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The problem was a stupid error from another class accessing the vector and deleting iterators. Nothing to do with the code below. Sorry to waste your time.

I must be missing something elementary. I've got a function which creates an object, manipulates it's data and then pushes it into a vector. The moment the function exits, the program crashes with a SIGSEV, and I'm left staring at (Kdevelop gcc 4.5 gdb) :

   /**
   *  The dtor only erases the elements, and note that if the
   *  elements themselves are pointers, the pointed-to memory is
   *  not touched in any way.  Managing the pointer is the user's
   *  responsibility.
   */
  ~vector()
  { std::_Destroy(this->_M_impl._M_start, this->_M_impl._M_finish,
          _M_get_Tp_allocator()); }

I am not storing pointers, I'm trying to store instantiated objects.

void Init::initIndividual(int ID, int gen)
{
  Individual temp_person = Individual(ID,gen);
  int inst_size = getRandom<int>(1,max_inst_size);
  for (int k=0;k<inst_size;k++)
  {
    retry:
    // (1) randomly choose a body part
    int body_num = getRandom<int>(1,20);
    body_part temp_part = get_body_part(body_num);
    // NOTE: We need to make sure that the body part is unique!
    std::vector<Instruction> already_existing = temp_person.get_instructions();
    if (already_existing.size() > 0)
    {
      for (int a=0; a< already_existing.size();a++)
      {
       std::string name = already_existing[a].get_body_part();
       if ( name.compare(temp_part.name) == 0 )
       { //if body part already exists in the list, retry!
         goto retry;
       }
      }
    }    
    // (2) Create a new Instruction for this body part
    Instruction temp_inst = Instruction(temp_part.name,temp_part.max_angle,temp_part.min_angle);
    // (3) Randomly pick a number of body parameters to use
    int paramsize = getRandom<int>(1,max_params_size);
    // (4) Randomly choose time and degree trajectory parameters for this body part and append!
    for (int x=0;x < paramsize; x++)
    {
     float time = 0.0f;
     int choice = 0;
     // (4.a) If begin of body parameters
     if (x==0)
     {
   //if always start at time = 0
   if (static_time_init)
   {
     time = 0.0f;
   }
   //if randomly choose the init time
   else if (!static_time_init)
   {
     time = getRandom<float>(0.0f,(float)(time_constrain-1));
   }
     }
     // (4.b) if not @ start of params
     else if(x!=0)
     {
       redo:  
       float previous_time = temp_inst.parameters.back().time; //get previous time
       double incrementor = getRandom<double>(0.1,1.0); //increment time by min 0.1 max 1.0
       time = previous_time + (float)incrementor;
       if (time > time_constrain) //if current time is more than time constrain, redo
       { 
        goto redo;
       }
     }
     // (5) Randomly pick a degree to move to (within body part constrains)
     float degree = getRandom<float>(temp_inst.get_min_angle(),temp_inst.get_max_angle());
     Parameter foo = Parameter(time,degree);
     temp_inst.add_parameter(Parameter(time,degree));
   }
  temp_person.add_Instruction(temp_inst);
  }
  temp_person.endtime = time_constrain;
 }

That is the entire function.

 std::vector<Individual> population;

Doesn't the push_back function copy the object when pushing it back ? Is the destructor invoked because push_back is trying to destroy temp_person ? I have not defined a copy operator in class Individual. I have run into this problem before and never figured it out. Does this happen because at the end of the function temp_person is out of scope ? Thank you !

Edit: Class Individual

class Individual 
{
   friend class Population;
   friend class Crossover;
   friend class Init;
 private:
   std::string xml_file;
   char *arg4;
 protected:
   bool saved, mutated, dead;
   unsigned int UID, generation;
   int executions;
   std::vector<Instruction> instructions;
   int father_UID, mother_UID;
   double eta,endtime;
 public:
   int uniform;
   float fitness;
   pthread_mutex_t thread_mutex;
   //Some other functions irrelevant

Please note, that the vector of instructions has another vector of structs.

class Instruction 
{
  friend class Crossover;
 private:  
  unsigned int param_size;
  float max_angle, min_angle;
  bool micro_mutated;
 public:
  std::string body_part;
  std::vector<Parameter> parameters;
  //other stuff

class Parameter
{
  public:
   float time;
   float degree;
   Parameter(float t,float d);
};

Nothing crazy here.

