Example #1
0
_AgentType_ *
Fabric<_AgentType_>::
newAgent()
{
   // DEBUG : Avoid SIGSEV with unallocated fabric
   if( !storage_ )
      throw myException( "Unallocate fabric", __FILE__, __LINE__ ) ;

   // Look for a dead agent from the last to the top
   for( unsigned i=highestIndexAgent; i<size_; ++i )
   {
      if( ! storage_[i].isAlive() )
      {
         highestIndexAgent = i ;
         return storage_+i ;
      }
   }

   // Look for a dead agent from the bottom to the last
   for( unsigned i=0; i<highestIndexAgent; ++i )
   {
      if( ! storage_[i].isAlive() )
         return storage_+i ;
   }

   // All agents are alive: out of memory
   throw myException( "Fabric is out of memory", __FILE__, __LINE__ ) ;

   //return NULL ;
}
Example #2
0
//*************************************************************************************
void SinglyLinkedList::insertAtGivenPosition(int data, int position)
{
    if(m_debug == true)
    {
        cout<<"In function insertAtGivenPosition with data "<< data;
        cout<<" and position "<<position<<endl;
    }
    
    if(m_length < position)
    {
        throw myException(m_error = "List is not that long");
    }
    
    Node* newNode = new Node(data);
    if(!newNode)
    {
        throw myException(m_error = "No memory left for new node");
    }
    
    Node* temp = m_head;
    for(int index = 1; index < (position - 1 ); index++)
    {
        temp = temp->link;
    }
    newNode->link = temp->link;
    temp->link = newNode;
    m_length++;
}
Example #3
0
int		main(int argc, char **argv)
{
  std::fstream  fs;
  std::string	line;
  Vm		vm;
  int		i;
  int		set;

  i = 0;
  set = 0;
  std::cout << "*******************ABSTRACT VM START********************" << std::endl;
  try
    {
      if (argc >= 2)
	{
	  fs.open(argv[1], std::ios::in);
	  if (!fs)
	    throw myException("File not found");
	  while (line.compare("exit") != 0 && !fs.eof())
	    {
	      i = i + 1;
	      getline(fs, line);
	      if (vm.addline(line, i) == 1)
		return (0);
	    }
	  fs.close();
	  if (line.compare("exit") != 0)
	    throw myException("no exit instruction");
	}
      else if (argc < 2)
	{
	  while (line.compare(";;") != 0)
	    {
	      getline(std::cin, line);
	      if (line.compare("exit") == 0)
		{
		  set = 1;
		  continue;
		}
	      if(set == 0)
		{
		  i = i + 1;
		  if (vm.addline(line, i) == 1)
		    return (0);
		}
	    }
	  if (set == 0)
	    throw myException("no exit instruction");
	}
      vm.run();
    }
  catch(const myException &e)
    {
      std::cerr << "Error :" << e.what() << std::endl;
    }
  return (0);
}
Example #4
0
ReturnFlag CRDEPopulation::evolve()
{
	if(this->m_popsize<4){
       throw myException("the population size cannot be smaller than 5@DEPopulation<TypeDEIndi>::evolve()");
	}

	ReturnFlag rf=Return_Normal;

    for(int i=0;i<this->m_popsize;i++){
        mutate(i);
        this->m_pop[i]->recombine(m_CR);
  
		rf=this->m_pop[i]->m_pu.evaluate();
		if(rf!=Return_Normal) return rf;

        int idx=this->findNearest(i,0,0,1);
	
		if(this->m_pop[i]->m_pu>this->m_pop[idx]->self()){
			this->m_pop[idx]->self()=this->m_pop[i]->m_pu;
		}
		this->updateBestArchive(DEIndividual(this->m_pop[i]->m_pu));
	}
    this->m_iter++;
	return rf;
}
Example #5
0
void SinglyLinkedList::reverseListInPair()
{
    if(m_debug == true)
    {
        cout<<"In function reverseListInPair"<<endl;
    }
    if(isListEmpty())
    {
        throw myException(m_error = "Empty list");
    }
    Node* tempNode = m_head;
    while(tempNode != NULL)
    {
        if(tempNode->link != NULL)
        {
            swap(&(tempNode->data), &((tempNode->link)->data));
        }
        else
        {
            return;
        }
        tempNode = tempNode->link;
        if(tempNode->link == NULL)
        {
            return;
        }
        tempNode = tempNode->link;
    }
}
Example #6
0
//*************************************************************************************
void SinglyLinkedList::insertAtBeginning(int data)
{

