/** * CEC2009_UF10.java * * @author Antonio J. Nebro * @version 1.0 */package jmetal.problems.cec2009Competition;import jmetal.base.*;import jmetal.base.Configuration.SolutionType_;import jmetal.base.Configuration.VariableType_;import jmetal.util.JMException;/** * Class representing problem CEC2009_UF10 */public class CEC2009_UF10 extends Problem {   /**   * Constructor.  * Creates a default instance of problem CEC2009_UF10 (30 decision variables)  * @param solutionType The solution type must "Real" or "BinaryReal".  */  public CEC2009_UF10(String solutionType) {    this(30,  solutionType); // 30 variables by default  } // CEC2009_UF10   /**  * Creates a new instance of problem CEC2009_UF10.  * @param numberOfVariables Number of variables.  * @param solutionType The solution type must "Real" or "BinaryReal".  */  public CEC2009_UF10(Integer numberOfVariables, String solutionType) {    numberOfVariables_  = numberOfVariables.intValue();    numberOfObjectives_ =  3;    numberOfConstraints_=  0;    problemName_        = "CEC2009_UF10";        upperLimit_ = new double[numberOfVariables_];    lowerLimit_ = new double[numberOfVariables_];    //Establishes upper and lower limits for the variables    for (int var = 0; var < numberOfVariables_; var++) {      lowerLimit_[var] = 0.0;      upperLimit_[var] = 1.0;    } // for    solutionType_ = Enum.valueOf(SolutionType_.class, solutionType) ;         // All the variables are of the same type, so the solutionType name is the    // same than the variableType name    variableType_ = new VariableType_[numberOfVariables_];    for (int var = 0; var < numberOfVariables_; var++){      variableType_[var] = Enum.valueOf(VariableType_.class, solutionType) ;        } // for  } // CEC2009_UF10      /**    * Evaluates a solution.   * @param solution The solution to evaluate.   * @throws JMException    */  public void evaluate(Solution solution) throws JMException {    DecisionVariables decisionVariables  = solution.getDecisionVariables();        double [] x = new double[numberOfVariables_] ;    for (int i = 0; i < numberOfVariables_; i++)      x[i] = decisionVariables.variables_[i].getValue() ;  	int count1, count2, count3;		double sum1, sum2, sum3, yj, hj;		sum1   = sum2 = sum3 = 0.0;		count1 = count2 = count3 = 0;        for (int j = 3 ; j <= numberOfVariables_; j++) {			yj = x[j-1] - 2.0*x[1]*Math.sin(2.0*Math.PI*x[0]+j*Math.PI/numberOfVariables_);			hj = 4.0*yj*yj - Math.cos(8.0*Math.PI*yj) + 1.0;			if(j % 3 == 1) {				sum1  += hj;				count1++;			} else if(j % 3 == 2) {				sum2  += hj;				count2++;			} else {				sum3  += hj;				count3++;			}    }        solution.setObjective(0, Math.cos(0.5*Math.PI*x[0])*Math.cos(0.5*Math.PI*x[1]) + 2.0*sum1 / (double)count1);    solution.setObjective(1, Math.cos(0.5*Math.PI*x[0])*Math.sin(0.5*Math.PI*x[1]) + 2.0*sum2 / (double)count2);    solution.setObjective(2, Math.sin(0.5*Math.PI*x[0])                       + 2.0*sum3 / (double)count3) ;  } // evaluate} // CEC2009_UF10