Could this be a problem of a shallow copy obtained by the population.push_back ?

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2  
Does the class Individual follow the rule of three? Does it have any raw pointers pointing to heap memory or other handles to resources that are released in the destructor? –  FredOverflow Jun 24 '11 at 17:47
    
Can you post the definition of Individual? Specifically, does Individual contain a vector in some form? –  dolphy Jun 24 '11 at 17:48
    
Yes Individual contains vectors of other classes. Could this be it ? I'll post it below the question. –  Alex Jun 24 '11 at 17:50
2  
The crickets you hear chirping are a result of everyone reading and re-reading to make sure they are seeing the word goto. –  dolphy Jun 24 '11 at 18:16
1  
I think goto can have its uses, but it has to be extremely justified...(more than just convenience or cursory performance). All of those reasons would probably involve the words "political", or "legacy". Here's a discussion!. Regardless, I'm glad you found the issue. –  dolphy Jun 24 '11 at 19:25
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3 Answers

pthread_mutex_t thread_mutex;

Copying a pthread_mutex_t is not meaningful. I'd wager that's part of the problem. I have suspicions about your char* too; who owns it?


My justification as to why I believe pthread_mutex_t can't be copied: the only documented way to obtain an initialized mutex is from using pthread_mutex_init. Additionally, all the pthread_mutex_* functions manipulate mutexes using pass-by-pointer (unlike e.g. pthread_thread_t).

share|improve this answer
    
Copying pthread_mutex_t is not safe? Are you sure? –  Kiril Kirov Jun 24 '11 at 18:00
    
I didn't know its illegal to copy them, but threads are not used at this point. –  Alex Jun 24 '11 at 18:02
    
The pthread_mutex is initialized in the constructor. I can move this elsewhere since I use the threads later on for execution of many individuals at once. Nevertheless I do need a pthread_mutex belonging to the Individual. char * is uninitialized, it's used as a temp parameter, I could do without it. –  Alex Jun 24 '11 at 18:34
add comment
Doesn't the push_back function copy the object when pushing it back ? 

Yes, it does.

Is the destructor invoked because push_back is trying to destroy temp_person?

No, it is not. It is called because the temp object is destroyed at the end of the function.

I have not defined a copy operator in class Individual. 

Let us see the declaration of the class.

Does this happen because at the end of the function temp_person is out of scope ?

Yes, the temp object is destroyed, but if the class is OK, this should not be a problem. Again - we need to see the code.

I bet it's something with the constructor/destructor (:

By the way, is population global? Outch!

share|improve this answer
    
No, the entire code is part of another class who's private variables contain population. I've posted the rest of the classes, I guess I should also post the entire function that causes the problem ? –  Alex Jun 24 '11 at 17:55
    
@Alex - yes, please paste the whole problem function and let us know if it's public or it can be called from a public. I see mutex-es here, so it's multithreaded application. Are you sure everything's thread-safe? Also, what is char *arg4 for? How you deal with it? Do you use new[]/delete[] to allocate memory for it? If so, then you must to have some copy constructor to handle it properly, when copying the object (pushing it back into the vector) –  Kiril Kirov Jun 24 '11 at 17:59
    
There are no threads used at this point, it's all initialization used random values. I have not used new or delete anywhere in this project. char *arg4 is temporarily used to pass some values to a serializer. I'll post the entire function as it is. –  Alex Jun 24 '11 at 18:02
    
Could it be a shallow copy issue ? –  Alex Jun 24 '11 at 18:10
1  
@Alex - haha, take it easy, nobody's gonna hate you :D What was the error, I'm curious? About the init function - well, I can't say, without knowing the whole logic and without seeing the whole picture, which I can't, as it's too much code. But I'd advise to redesign your code, or at least this function. It looks too complicated and once one code got complicated - then there's something wrong with the logic :p And, by the way, these goto-s scare me, a little :D –  Kiril Kirov Jun 24 '11 at 18:52
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up vote 0 down vote accepted

The problem was a stupid error from another class accessing the vector and deleting iterators. Nothing to do with the code above. Sorry to waste your time.

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