    Node* newNode = new Node(data);
    if(!newNode)
    {
        throw myException(m_error = "No memory for new node");
    }
    if(m_debug == true)
    {
        cout<<"In function insertAtBeginning with data "<< data<<endl;
        cout<<"Node's data - " << newNode->data <<endl;
        
    }

    
    if(m_length == 0) // list is empty
    {
        m_head = newNode;
    }
    else // list has some nodes 
    {
        newNode->link = m_head;
        m_head = newNode;
    }
    m_length++;
}
Example #7
0
//*************************************************************************************
void SinglyLinkedList::insertNodeInSortList(int data)
{
    if(m_debug == true)
    {
        cout<<"In function insertNodeInSortList"<<endl;
    }
    
    if(isListEmpty())
    {
        throw myException(m_error = "Empty list");
    }
    Node* slowPtr = m_head;
    Node* fastPtr = m_head;
    fastPtr = fastPtr->link;
    while(fastPtr != NULL)
    {
        if(fastPtr->data < data)
        {
            fastPtr = fastPtr->link;
            slowPtr = slowPtr->link;
        }
        else
        {
            break;
        }
    }
    Node* tempNode = new Node(data);
    tempNode->link = slowPtr->link;
    slowPtr->link = tempNode;
}
Example #8
0
//*************************************************************************************
void SinglyLinkedList::createCircle()
{
    if(m_debug == true)
    {
        cout<<"In function createCircle"<<endl;
    }
    if(isListEmpty())
    {
        throw myException(m_error = "Empty list");
    }
    
    Node* temp = m_head;
    Node* randomNode;
    int random = m_length/2; //random  
    int index = 0;
    while(temp->link != NULL)
    {
        if(random == index)
        {
            randomNode = temp;
        }
        temp = temp->link;
        index++;
    }
    temp->link = randomNode;
    m_isCircleCreated = true;
}
Example #9
0
//*************************************************************************************
int SinglyLinkedList::middleNode()
{
    if(m_debug == true)
    {
        cout<<"In function middleNode"<<endl;
    }
    if(isListEmpty())
    {
        throw myException(m_error = "Empty list");
    }
    
    Node* slowPtr = m_head;
    Node* fastPtr = m_head;
    
    while(fastPtr->link != NULL)
    {
        slowPtr = slowPtr->link;
        fastPtr = fastPtr->link;
        if(fastPtr->link == NULL)
        {
            break;
        }
        fastPtr = fastPtr->link;
    }
    return slowPtr->data;
}
Example #10
0
//*************************************************************************************
void SinglyLinkedList::printCircle() // circle
{
    if(m_debug == true)
    {
        cout<<"In function isListEmpty"<<endl;
    }
    if(isListEmpty())
    {
        throw myException(m_error = "Empty list");
    }
    Node* tempNode = m_head;
    int index = 0;
    while(tempNode != NULL)
    {
        cout<<"|";
        cout<< tempNode->data;
        cout<<"|";
        if(tempNode->link != NULL)
        {
            cout<<" --> ";
        }
        index++;
        tempNode = tempNode->link;
        if(index > MAXLOOPINGLIMIT)
        {
            break;
        }
    }
    cout<<endl;
}
Example #11
0
//*************************************************************************************
void SinglyLinkedList::printList()
{
    if(m_debug == true)
    {
        cout<<"In function isListEmpty"<<endl;
    }
    if(isListEmpty())
    {
        throw myException(m_error = "Empty list");
    }
    
    if(isCircleExist())
    {
        printCircle();
        return;
    }
    Node* temp = m_head;
    int index = 1;
    cout<<endl;
    while(temp != NULL)
    {
        cout<<"|";
        cout<< temp->data;
        cout<<"|";
        if(temp->link != NULL)
        {
            cout<<" --> ";
        }

