Example #1
0
     public void sortFrontbyR(){
    
        sortByR = new ArrayList();
    
        for (int i = 0 ; i < Fronts.size() ; i++){
            
       
            ArrayList tempfront = (ArrayList) Fronts.get(i);
			
			for (int j = 0 ; j < tempfront.size() ; j++){
				
				for (int a = 0 ; a <  tempfront.size() ; a++){
			
					if (a > j){
						
						NSGAII.Solutions.QRTPSolution.OneSolution first = (NSGAII.Solutions.QRTPSolution.OneSolution) tempfront.get(j);
						double x  = first.getRecall();
						NSGAII.Solutions.QRTPSolution.OneSolution second = (NSGAII.Solutions.QRTPSolution.OneSolution) tempfront.get(a);
						double y  = second.getRecall();
						
						if (y > x){
						
							tempfront.set(j, second);
							tempfront.set(a, first);
						
						}else{}
					}        
				}      
			}   
			
			sortByR.add(tempfront);
		}
    

    }
Example #2
0
    //This is nonDominated comparison for Maximization only
    //that means the max for both objectives are the best
    public int compare(Object o1, Object o2) {
        
                
        NSGAII.Solutions.QRTPSolution.OneSolution temp1 = (NSGAII.Solutions.QRTPSolution.OneSolution) o1;
        NSGAII.Solutions.QRTPSolution.OneSolution temp2 = (NSGAII.Solutions.QRTPSolution.OneSolution) o2;
       
        //temp2 dominates temp1
        
  if((temp2.getEnergy() > temp1.getEnergy() && temp2.getTime()  > temp1.getTime() && temp2.getRecall() < temp1.getRecall())||
    (temp2.getEnergy()  > temp1.getEnergy() && temp2.getTime()  == temp1.getTime() && temp2.getRecall() == temp1.getRecall())||
    (temp2.getEnergy() == temp1.getEnergy()&& temp2.getTime() > temp1.getTime() && temp2.getRecall() == temp1.getRecall())||
    (temp2.getEnergy() == temp1.getEnergy()&& temp2.getTime() == temp1.getTime() && temp2.getRecall() < temp1.getRecall())||
    (temp2.getEnergy() > temp1.getEnergy()&& temp2.getTime() > temp1.getTime() && temp2.getRecall() == temp1.getRecall())||
    (temp2.getEnergy() > temp1.getEnergy()&&temp2.getTime() == temp1.getTime() && temp2.getRecall() < temp1.getRecall())||
    (temp2.getEnergy() == temp1.getEnergy()&& temp2.getTime() > temp1.getTime() &&  temp2.getRecall() < temp1.getRecall())){  

        
            return 1;
            
    }else if((temp1.getEnergy()> temp2.getEnergy()&&temp1.getTime()> temp2.getTime()&&temp1.getRecall()< temp2.getRecall() )||
    (temp1.getEnergy()  > temp2.getEnergy()&&temp1.getTime()  == temp2.getTime()&& temp1.getRecall() ==  temp2.getRecall() )||
    (temp1.getEnergy() == temp2.getEnergy()&& temp1.getTime() > temp2.getTime() && temp1.getRecall() == temp2.getRecall())||
    (temp1.getEnergy() == temp2.getEnergy() &&temp1.getTime() == temp2.getTime()&& temp1.getRecall() < temp2.getRecall())||
    (temp1.getEnergy() > temp2.getEnergy() && temp1.getTime() > temp2.getTime() && temp1.getRecall() == temp2.getRecall())||
    (temp1.getEnergy() > temp2.getEnergy() && temp1.getTime() == temp2.getTime() && temp1.getRecall() < temp2.getRecall())||
    (temp1.getEnergy() == temp2.getEnergy() && temp1.getTime() > temp2.getTime() && temp1.getRecall() < temp2.getRecall())) {
        
             return -1;
       
    }else{
    
         return 0;
    }  
        
    }
Example #3
0
    //the general list with the fronts is sorted based on the crowded distances 
    //in each front separately
    public void sortByCrowdingDistance(){
    
    
   
    
        for (int i = 0 ; i < Fronts.size() ; i++){
            
       
            ArrayList tempfront = (ArrayList) Fronts.get(i);
        
        for (int j = 0 ; j < tempfront.size() ; j++){
            
            for (int a = 0 ; a <  tempfront.size() ; a++){
        
                if (a > j){
                    
            NSGAII.Solutions.QRTPSolution.OneSolution first = (NSGAII.Solutions.QRTPSolution.OneSolution) tempfront.get(j);
            double x  = first.getCrowdingDistanceTotal();
            NSGAII.Solutions.QRTPSolution.OneSolution second = (NSGAII.Solutions.QRTPSolution.OneSolution) tempfront.get(a);
            double y  = second.getCrowdingDistanceTotal();
            
            if (y >= x){
           
            tempfront.set(j, second);
            tempfront.set(a, first);
            
            }else{ 
           
            tempfront.set(j, first);
            tempfront.set(a, second);
            }
    }        
    }      
    }   
        //System.out.println("After sorting there are "+((ArrayList)Fronts.get(i)).size()+" in "+(i));
        Fronts.set(i,tempfront);
    }  
   
   int count = 0; 
   
  // System.out.println("Fronts "+Fronts.size());
   
   for (int i = 0 ; i < Fronts.size() ; i++){
    
        ArrayList temp = (ArrayList) Fronts.get(i);
    
