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I have a double function

double Grid::getAverageNeighborhoodFitnessEvaluation(int agentPositionX, int agentPositionY)
{
  GetNeighbourhood(agentPositionX, agentPositionY,neighborhoodEvaluations);
  int neighborscount = 0;
  double fitnesssum = 0;
  double neighborfitness;
  double value;
  for (size_t i = 0; i < neighborhoodEvaluations.size(); ++i)
  {
    if ((*(neighborhoodEvaluations.at(i))) != NULL)
    {
      neighborfitness = (*(neighborhoodEvaluations.at(i)))->GetFitness();
      if(neighborfitness<0)
          neighborfitness=0;
      fitnesssum+=neighborfitness;
      neighborscount++;
    }
  }
  value = fitnesssum/neighborscount;
  return value;
}

GetNeighbourhood assigns an array of a defined type (Agent) to neighborhoodEvaluations

*(neighborhoodEvaluations.at(i)))->GetFitness(); returns a double that represents a value for that point in the array. These have all been used previously with no issues.

When called from my main (where RealX and RealY are two integers)

int currentFitness = getAverageNeighborhoodFitnessEvaluation(RealX,RealY);

always works

double currentFitness = getAverageNeighborhoodFitnessEvaluation(RealX,RealY);

causes Segmentation fault

Does anyone know what possibilities could result in this and/or what value an int can take but a double can't seem to?

So far i have traced the error to our Agent implementation

Agent.cpp

#include "Agent.h"

Agent::Agent(void)
{
    m_age = 0;
    m_fitness = -1;
}

Agent::~Agent(void)
{
}

int Agent::GetAge()
{
    return m_age;
}

double Agent::GetFitness()
{
    return m_fitness;
}

void Agent::IncreaseAge()
{
    m_age++;
}

AgentType Agent::GetType()
{
    return m_type;
}

Agent.h

#ifndef AGENT_H
#define AGENT_H

enum AgentType { candidateSolution, cupid, reaper, breeder};

class Agent
{
public:
    Agent(void);
    virtual ~Agent(void);

    double GetFitness();
    int GetAge();
    void IncreaseAge();
    AgentType GetType();
    virtual void RandomizeGenome() = 0;

protected:
    double m_fitness;
    AgentType m_type;
private:
    int m_age;
};
#endif // !AGENT_H

Can't seem to locate the exact problem though

share|improve this question
    
Are you sure that neighborhoodEvaluations.size() is always greater than zero? –  nabulke Oct 29 '12 at 12:46
6  
Whenever you get a "crash" such as segmentation fault, your first reaction should be to run your program in a debugger. It will help you locate where the crash is, as well as let you examine variables to help you find out the cause of the crash. –  Joachim Pileborg Oct 29 '12 at 12:47
    
Yes, but could also be zero –  masoftheund Oct 29 '12 at 12:47
    
Your code will crash if it is zero because value = fitnesssum/neighborscount; is a division by zero in that case. Just step through and check it with your debugger. –  nabulke Oct 29 '12 at 12:50
1  
Dividing by zero is perfectly valid for floating point numbers, so that won't cause a crash. But *neighborhoodEvaluations.at(i) looks a bit scary. I am tot sure exactly what neighborhoodEvaluations.at(i) returns, but if it is a pointer which you want to be non-null, it should be neighborhoodEvaluations.at(i) != NULL, not *neighborhoodEvaluations.at(i) != NULL. –  amaurea Oct 29 '12 at 12:53

2 Answers 2

up vote 0 down vote accepted

From your comment on the gdb debugger answer, I see that you are calling the GetFitness method on a null object (Agent::GetFitness (this=0x0)). This means that neighborhoodEvaluations.at(i) is returning a null-pointer. at() only checks for out of bounds, but if what was put into the array to begin with is a null pointer, at() won't help you. To guard agains this, you should change

if ((*(neighborhoodEvaluations.at(i))) != NULL)

into

if (neighborhoodEvaluations.at(i) != NULL)

If neighborhoodEvaluations is not supposed to contain null pointers, you will have to track down why getNeighborhood() is putting them there. Perhaps you are looking for out-of-bound neighbors for the elements at the edge of your set of points?

share|improve this answer
    
Tried this immediately you mentioned it first in the comments. Didn't make a difference :( –  masoftheund Oct 29 '12 at 15:55
    
Well, your gdb output shows you that you are getting an Agent* which is NULL. But perhaps there is another problem in addition to this. You should never ever see this=0x0, as it means that you are trying to call a method on an object which doesn't exist. Could you post a gdb backtrace from when it crashes, this time after you made the change I suggested? Perhaps that will bring new information to light. –  amaurea Oct 29 '12 at 15:59
    
will try that and get back –  masoftheund Oct 29 '12 at 16:20
    
Backtrace #0 0x0804923e in Agent::GetFitness (this=0x0) at Agent.cpp:22 #1 0x08054476 in Grid::getAverageNeighborhoodFitnessEvaluation (this=0xbfff52dc, agentPositionX=97, agentPositionY=9) at Grid.cpp:224 #2 0x0805400b in Grid::DoMovement (this=0xbfff52dc) at Grid.cpp:104 #3 0x0805702d in runEvolution () at main.cpp:36 #4 0x080584c4 in main (argc=2, argv=0xbffff344) at main.cpp:346 –  masoftheund Oct 30 '12 at 20:36
    
This tells you that in getAverageNeighborhoodFitnessEvaluation, you are trying to call GetFitness on a non-existant Agent. I.e. neighborhoodEvaluations.at(i) is returning an Agent* that is NULL, as I said. Are you sure you made the change I suggested? How about making it this, to be sure: Agent * agent = neighborhoodEvaluations.at(i); if(agent) { neighborfitness = agent->getFitness(); etc. } –  amaurea Oct 31 '12 at 13:07

Quickly get started on gdb debugger using this article http://www.cs.cmu.edu/~gilpin/tutorial/ . Then tell us which line produces the segmentation fault .

share|improve this answer
    
K. Will do that –  masoftheund Oct 29 '12 at 13:01
    
neighborfitness = (*(neighborhoodEvaluations.at(i)))->GetFitness(); Agent::GetFitness (this=0x0) at Agent.cpp. The GetFitness function is Agent.cpp is double Agent::GetFitness() { return m_fitness; } And is initially -1 –  masoftheund Oct 29 '12 at 13:08
    
could you put std::cout<<neighborhoodEvaluations.at(i)<<std::endl; just before the line you mentioned and check if you see a valid value just before segmentation fault . –  rajat Oct 29 '12 at 13:11
    
so....std::cout<<neighborhoodEvaluations.at(i)<<std::endl; before the line prints valid values and for some funny reason, no seg faults. Also tried std::cout<<(*(neighborhoodEvaluations.at(i)))->GetFitness()<<std::endl; with the same thing happening –  masoftheund Oct 29 '12 at 13:33
    
Is the input same every-time ? –  rajat Oct 29 '12 at 13:36

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