        index++;
        temp = temp->link;
    }
    cout<<endl;
}
Example #12
0
//*************************************************************************************
int SinglyLinkedList::deletingAtGivenPosition(int position)
{
    if(m_debug == true)
    {
        cout<<"In function deletingAtGivenPosition, with position "<<position<<endl;
    }
    if(isListEmpty())
    {
        throw myException(m_error = "Empty list");
    }
    
    if(m_length < position)
    {
        //list is not that big
    }
    Node* atPositionPtr = m_head;
    Node* oneBeforeAtPositionPtr = m_head;
    atPositionPtr = atPositionPtr->link; 
    
    for(int index = 1 ; index < (position - 1); index++)
    {
        oneBeforeAtPositionPtr = oneBeforeAtPositionPtr->link;
        atPositionPtr = atPositionPtr->link;
    }
    
    oneBeforeAtPositionPtr->link = atPositionPtr->link;
    int returnValue = atPositionPtr->data;
    delete atPositionPtr;
    return returnValue;
}
Example #13
0
//*************************************************************************************
int SinglyLinkedList::deletingAtend()
{
    if(m_debug == true)
    {
        cout<<"In function deletingAtend"<<endl;
    }
    
    if(isListEmpty())
    {
        throw myException(m_error = "Empty list");
    }
    
    Node* lastNode = m_head;
    Node* secondLastNode = m_head;
    //increment last node before going to loop
    lastNode = lastNode->link;
    while(lastNode->link != NULL)
    {
        lastNode = lastNode->link;
        secondLastNode = secondLastNode->link;
    }
    int returnValue = lastNode->data;
    delete lastNode;
    secondLastNode->link = NULL;
    return returnValue;
}
Example #14
0
//*************************************************************************************
OddEven SinglyLinkedList::lengthOfTheListInOddEven()
{
    if(m_debug == true)
    {
        cout<<"In function lengthOfTheListInOddEven"<<endl;
    }
    if(isListEmpty())
    {
        throw myException(m_error = "Empty list");
    }
    Node* tempNode = m_head;
    while(tempNode != NULL)
    {
        if(tempNode->link  == NULL)
        {
            break;
        }
        tempNode = tempNode->link;
        tempNode = tempNode->link;
    }
    if(tempNode == NULL)
    {
        return EVEN;
    }
    else 
    {
        return ODD;
    }
}
Example #15
0
double ContinuousProblem::getDistance(const VirtualEncoding &ss1, const VirtualEncoding &ss2, DistanceMode mode){
	
	const CodeVReal &s1=dynamic_cast<const CodeVReal&>(ss1);
	const CodeVReal &s2=dynamic_cast<const CodeVReal&>(ss2);
	double dis=0;
	
	switch(mode){
		case DIS_EUCLIDEAN:
		{
			for(int i=0;i<m_numDim;i++){
				dis+=(double)((s1[i]-s2[i])*(s1[i]-s2[i]));
			}
			return sqrt(dis);
		}
		case DIS_MANHATTAN:
		{
			for(int i=0;i<m_numDim;i++){
				dis+=fabs((double)(s1[i]-s2[i]));
			}
			return dis;
		}
		case DIS_HAMMING:
		{
			for(int i=0;i<m_numDim;i++){
				if(s1[i]!=s2[i]) dis+=1;	
			}
			return dis;
		}
		default: throw myException("undefined distance mode @Problem::getDistance");
	}

}
Example #16
0
//*************************************************************************************
void SinglyLinkedList::insertAtend(int data)
{
    if(m_debug == true)
    {
        cout<<"In function insertAtend with data "<< data<<endl;
    }
    
