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OK, I suppose this question may sound too silly, but memory-management (especially in C/C++) has never been my strong point and since it's usually not a noticeable thing, I tend to overlook it. So, forgive me if all this sounds stupid. However, since my current project involves A LOT of data and processing, memory consumption easily goes above 2GB in a matter of seconds and it definitely slows the whole thing down, so... it's time I started thinking of ways how to fix it.


So, here is my situation...

My principal class (of which I'm creating some millions of instances (which hopefully are automatically deleted, since they stop being used), so supposedly this is the culprit) is (roughly) this :

class MyClass
{
    public:
        // My Constructors
        MyClass ();
        MyClass (std::string param);

        // My Destructor (still empty)
        virtual ~MyClass ();

        // Some methods
        void methodA(std::string moves);
        void methodB();

        //----------------------
        // My Variables
        //----------------------
        boost::array<int,64> arrA;
        boost::array<unsigned int,13> arrB;
        unsigned int key;

        boost::array<int,3> arrC;       
        int argA;
        int argB;
};

And this is (roughly - actual code has been altered) how the instances of the above class are created :

vector<MyClass*> SomeOtherClass::getListOfObjects()
{   
    vector<MyClass*> objects;

    for (int i=0; i<MAX_OBJS; i++)
    {
          // Do some preparatory work
          objects += new MyClass();
    }

    return objects;
}

And here's how the results of the above function are being used :

void SomeOtherClass::doSth()
{
    vector<MyClass*> objs = this->getListOfObjects();
    int objsSize = objs.size();

    for (int i=0; i<objsSize; i++)
    {
        MyClass* obj = objs[i];

        // Do sth with obj

        delete objs[i];
    }
}

So, my question is :

  • What should I do in my destructor, so that when the object is not needed anymore and thus released, all of its "subcomponents" are released too? (e.g. the 2 boost::arrays)

  • Is there anything wrong you notice with the approach above?


Please let me know if there's anything else you need to know about my implementation...

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2  
"it's usually not a noticeable thing, I tend to overlook it." -- Worst attitude ever. Are you familiar with the delete keyword? –  Jonathon Reinhart Jan 21 '13 at 7:33
    
you are missing copy/move constructors –  BЈовић Jan 21 '13 at 7:34
1  
There is no memory to be managed in your class. How many of these MyClass objects are you making? –  Jesse Good Jan 21 '13 at 7:37
2  
@Dr.Kameleon: I don't think any current memory allocator on current hardware could achieve that speed. Not to mention that the object has at least 336 bytes, so 100 millions are 33.6 GB and that does not fit to memory on common computer today. –  Jan Hudec Jan 21 '13 at 7:46
1  
You probably don't need a vector of pointers (use vector<MyClass> instead), just be careful since it's a lot more to copy (pass it by reference to getListOfObjects rather than returning it, which is probably a good idea in either case). –  Dukeling Jan 21 '13 at 8:07
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4 Answers

Your class members do not look to be dynamically allocated, in which case you don't need to explicitly delete anything in the destructor. If you happened to leave out some pointers to allocated memory, in this question, which you allocate with new, you would need to delete these in the destructor.

Remember, if you new you need to delete, similarly with new[]-delete[]. Barring the case of allocation to a std::unique_ptr.

If your MyClass objects themselves are allocated on the heap with new, then you would have to delete them.

p.s. if you are using C++11, you should probably use std::array now.


From your new code, it is obvious that whoever keeps the list returned from getListOfObjects(), needs to call delete on each element when its to be destroyed. It is likely the destructor of SomeOtherClass.

Alternatively you can wrap the MyClass* pointers within a std::unique_ptr or std::shared_ptr (or any of the boost smart pointers which might be relevant here) which would then delete automatically when the vector holding them goes out of scope and is destroyed.


If doSth is accurate in its representation, and ensures that ALL instances of MyClass get deleted, then this code seems fine, from a memory leak standpoint.

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Hmmm... I see your point. Perhaps, you're right. Give me a sec to test it out. –  Dr.Kameleon Jan 21 '13 at 7:38
1  
I assume that you could tell they were dynamically allocated because the class members would be pointers instead, correct? –  OpenLearner Jan 21 '13 at 7:38
    
@SebbyJohanns Yes thats what I was using.. let me add the caveat –  Karthik T Jan 21 '13 at 7:39
1  
@SebbyJohanns Pointer data members does not imply dynamic allocation. You have to check whether these pointers are made to point to some memory dynamically allocated with new or new[]. Even then it isn't 100% clear who's responsibility it is to call delete. Best to avoid raw pointers in these cases and use the appropriate smart pointer. –  juanchopanza Jan 21 '13 at 7:46
2  
@Dr.Kameleon you might want to edit the question to show the code where you allocate and deallocate the objects and the definition of the vector, and add these details there –  Karthik T Jan 21 '13 at 7:56
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All I see is a class that correctly manages it's memory. boost::array is a fancy wrapper over plain old array (boost::array<int,64> arrA is just int arrA[64] with methods added to make it a random-access read-only collection for standard library algorithms) and as such is allocated as part of the object.

Now if you say you have a leak, you apparently do mismanage memory somewhere, but it's not here.


In modern C++, it's trend to avoid writing the deletes yourself, leaving it up to specialized destructors instead. Given the allocating code above, the Boost.Pointer Container might be the right tool.

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This sounds a bit odd

My principal class (of which I'm creating some millions of instances (which hopefully are automatically deleted, since they stop being used)

If you are creating instances of MyClass and have not done it using smart pointers of some kind then they will not magically be deleted, you need to do the job.

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What I see is all allocated on stack. so they are being properly managed and well deleted in destructor. If there is a memory leak, may be you are calling new MyClass but not releasing them. or something elsewhere.

as I see in edited code there is a vector are you deleting the items of objects returned by SomeOtherClass::getListOfObjects ?

also you may use boost::shared_ptr<MyClass> instead of raw pointers MyClass*.

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"What I see is all allocated on stack" - not true... the members will be embedded where the object is created, which could be static, on the stack or on the heap. The crucial point is that whatever memory management is applied to the object will automatically handle the members... that's where you correctly warn against new Myclass sans release. –  Tony D Jan 21 '13 at 7:54
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