> getPerformance() { return new DefaultNamedValue<Integer>("error count", this.getErrorCount()); } }
@Override public NamedValue<Integer> getPerformance() { return new DefaultNamedValue<Integer>("error count", this.getErrorCount()); } }
public NamedValue<Double> getPerformance() { return new DefaultNamedValue<Double>( PERFORMANCE_NAME, this.getLastLogLikelihood()); }
/** * Gets the performance, which is the number changed on the last iteration. * * @return The performance of the algorithm. */ public NamedValue<Integer> getPerformance() { return new DefaultNamedValue<Integer>("number changed", this.getChangedCount()); } }
public NamedValue<Double> getPerformance() { return new DefaultNamedValue<Double>( PERFORMANCE_NAME, this.getLastLogLikelihood()); }
public NamedValue<Double> getPerformance() { return new DefaultNamedValue<Double>( "Function Value", this.getResult().getOutput() ); }
/** * Gets the performance, which is the cost of the best genome. * * @return The performance of the algorithm. */ public NamedValue<Double> getPerformance() { return new DefaultNamedValue<Double>("cost", this.getBestSoFar().getCost()); } }
public NamedValue<Double> getPerformance() { return new DefaultNamedValue<Double>( ObjectUtil.getShortClassName( this.getCostFunction() ), this.getResultCost() ); }
public NamedValue<? extends Number> getPerformance() { double cost = (this.getAlgorithm().getResult() == null) ? 0.0 : this.getAlgorithm().getResult().getOutput(); return new DefaultNamedValue<Double>( "Cost", cost ); }
public NamedValue<? extends Number> getPerformance() { double cost = (this.getAlgorithm().getResult() == null) ? 0.0 : this.getAlgorithm().getResult().getOutput(); return new DefaultNamedValue<Double>( "Cost", cost ); }