    Node* newNode = new Node(data);
    if(!newNode)
    {
        throw myException(m_error = "No memory for new node");
    }
    
    if(m_length == 0) // list is empty
    {
        m_head = newNode;
    }
    else
    {
        Node* temp = m_head;
        while(temp->link != NULL)
        {
            temp = temp->link;
        }
        temp->link = newNode;
    }
    m_length++;
}
Example #17
0
void
Fabric<_AgentType_>::defragmentFabric()
{
   // DEBUG : Avoid SIGSEV with unallocated fabric
   if( !storage_ )
      throw myException( "Unallocate fabric", __FILE__, __LINE__ ) ;

   if (firstRemoved == true)
   {
      // Look for a dead agent within the block of alive agents.     
      unsigned i=0; //firstDead;
      while (i < highestIndexAgent)
      {
         //cout << i << " ";
         if( !storage_[i].isAlive() )
         {
            while (!(storage_[highestIndexAgent].isAlive()) && highestIndexAgent > 0)
            {
               highestIndexAgent--;
            }

            if ( storage_[highestIndexAgent].isAlive()  && i < highestIndexAgent)
            {
               // Use overloaded assignment operator to assign object.
               storage_[i] = storage_[highestIndexAgent];
               storage_[highestIndexAgent].setStock(0.0);
               highestIndexAgent--;
            }
         }
         i++;
      }
   }
}
Example #18
0
void FWeierstrass::initialize(){

    setOriginalGlobalOpt();

	if(IS_PROBLEM_NAME(m_id,"FUN_Weierstrass")){
	
	}else if(IS_PROBLEM_NAME(m_id,"FUN_R_Weierstrass")){
		setConditionNumber(2);
            loadRotation();
	}else if(IS_PROBLEM_NAME(m_id,"FUN_RS_Weierstrass")){
		setConditionNumber(5);
            loadTranslation();
            loadRotation();
	}else if(IS_PROBLEM_NAME(m_id,"FUN_RS_Weierstrass_CEC05")){
		setConditionNumber(5);
            loadTranslation();
            loadRotation();
             setBias(90);
	}else {
		throw myException("Error: please check the problem ID@FWeierstrass::initialize");
	}

    setGlobalOpt();
    setAccuracy(1.0e-2);

}
Example #19
0
int			main(int ac, char **av)
{
  void			*handle;
  IGui			*(*ext_ctor)();
  Nibbler		nibbler;

  try
    {
      if (ac != 4)
	throw myException((GamePart)42, "Usage: ./nibbler width height libXXX.so");
      handle = dlopen(av[3], RTLD_LAZY);
      if (!handle)
	throw Nibbler::nibblerException(NIBBLER, dlerror(), DLERROR);
      ext_ctor = reinterpret_cast<IGui* (*)()>(dlsym(handle, "create"));
      if (!ext_ctor)
	throw Nibbler::nibblerException(NIBBLER, dlerror(), DLERROR);
      if (!nibbler.checkArg(av[1]) || !nibbler.checkArg(av[2]))
	throw Nibbler::nibblerException(NIBBLER, "Bad map values", BADARG);
      nibbler.setGui(ext_ctor);
      nibbler.execNibbler(nibbler.getnbr(av[1]), nibbler.getnbr(av[2]));
      nibbler.deleteGui();
      nibbler.getCore()->printEndgame();
      if (dlclose(handle) != 0)
	throw Nibbler::nibblerException(NIBBLER, dlerror(), DLERROR);
    }
  catch (myException const &ex)
    {
      nibbler.deleteGui();
      std::cerr << ex.where() << " : " << ex.what() << std::endl;
      return (1);
    }
  return (0);
}
Example #20
0
void StartInstance::Launch()
{
	isInit = true;
	VirtualMachine *vm = new VirtualMachine();


	if (isInit)
	{
		  Power *p = new Power();

            std::cout << "V1" << std::endl;
			map->seeMap();
            std::cout << "-----------" << std::endl;
            map = p->findPowerOnMap(map);
            std::cout << "V2" << std::endl;
            map->seeMap();
			std::cout << "-----------" << std::endl;
	
			vm->setMap(map->getMap());		
			vm->Launch(*map->getMap());

	}
	else
	{
	std::string error = "Error Initialisation";
		throw myException(error);

