//  OMOPSO_main.java
//
//  Author:
//       Antonio J. Nebro <antonio@lcc.uma.es>
//       Juan J. Durillo <durillo@lcc.uma.es>
//
//  Copyright (c) 2011 Antonio J. Nebro, Juan J. Durillo
//
//  This program is free software: you can redistribute it and/or modify
//  it under the terms of the GNU Lesser General Public License as published by
//  the Free Software Foundation, either version 3 of the License, or
//  (at your option) any later version.
//
//  This program is distributed in the hope that it will be useful,
//  but WITHOUT ANY WARRANTY; without even the implied warranty of
//  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
//  GNU Lesser General Public License for more details.
// 
//  You should have received a copy of the GNU Lesser General Public License
//  along with this program.  If not, see <http://www.gnu.org/licenses/>.

package jmetal.metaheuristics.omopso;

import jmetal.core.Algorithm;
import jmetal.core.Problem;
import jmetal.core.SolutionSet;
import jmetal.operators.mutation.Mutation;
import jmetal.operators.mutation.NonUniformMutation;
import jmetal.operators.mutation.UniformMutation;
import jmetal.problems.Kursawe;
import jmetal.problems.ProblemFactory;
import jmetal.qualityIndicator.QualityIndicator;
import jmetal.util.Configuration;
import jmetal.util.JMException;

import java.io.IOException;
import java.util.HashMap;
import java.util.logging.FileHandler;
import java.util.logging.Logger;

/**
 * Class for configuring and running the OMOPSO algorithm
 */
public class OMOPSO_main {
  public static Logger      logger_ ;      // Logger object
  public static FileHandler fileHandler_ ; // FileHandler object

  /**
   * @param args Command line arguments. The first (optional) argument specifies 
   *             the problem to solve.
   * @throws JMException 
   * @throws IOException 
   * @throws SecurityException 
   * Usage: three options
   *      - jmetal.metaheuristics.mocell.MOCell_main
   *      - jmetal.metaheuristics.mocell.MOCell_main problemName
   *      - jmetal.metaheuristics.mocell.MOCell_main problemName ParetoFrontFile
   */
  public static void main(String [] args) throws JMException, IOException, ClassNotFoundException {
    Problem   problem   ;         // The problem to solve
    Algorithm algorithm ;         // The algorithm to use
    Mutation  uniformMutation ;
    Mutation nonUniformMutation ;
    
    QualityIndicator indicators ; // Object to get quality indicators
        
    HashMap  parameters ; // Operator parameters
    
    // Logger object and file to store log messages
    logger_      = Configuration.logger_ ;
    fileHandler_ = new FileHandler("OMOPSO_main.log"); 
    logger_.addHandler(fileHandler_) ;
    
    indicators = null ;
    if (args.length == 1) {
      Object [] params = {"Real"};
      problem = (new ProblemFactory()).getProblem(args[0],params);
    } // if
    else if (args.length == 2) {
      Object [] params = {"Real"};
      problem = (new ProblemFactory()).getProblem(args[0],params);
      indicators = new QualityIndicator(problem, args[1]) ;
    } // if
    else { // Default problem
      problem = new Kursawe("Real", 3); 
      //problem = new Water("Real");
      //problem = new ZDT4("Real");
      //problem = new WFG1("Real");
      //problem = new DTLZ1("Real");
      //problem = new OKA2("Real") ;
    }
    
    algorithm = new OMOPSO(problem) ;
    
    Integer maxIterations = 250 ;
    Double perturbationIndex = 0.5 ;
    Double mutationProbability = 1.0/problem.getNumberOfVariables() ;
    
    // Algorithm parameters
    algorithm.setInputParameter("swarmSize",100);
    algorithm.setInputParameter("archiveSize",100);
    algorithm.setInputParameter("maxIterations",maxIterations);
    
    parameters = new HashMap() ;
    parameters.put("probability", mutationProbability) ;
    parameters.put("perturbation", perturbationIndex) ;
    uniformMutation = new UniformMutation(parameters);
    
    parameters = new HashMap() ;
    parameters.put("probability", mutationProbability) ;
    parameters.put("perturbation", perturbationIndex) ;
    parameters.put("maxIterations", maxIterations) ;
    nonUniformMutation = new NonUniformMutation(parameters);

    // Add the operators to the algorithm
    algorithm.addOperator("uniformMutation",uniformMutation);
    algorithm.addOperator("nonUniformMutation",nonUniformMutation);

    // Execute the Algorithm 
    long initTime = System.currentTimeMillis();
    SolutionSet population = algorithm.execute();
    long estimatedTime = System.currentTimeMillis() - initTime;
    
    // Print the results
    logger_.info("Total execution time: "+estimatedTime + "ms");
    logger_.info("Variables values have been writen to file VAR");
    population.printVariablesToFile("VAR");    
    logger_.info("Objectives values have been writen to file FUN");
    population.printObjectivesToFile("FUN");
  
    if (indicators != null) {
      logger_.info("Quality indicators") ;
      logger_.info("Hypervolume: " + indicators.getHypervolume(population)) ;
      logger_.info("GD         : " + indicators.getGD(population)) ;
      logger_.info("IGD        : " + indicators.getIGD(population)) ;
      logger_.info("Spread     : " + indicators.getSpread(population)) ;
      logger_.info("Epsilon    : " + indicators.getEpsilon(population)) ;  
    } // if
  }//main
} // OMOPSO_main