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In my custom stack allocator, I allocate a large amount of memory at when the program launches using malloc(), then at program shutdown I free() all the memory allocated.

So basically it looks like this:

//start up
m_pInitialPosition = malloc(STACK_SIZE);


When I need to create a new object I call allocateNew():

 Actor* pActor = getStackAllocator().allocateNew<Actor>();
 *pActor = Actor();

This is what allocateNew() looks like:

template <class T>
T* allocateNew()
   //allocate returns void*
   return new (allocate(sizeof(T), __alignof(T))) T;

The problem occurs (_BLOCK_TYPE_IS_VALID(pHead->nBlockUse exception) if I call:

delete pActor;

If I simply remove that line the problem disappears and there are no memory leaks because the I still call free() in the stack allocator, but the destructor of Actor is not called...

So what can I change to ensure that the destructor is called?

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What does the deallocation complement of allocateNew look like? That would be where you need to call the destructor. –  Charles Bailey Jun 9 '12 at 15:10
Where does the memory from the first malloc call get used? It seems that you are just allocating new memory for the pActor. Where does the malloced memory get used? And why are you using malloc in the first place? You should be using new and delete. malloc isen't aware of objects or destructors. –  Linuxios Jun 9 '12 at 15:11 the allocate() method returns a pointer to the memory allocated using the malloc(), so the new() inside the allocateNew() method doesn't really allocate new memory. –  Tiago Costa Jun 9 '12 at 15:18
Why are you using malloc? What's wrong with new? Why are you using delete with malloc? This is wrong. –  Eitan T Jun 9 '12 at 15:33
@EitanT: He is using free with malloc, the mistake is using delete to pair with placement new. –  Charles Bailey Jun 9 '12 at 15:40

2 Answers 2

up vote 2 down vote accepted

When you call delete, the object pointed by pActor will be destructed and the memory will be freed using the default deallocator (could be free()), not yours. Since the object has been allocated by your allocator, it cannot work.

Define a new method to handle object deletion like this one :

template<class T> void deleteObject(T *obj) {
   if (obj!=nullptr) {  // do nothing is obj is null
      obj->~T(); // call the object's destructor
      deallocate(obj);  // your method to handle deallocation in your 'memory pool'

And replace your delete by :


This article explains how to make a custom memory allocator :

Moreover, I have a doubt about your code. What are these lines supposed to do ?

Actor* pActor = getStackAllocator().allocateNew<Actor>();
*pActor = Actor();

1- If allocateNew() performs both allocation & default construction, it is ok but the second line is useless ? 2- If allocateNew() only performs allocation without initializing the object, the second line is wrong : it calls the assignment operator on an uninitialized object.

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delete pActor is not the appropriate complement to placement new. To "undo" the object construction new (allocate(sizeof(T), __alignof(T))) T you need to call the destructor only, not use delete which will also try to deallocate memory at the location pointer to by pActor



You should probably wrap this up in a member function of your stack allocator class so that it's clients don't have to magically know how to deallocate objects that you give them and to give you the freedom to update your allocator's implementation.


template <class T>
void deallocate(T* t)
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