	}
}
Example #21
0
bool DynamicProblem::setPeriod(const int rPeriod){
    if(rPeriod>=0) m_period=rPeriod;
    else{
        throw myException("period must be positive@ DynamicProblem::setPeriod");
    }
    return true;
}
Example #22
0
    char BooleanByteWrapper::setFlag(byte flag, char offset, bool value)
    {
        if (offset >= 8)
            throw myException("offset must be lesser than 8");

        return (value ? (char)(flag | (1 << offset)) : (char)((flag & 255) - (1 << offset)));
    }
Example #23
0
    bool BooleanByteWrapper::getFlag(char flag, char offset)
    {
        if (offset >= 8)
            throw myException("offset must be lesser than 8");

        return (flag & (char)(1 << offset)) != 0;
    }
Example #24
0
void CompositionDBG::getComBoundary(const ProblemTag &f,double &l,double &u,const int rDimIdx)const{
	switch(f){
		case Sphere:
			l=mv_comBoundary[0][rDimIdx].m_lower;
			u=mv_comBoundary[0][rDimIdx].m_upper;
			break;
		case Rastrigin:
			l=mv_comBoundary[1][rDimIdx].m_lower;
			u=mv_comBoundary[1][rDimIdx].m_upper;
			break;
		case Weierstrass:
			l=mv_comBoundary[2][rDimIdx].m_lower;
			u=mv_comBoundary[2][rDimIdx].m_upper;
			break;
		case Griewank:
			l=mv_comBoundary[3][rDimIdx].m_lower;
			u=mv_comBoundary[3][rDimIdx].m_upper;
			break;
		case Ackley:
			l=mv_comBoundary[4][rDimIdx].m_lower;
			u=mv_comBoundary[4][rDimIdx].m_upper;
			break;
		default:
			throw myException("No the function in the basic component fs@CompositionDBG::getComBoundary");
			break;
	}
}
Example #25
0
void FAckley::initialize(){

    setOriginalGlobalOpt();

	if(IS_PROBLEM_NAME(m_id,"FUN_Ackley")||IS_PROBLEM_NAME(m_id,"FUN_Ackley_Noisy")){	}
	else if(IS_PROBLEM_NAME(m_id,"FUN_S_Ackley")){
		loadTranslation();
	}else if(IS_PROBLEM_NAME(m_id,"FUN_R_Ackley")){
		 setConditionNumber(2);
         loadRotation();
	}else if(IS_PROBLEM_NAME(m_id,"FUN_RS_Ackley")){
		setConditionNumber(100);
        loadTranslation();
        loadRotation();
	}else if(IS_PROBLEM_NAME(m_id,"FUN_RS_Ackley_Bound_CEC05")){
		setConditionNumber(100);
        loadTranslation();
        loadRotation();
        setBias(-140);

	}else if(IS_PROBLEM_NAME(m_id,"FUN_S_Ackley_CEC08")){
		setBias(-140);
            loadTranslation();
	}else{
		throw myException("Error: please check the problem ID@FAckley::initialize()");
	}

