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I am trying to find memory leak with Visual Leak Detector. It shows me m_neighbors.push_back(ent); causes leak.

(brief callstack = NeighborCalculatorDummy -> foreach -> list -> allocate)

I use it as NeighborCalculatorDummy<Entity *>, so pushback should just insert pointer in list without any allocation. All pointers to entities which come through addEntity are deleted elsewhere in code...

How is it possible for push_back to cause a leak?

template <typename entity_type>
class NeighborCalculatorDummy
    inline void addEntity(const entity_type & entity)

    void calculateNeighbors(const vector_type & position, flt32 radius)
        flt32 rSq = radius*radius;

        std::for_each(m_entities.begin(), m_entities.end(), [&](entity_type ent){
            if(lengthSq(ent->getPosition() - position) <= rSq)

    std::vector<entity_type> m_entities;
    std::list<entity_type> m_neighbors;


here is the code around NeighborCalculator

std::list<Vehicle *> vehicles;
vehicles.push_back(new Vehicle);
vehicles.push_back(new Vehicle);
vehicles.push_back(new Vehicle);

NeighborCalculatorDummy<Vehicle *> neighborCalculator = new NeighborCalculatorDummy<Vehicle *>();

std::for_each(vehicles.begin(), vehicles.end(), [&](Vehicle * vehicle){

//#3 impl of addEntity
template <typename entity_type>
void NeighborCalculatorDummy<entity_type>::addEntity(const entity_type & entity)
    m_entities.push_back(entity);  //m_entities is - std::vector<Vehicle *> 

//#4 end of program
delete neighborCalculator;

std::for_each(vehicles.begin(), vehicles.end(), [&](Vehicle * vehicle){
    delete vehicle;
share|improve this question
Where are you deleting the pointer with dynamically allocated memory? Where did you allocate it? –  Alok Save Oct 5 '11 at 12:38
You probably need to add more information, as what is the type of entity_type, and how the NeighborCalculatorDummy is used (is it being destroyed?) If the memory that is leaked was acquired in the push_back call, that seems to indicate that the list is not getting destroyed correctly. –  David Rodríguez - dribeas Oct 5 '11 at 12:39
Does CRT memory leak detector shows the same leak? –  Alex Farber Oct 5 '11 at 12:40
Add _CrtSetDbgFlag(_CrtSetDbgFlag(_CRTDBG_REPORT_FLAG) | _CRTDBG_LEAK_CHECK_DF) to the beginning of the program. Are memory leak reported when program is closed? –  Alex Farber Oct 5 '11 at 12:42
@Als see edit of my question, i put it there –  relaxxx Oct 7 '11 at 10:56

3 Answers 3

It seems to me that entity_type is a pointer (judging from the for_each lambda).

You probably wanted to use


instead of


in some other place of your code (not shown)

Of course the lambda would then be spelled differently:

[&](const entity_type& ent){
        if(lengthSq(ent.getPosition() - position) <= rSq)

and perhaps more similar spots that assumed the type of entity_type needed dereferencing.

Alternatively, you could use

  • vector<std::shared_ptr<entity_type> > instead
  • Boost Pointer Containers

These might be more appropriate when your entities are polymorphic types or non-copyables/movables. However, it is also likely more work to change you code around

share|improve this answer
While it might be possible that the user would want that different version, that does not explain the memory leak. It is not the SomeEntity object the one that is not being deallocated, but rather the list node (which is what is acquired from the allocator inside push_back) –  David Rodríguez - dribeas Oct 5 '11 at 12:42
+1 for the std::shared_ptr –  Tobias Langner Oct 5 '11 at 12:46
I do not want to use it like NeighborCalcDummy<Some> because It would create list of others Entities in NeighborCalcDummy. I want to work just with pointers with this class (since stl doesn't allowed create vecotr/list of references) –  relaxxx Oct 7 '11 at 11:04

With this definition, depending on entity_type, the code will leak or not.

  • If entity_type is a pointer, the default destructor will just call the destructor of vector. This will free the memory allocated for these pointers, but it will not call delete on them. If this class "owns" the items inside the vector and needs to free them, you need to add a destructor that calls delete for all items inside the vector. In this case, you might think about the template parameter as well as it does not make clear that a pointer is needed here.
  • If entity_type is a value type, the default destructor is sufficient as the copies placed into the vector will be deleted by the destructor of the vector.
share|improve this answer
up vote 0 down vote accepted

I have omitted virtual destructor in Entity's parent. That is why pushbacking it caused a leak.

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