      //  System.out.println("temp "+temp.size());
        
    int divRank = 0;
        
    for (int j = 0 ; j < temp.size() ; j++){
    
        if (count < alg.popSize){
           
           
        ((NSGAII.Solutions.QRTPSolution.OneSolution) temp.get(j)).setDivRank(divRank);    
        newPop[count] = (NSGAII.Solutions.QRTPSolution.OneSolution) temp.get(j);    
        count = count+1;
        divRank = divRank+1;
        
          }
    }
    }
   
   
   ArrayList tempfrontToPrint = new ArrayList();
   ArrayList oldfrontToPrint = frontToPrint;
   ArrayList newfrontToPrint = new ArrayList();
   
    //System.out.println();
    //System.out.println("In Generation "+alg.gen+" the PF is: ");
    for(int j = 0 ; j < newPop.length ; j++){
    
       if(((NSGAII.Solutions.QRTPSolution.OneSolution)newPop[j]).getRank() == 0){
        
       //System.out.println("Solution "+j+" with COV: "+((NSGAII.Solutions.QRTPSolution.OneSolution)popForGA[j]).getCoverage()+" and Life:"+((NSGAII.Solutions.QRTPSolution.OneSolution)popForGA[j]).getLifetime());    
      
       tempfrontToPrint.add(((NSGAII.Solutions.QRTPSolution.OneSolution)newPop[j]));
    }
    }

    for(int i = 0 ; i < tempfrontToPrint.size() ; i++){
    
    NSGAII.Solutions.QRTPSolution.OneSolution temp = (NSGAII.Solutions.QRTPSolution.OneSolution)tempfrontToPrint.get(i);   
       
    oldfrontToPrint.add(temp);
       
   }
    
     //System.out.println("The size is "+oldfrontToPrint.size());
    
    //WE COMPARE ALL THE SOLUTIONS TO KEEP ONLY THE BEST
    
    for(int i = 0 ; i < oldfrontToPrint.size() ; i++){
        
         boolean dominated = false;
         boolean exist = false;
         NSGAII.Solutions.QRTPSolution.OneSolution temp1 = temp1 = (NSGAII.Solutions.QRTPSolution.OneSolution)oldfrontToPrint.get(i);
        
        for(int j = 0 ; j < oldfrontToPrint.size() ; j++){
    
              NSGAII.Solutions.QRTPSolution.OneSolution temp2 = (NSGAII.Solutions.QRTPSolution.OneSolution)oldfrontToPrint.get(j);
              
              if (i != j && temp1 != null && temp2 != null){
           
      if(temp1.getEnergy() <= 0 || temp1.getTime() <= 0 ||  temp1.getRecall() <= 0){   
         
          temp1 = null;
          oldfrontToPrint.set(i,null);
       
       }}
              
          
       if (i != j && temp1 != null && temp2 != null){
           
       if((temp1.getEnergy() > temp2.getEnergy() && temp1.getTime() > temp2.getTime() && temp1.getRecall() < temp2.getRecall())||
     (temp1.getEnergy() == temp2.getEnergy() && temp1.getTime() == temp2.getTime() && temp1.getRecall() == temp2.getRecall())||
     (temp1.getEnergy() > temp2.getEnergy() && temp1.getTime() == temp2.getTime() && temp1.getRecall() ==  temp2.getRecall())||
     (temp1.getEnergy() == temp2.getEnergy() && temp1.getTime() > temp2.getTime() && temp1.getRecall() == temp2.getRecall())||
     (temp1.getEnergy() == temp2.getEnergy() && temp1.getTime() == temp2.getTime() && temp1.getRecall() < temp2.getRecall())||
     (temp1.getEnergy() > temp2.getEnergy() && temp1.getTime() > temp2.getTime() && temp1.getRecall() == temp2.getRecall())||
     (temp1.getEnergy() > temp2.getEnergy() && temp1.getTime() == temp2.getTime() && temp1.getRecall() < temp2.getRecall())||
     (temp1.getEnergy() == temp2.getEnergy() && temp1.getTime() > temp2.getTime() && temp1.getRecall() < temp2.getRecall()))
     {       
       
          temp1 = null;
          oldfrontToPrint.set(i,null);
       
       }     
       }}
    }
     
     
       for(int i = 0 ; i < oldfrontToPrint.size() ; i++){
           
      if ((NSGAII.Solutions.QRTPSolution.OneSolution)oldfrontToPrint.get(i) != null){
       
          
          NSGAII.Solutions.Solution newSol = new NSGAII.Solutions.QRTPSolution.OneSolution(alg.chromosomeSize);
          newSol.setChromosome(((NSGAII.Solutions.QRTPSolution.OneSolution)oldfrontToPrint.get(i)).getChromosome());
          newSol.setRecall(((NSGAII.Solutions.QRTPSolution.OneSolution)oldfrontToPrint.get(i)).getRecall());
          newSol.setEnergy(((NSGAII.Solutions.QRTPSolution.OneSolution)oldfrontToPrint.get(i)).getEnergy());
          newSol.setTime(((NSGAII.Solutions.QRTPSolution.OneSolution)oldfrontToPrint.get(i)).getTime());
          newfrontToPrint.add(newSol);
       
      }}
   
    
   if(alg.gen == alg.termination-1){
    System.out.println();
    System.out.println("In Generation "+alg.gen+" the PF is: ");
    for(int j = 0 ; j < newfrontToPrint.size() ; j++){
    
     NSGAII.Solutions.QRTPSolution.OneSolution temp = (NSGAII.Solutions.QRTPSolution.OneSolution)newfrontToPrint.get(j);
        
 System.out.println("Solution "+j+" with E: "+nf.format(temp.getEnergy())+" T:"+nf.format(temp.getTime())+" R:"+nf.format(temp.getRecall()));
      
   }
   //System.out.println();
   }
      
   frontToPrint = newfrontToPrint;

 }