    setGlobalOpt();
}
Example #26
0
void ContinuousProblem::initializePartSolution(VirtualEncoding &result,int begin,int end){
	if(begin<0||end>m_numDim) throw myException("ContinuousProblem::initializeSolution@ContinuousProblem::initializePartSolution");
    CodeVReal&s=dynamic_cast< CodeVReal&>(result);
	double l,u;
	for(int i=begin;i<end;i++){
		m_searchRange.getSearchRange(l,u,i);
		s[i]= l+(u-l)*Global::msp_global->mp_uniformAlg->Next();
	}	
}
Example #27
0
/*
My
    if len is odd
        go till middle of the list.
    else    
        go till len/2
    put second half of the list into stack
    pop out stack element and compare with the first half of the list.
*/
bool SinglyLinkedList::isListPalindrome()
{
    if(m_debug == true)
    {
        cout<<"In function getData"<<endl;
    }
    if(isListEmpty())
    {
        throw myException(m_error = "Empty list");
    }
    if(m_length == 1)
    {
        return true;
    }
    Node* fastPtr = m_head;
    Node* slowPtr = m_head;
    if(m_length%2 == 0)
    {
        int temp = m_length/2;
        for(int index = 1; index <= temp; index++)
        {
            slowPtr = slowPtr->link;
        }
    }
    else
    {
        while(fastPtr->link != NULL)
        {
            fastPtr = fastPtr->link;
            if(fastPtr->link == NULL)
            {
                break;
            }
            fastPtr = fastPtr->link;
            slowPtr = slowPtr->link;
        }
    }
    //put second half of the list into stack
    stack<int> tempStack;
    while(slowPtr != NULL)
    {
        tempStack.push(slowPtr->data);
        slowPtr = slowPtr->link;
    }
    //compare data
    Node* tempNode = m_head;
    for(int index = 1; index <= tempStack.size(); index++)
    {
        if(tempNode->data != tempStack.pop())
        {
            return false;
        }
        tempNode = tempNode->link;
    }
    return true;
}
Example #28
0
DTLZ::DTLZ(int ID, int numDim, const string &proName, int numObj) :BenchmarkFunction(ID, numDim, proName, numObj)
{
	if (m_numObj > m_numDim) throw myException("the number of dim must be greater or eaqual to the number of obj for DTLZ pros");
    setSearchRange(0.,1.);
	set<ProTag> p_tag = { MOP, CONT };
	setProTag(p_tag);
	setOptType(MIN_OPT,-1);
	m_popInitialMode=POP_INIT_UNIFORM;
	generateAdLoadPF();
}
Example #29
0
_CellType_&
World<_CellType_>::operator()
( int iPos, int jPos )
const
{
   /// DEBUG : Avoid out of range
   if( iPos >= engParamsPtr_->height_ )
   {
      cout << "iPos = " << iPos << ", jPos = " << jPos<< endl;
      throw myException( "iPos out of range (movingGrids)", __FILE__, __LINE__ ) ;
   }
   else if (jPos >= engParamsPtr_->width_)
   {
      cout << "iPos = " << iPos << ", jPos = " << jPos<< endl;
      throw myException( "jPos out of range (movingGrids)", __FILE__, __LINE__ ) ;
   }

   return cells_[ iPos * engParamsPtr_->width_ + jPos ] ;
}
Example #30
0
void DTLZ::generateAdLoadPF()
{
    const string problem_name[]= {"FUN_MOP_DTLZ1", "FUN_MOP_DTLZ2", "FUN_MOP_DTLZ3", "FUN_MOP_DTLZ4"};
	stringstream os;
	os<<Global::g_arg[param_workingDir]<<"Problem/FunctionOpt/Data/PF_"<<Global::g_arg[param_proName]<<"("<<Global::g_arg[param_numObj]<<")"<<"_Opt.txt";

    for (int i=0; i<4; i+=1) // problem
    {
		if(Global::g_arg[param_proName]!=problem_name[i])
			continue;
        const int M[5] = {3, 5, 8, 10, 15};
        for (int j=0; j<5; j+=1) // objectives
        {
			if(Global::g_arg[param_numObj]!=M[j])
				continue;
			ifstream infile(os.str());
			if(infile) 
			{	infile.close(); break; }
            ofstream ofile(os.str());

            if (M[j] <= 5) // #objectives <= 5
            {
                int p[2] = {12, 6}; // Check Section V, Table I in the original paper
                GeneratePF_OneLayer(ofile, problem_name[i], M[j], p[j]);
            }
            else
            {
                int p[3][2] = {{3, 2}, {3, 2}, {2, 1}}; // Check Section V, Table I in the original paper
                GeneratePF_TwoLayers(ofile, problem_name[i], M[j], p[j-2][0], p[j-2][1]);
            }
			ofile.close();
        }
    }
	int numObj=Global::g_arg[param_numObj];
	ifstream infile(os.str());
	if(!infile)
		throw myException("please set your own pareto front @DTLZ::generatePF()");
	string str;
	int line=0;
	while(getline(infile,str))
		++line;
	m_globalOpt.setNumOpts(line);
	m_originalGlobalOpt.setNumOpts(line);
	m_originalGlobalOpt.setFlagLocTrue();
	infile.close();
	infile.clear();
	infile.open(os.str());
	for(int i=0;i<line;i++)
		for(int j=0;j<numObj;j++)
			infile>>m_originalGlobalOpt[i].data().m_obj[j];
	m_globalOpt=m_originalGlobalOpt;
	infile.close();

	setObjSet();
}