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I'm using the code above to dynamically allocate an array, do some work inside the function, return an element of the array and free the memory outside of the function. But when I try to deallocate the array it doesn't free the memory and I have a memory leak. The debugger pointed to the myArray variable shows me the error CXX0030. Why?

struct MYSTRUCT
{
    char *myvariable1;
    int myvariable2;
    char *myvariable2;

    ....
};

void MyClass::MyFunction1()
{
    MYSTRUCT *myArray= NULL;

    MYSTRUCT *myElement = this->MyFunction2(myArray);

    ...

    delete [] myArray;
}

MYSTRUCT* MyClass::MyFunction2(MYSTRUCT *array)
{
    array = (MYSTRUCT*)operator new(bytesLength);

    ...

    return array[X];
}
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3 Answers 3

up vote 3 down vote accepted

You allocate the array in MyFunction2, but you don't return its address. The argument to MyFunction2 is by value, so you pass a copy of myArray to it when you call it, but the function itself can never change the value of the caller's local variable.

The simple and obvious answer to your problem is to declare the parameter of MyFunction2 to be a reference, e.g.:

MYSTRUCT* MyClass::MyFunction2(MYSTRUCT*& array)...

A much better solution, however, would be to use std::vector, and not worry about the deallocations.

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you're a genious :D it works with &. I tried to use std::vector but using the Microsoft function that I need to generate the elements of the array I will get some strange behavior. For example, the first element of the array will be at position 0, the second at position 3, the third at position 7, etc. –  Stefano Nov 28 '11 at 18:01
    
@Stefano It would be interesting to know what this Microsoft function is. It sounds to me like you have an error in your structure definition: std::vector<MyStruct> v(n) results in a data structure exactly the same as MyStruct* v = new MyStruct[n] (but the data are initialized, and will automatically be deleted). –  James Kanze Nov 29 '11 at 10:32
    
the function is GetAdapterAddresses –  Stefano Nov 29 '11 at 14:41
    
@Stefano I can't find any similar array (or any array) in the arguments to GetAdaptersAddresses; if I understand the function documentation correctly, what is actually wanted is some raw memory, in which the function will build a linked list of IP_ADAPTER_ADDRESSES. I'm not sure how to best express this in C++: I'd probably just use a vector<unsigned char> and reinterpret_cast, but possibly a vector of union { unsigned char[n], IP_ADAPTER_ADDRESSES }. The important point is that you cannot index into an array of IP_ADAPTER_ADDRESSES; you have to follow the links in the list. –  James Kanze Nov 30 '11 at 14:47
1  
@Stefano yes, but std::vector<unsigned char> buf( byteCount ) will do basically the same thing, with the difference that it will automatically deallocate the memory, even if there is an exception. All you might want to do is void* pBuf = &buf[0];, so you end up with a void* (and can use static_cast rather than reinterpret_cast). If you're having trouble getting this to work, please post a question with the actual code, even if it is a bit long. (In this case, IMHO, it is justified, because the interface to this function is very special.) –  James Kanze Dec 1 '11 at 9:52

The only time you should use delete[] is when you've allocated with new[], but that's not what you're doing. You're using operator new, which isn't what you should use for general-purpose array allocation. Use new[] instead. Or use a vector.

Furthermore, although you pass myArray to MyFunction2 as array and then assign a new value to array inside the function, that doesn't change the value of myArray in the caller. That variable retains its original null value, so your delete[] call does nothing. You can change array to be passed by reference instead of by value so changes to it will be reflected in its actual parameter in the caller.

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I would use something more C++ style and operator new seems to do the trick. Also, operator new is the only way I know in native C++ to alloc an array by size and not by elements number –  Stefano Nov 28 '11 at 17:48
    
@Stefano new MYSTRUCT[bytesLength / sizeof(MYSTRUCT)]; –  Pubby Nov 28 '11 at 17:50
    
You're right that operator new is the way to allocate by size instead of element number, but you shouldn't do that. If you want an array of MYSTRUCT, then use new[] to allocate an array of MYSTRUCT. Anything else just gives you a block of bytes, and whether that block of bytes is suitable to treat as something else is implementation-defined. –  Rob Kennedy Nov 28 '11 at 17:52
    
@Pubby Some people said me that the code you wrote rounds down instead of up. Also, unless bytesLength is a multiple of sizeof(MYSTRUCT), I've got a buffer overflow. –  Stefano Nov 28 '11 at 17:56
    
@RobKennedy Inside MyFunction2 I'm using a function from Microsoft that will do some work with the array and will return me myArray as a list of MYSTRUCT. This is why I cannot alloc the array by number of elements (I don't know how many of them there will be exactly). The first time I call the MS function I will get bytesLength –  Stefano Nov 28 '11 at 17:58

You allocate the array inside of MyFunction2 and never free it. And in the MyFunction1 you delete[] the null pointer, which is a no-op. I'm not sure I can tell you what you should've done instead, because your intentions aren't clear.

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what I want to do is get an array that is allocated inside MyFunction2. After this, I must be able to do some work on it and return a specific element of that array to MyFunction1. If I free the array inside MyFunction2 I will lose everything and inside Myfunction1 I won't be able to use the element that I returned –  Stefano Nov 28 '11 at 17:51
    
You probably want to pass the pointer to pointer or reference to pointer, like James suggested and use new[]. –  Michael Krelin - hacker Nov 28 '11 at 17:54

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